v0.11.2

env installation fix
fix pack install 2 fix pip install & git install failed fix pack build 1 Update SKILL.md Update Skills Update registry for all param desc
2026-05-23 19:33:39 +00:00 · 2026-05-14 18:21:43 +08:00 · 2026-05-14 18:21:22 +08:00 · 2026-04-27 20:28:18 +08:00 · 2026-04-22 19:54:59 +08:00 · 2026-04-22 19:54:57 +08:00
78 changed files with 3288 additions and 6709 deletions
--- a/.conda/base/recipe.yaml
+++ b/.conda/base/recipe.yaml
@@ -3,7 +3,7 @@
 package:
  name: unilabos
-  version: 0.11.1
+  version: 0.11.2
 source:
  path: ../../unilabos
@@ -54,7 +54,7 @@ requirements:
  - pymodbus
  - matplotlib
  - pylibftdi
-  - uni-lab::unilabos-env ==0.11.1
+  - uni-lab::unilabos-env ==0.11.2
 about:
  repository: https://github.com/deepmodeling/Uni-Lab-OS
--- a/.conda/environment/recipe.yaml
+++ b/.conda/environment/recipe.yaml
@@ -2,7 +2,7 @@
 package:
  name: unilabos-env
-  version: 0.11.1
+  version: 0.11.2
 build:
  noarch: generic
--- a/.conda/full/recipe.yaml
+++ b/.conda/full/recipe.yaml
@@ -3,7 +3,7 @@
 package:
  name: unilabos-full
-  version: 0.11.1
+  version: 0.11.2
 build:
  noarch: generic
@@ -11,7 +11,7 @@ build:
 requirements:
  run:
  # Base unilabos package (includes unilabos-env)
-  - uni-lab::unilabos ==0.11.1
+  - uni-lab::unilabos ==0.11.2
  # Documentation tools
  - sphinx
  - sphinx_rtd_theme
--- a/.cursor/rules/device-drivers.mdc
+++ b/.cursor/rules/device-drivers.mdc
@@ -1,328 +0,0 @@
 ---
 description: 设备驱动开发规范
 globs: ["unilabos/devices/**/*.py"]
 ---
 # 设备驱动开发规范
 ## 目录结构
 ```
 unilabos/devices/
 ├── virtual/           # 虚拟设备（用于测试）
 │   ├── virtual_stirrer.py
 │   └── virtual_centrifuge.py
 ├── liquid_handling/   # 液体处理设备
 ├── balance/           # 天平设备
 ├── hplc/              # HPLC设备
 ├── pump_and_valve/    # 泵和阀门
 ├── temperature/       # 温度控制设备
 ├── workstation/       # 工作站（组合设备）
 └── ...
 ```
 ## 设备类完整模板
 ```python
 import asyncio
 import logging
 import time as time_module
 from typing import Dict, Any, Optional
 from unilabos.ros.nodes.base_device_node import BaseROS2DeviceNode
 class MyDevice:
    """
    设备类描述
    Attributes:
        device_id: 设备唯一标识
        config: 设备配置字典
        data: 设备状态数据
    """
    _ros_node: BaseROS2DeviceNode
    def __init__(
        self,
        device_id: str = None,
        config: Dict[str, Any] = None,
        **kwargs
    ):
        """
        初始化设备
        Args:
            device_id: 设备ID
            config: 配置字典
            **kwargs: 其他参数
        """
        # 兼容不同调用方式
        if device_id is None and 'id' in kwargs:
            device_id = kwargs.pop('id')
        if config is None and 'config' in kwargs:
            config = kwargs.pop('config')
        self.device_id = device_id or "unknown_device"
        self.config = config or {}
        self.data = {}
        # 从config读取参数
        self.port = self.config.get('port') or kwargs.get('port', 'COM1')
        self._max_value = self.config.get('max_value', 1000.0)
        # 初始化日志
        self.logger = logging.getLogger(f"MyDevice.{self.device_id}")
        self.logger.info(f"设备 {self.device_id} 已创建")
    def post_init(self, ros_node: BaseROS2DeviceNode):
        """
        ROS节点注入 - 在ROS节点创建后调用
        Args:
            ros_node: ROS2设备节点实例
        """
        self._ros_node = ros_node
    async def initialize(self) -> bool:
        """
        初始化设备 - 连接硬件、设置初始状态
        Returns:
            bool: 初始化是否成功
        """
        self.logger.info(f"初始化设备 {self.device_id}")
        try:
            # 执行硬件初始化
            # await self._connect_hardware()
            # 设置初始状态
            self.data.update({
                "status": "待机",
                "is_running": False,
                "current_value": 0.0,
            })
            self.logger.info(f"设备 {self.device_id} 初始化完成")
            return True
        except Exception as e:
            self.logger.error(f"初始化失败: {e}")
            self.data["status"] = f"错误: {e}"
            return False
    async def cleanup(self) -> bool:
        """
        清理设备 - 断开连接、释放资源
        Returns:
            bool: 清理是否成功
        """
        self.logger.info(f"清理设备 {self.device_id}")
        self.data.update({
            "status": "离线",
            "is_running": False,
        })
        return True
    # ==================== 设备动作 ====================
    async def execute_action(
        self,
        param1: float,
        param2: str = "",
        **kwargs
    ) -> bool:
        """
        执行设备动作
        Args:
            param1: 参数1
            param2: 参数2（可选）
        Returns:
            bool: 动作是否成功
        """
        # 类型转换和验证
        try:
            param1 = float(param1)
        except (ValueError, TypeError) as e:
            self.logger.error(f"参数类型错误: {e}")
            return False
        # 参数验证
        if param1 > self._max_value:
            self.logger.error(f"参数超出范围: {param1} > {self._max_value}")
            return False
        self.logger.info(f"执行动作: param1={param1}, param2={param2}")
        # 更新状态
        self.data.update({
            "status": "运行中",
            "is_running": True,
        })
        # 执行动作（带进度反馈）
        duration = 10.0  # 秒
        start_time = time_module.time()
        while True:
            elapsed = time_module.time() - start_time
            remaining = max(0, duration - elapsed)
            progress = min(100, (elapsed / duration) * 100)
            self.data.update({
                "status": f"运行中: {progress:.0f}%",
                "remaining_time": remaining,
            })
            if remaining <= 0:
                break
            await self._ros_node.sleep(1.0)
        # 完成
        self.data.update({
            "status": "完成",
            "is_running": False,
        })
        self.logger.info("动作执行完成")
        return True
    # ==================== 状态属性 ====================
    @property
    def status(self) -> str:
        """设备状态 - 自动发布为ROS Topic"""
        return self.data.get("status", "未知")
    @property
    def is_running(self) -> bool:
        """是否正在运行"""
        return self.data.get("is_running", False)
    @property
    def current_value(self) -> float:
        """当前值"""
        return self.data.get("current_value", 0.0)
    # ==================== 辅助方法 ====================
    def get_device_info(self) -> Dict[str, Any]:
        """获取设备信息"""
        return {
            "device_id": self.device_id,
            "status": self.status,
            "is_running": self.is_running,
            "current_value": self.current_value,
        }
    def __str__(self) -> str:
        return f"MyDevice({self.device_id}: {self.status})"
 ```
 ## 关键规则
 ### 1. 参数处理
 所有动作方法的参数都可能以字符串形式传入，必须进行类型转换：
 ```python
 async def my_action(self, value: float, **kwargs) -> bool:
    # 始终进行类型转换
    try:
        value = float(value)
    except (ValueError, TypeError) as e:
        self.logger.error(f"参数类型错误: {e}")
        return False
 ```
 ### 2. vessel 参数处理
 vessel 参数可能是字符串ID或字典：
 ```python
 def extract_vessel_id(vessel: Union[str, dict]) -> str:
    if isinstance(vessel, dict):
        return vessel.get("id", "")
    return str(vessel) if vessel else ""
 ```
 ### 3. 状态更新
 使用 `self.data` 字典存储状态，属性读取状态：
 ```python
 # 更新状态
 self.data["status"] = "运行中"
 self.data["current_speed"] = 300.0
 # 读取状态（通过属性）
@property
 def status(self) -> str:
    return self.data.get("status", "待机")
 ```
 ### 4. 异步等待
 使用 ROS 节点的 sleep 方法：
 ```python
 # 正确
 await self._ros_node.sleep(1.0)
 # 避免（除非在纯 Python 测试环境）
 await asyncio.sleep(1.0)
 ```
 ### 5. 进度反馈
 长时间运行的操作需要提供进度反馈：
 ```python
 while remaining > 0:
    progress = (elapsed / total_time) * 100
    self.data["status"] = f"运行中: {progress:.0f}%"
    self.data["remaining_time"] = remaining
    await self._ros_node.sleep(1.0)
 ```
 ## 虚拟设备
 虚拟设备用于测试和演示，放在 `unilabos/devices/virtual/` 目录：
 - 类名以 `Virtual` 开头
 - 文件名以 `virtual_` 开头
 - 模拟真实设备的行为和时序
 - 使用表情符号增强日志可读性（可选）
 ## 工作站设备
 工作站是组合多个设备的复杂设备：
 ```python
 from unilabos.devices.workstation.workstation_base import WorkstationBase
 class MyWorkstation(WorkstationBase):
    """组合工作站"""
    async def execute_workflow(self, workflow: Dict[str, Any]) -> bool:
        """执行工作流"""
        pass
 ```
 ## 设备注册
 设备类开发完成后，需要在注册表中注册：
 1. 创建/编辑 `unilabos/registry/devices/my_category.yaml`
 2. 添加设备配置（参考 `virtual_device.yaml`）
 3. 运行 `--complete_registry` 自动生成 schema
--- a/.cursor/rules/protocol-development.mdc
+++ b/.cursor/rules/protocol-development.mdc
@@ -1,240 +0,0 @@
 ---
 description: 协议编译器开发规范
 globs: ["unilabos/compile/**/*.py"]
 ---
 # 协议编译器开发规范
 ## 概述
 协议编译器负责将高级实验操作（如 Stir、Add、Filter）编译为设备可执行的动作序列。
 ## 文件命名
 - 位置: `unilabos/compile/`
 - 命名: `{operation}_protocol.py`
 - 示例: `stir_protocol.py`, `add_protocol.py`, `filter_protocol.py`
 ## 协议函数模板
 ```python
 from typing import List, Dict, Any, Union
 import networkx as nx
 import logging
 from .utils.unit_parser import parse_time_input
 from .utils.vessel_parser import extract_vessel_id
 logger = logging.getLogger(__name__)
 def generate_{operation}_protocol(
    G: nx.DiGraph,
    vessel: Union[str, dict],
    param1: Union[str, float] = "0",
    param2: float = 0.0,
    **kwargs
 ) -> List[Dict[str, Any]]:
    """
    生成{操作}协议序列
    Args:
        G: 物理拓扑图 (NetworkX DiGraph)
        vessel: 容器ID或Resource字典
        param1: 参数1（支持字符串单位，如 "5 min"）
        param2: 参数2
        **kwargs: 其他参数
    Returns:
        List[Dict]: 动作序列
    Raises:
        ValueError: 参数无效时
    """
    # 1. 提取 vessel_id
    vessel_id = extract_vessel_id(vessel)
    # 2. 验证参数
    if not vessel_id:
        raise ValueError("vessel 参数不能为空")
    if vessel_id not in G.nodes():
        raise ValueError(f"容器 '{vessel_id}' 不存在于系统中")
    # 3. 解析参数（支持单位）
    parsed_param1 = parse_time_input(param1)  # "5 min" -> 300.0
    # 4. 查找设备
    device_id = find_connected_device(G, vessel_id, device_type="my_device")
    # 5. 生成动作序列
    action_sequence = []
    action = {
        "device_id": device_id,
        "action_name": "my_action",
        "action_kwargs": {
            "vessel": {"id": vessel_id},  # 始终使用字典格式
            "param1": float(parsed_param1),
            "param2": float(param2),
        }
    }
    action_sequence.append(action)
    logger.info(f"生成协议: {len(action_sequence)} 个动作")
    return action_sequence
 def find_connected_device(
    G: nx.DiGraph,
    vessel_id: str,
    device_type: str = ""
 ) -> str:
    """
    查找与容器相连的设备
    Args:
        G: 拓扑图
        vessel_id: 容器ID
        device_type: 设备类型关键字
    Returns:
        str: 设备ID
    """
    # 查找所有匹配类型的设备
    device_nodes = []
    for node in G.nodes():
        node_class = G.nodes[node].get('class', '') or ''
        if device_type.lower() in node_class.lower():
            device_nodes.append(node)
    # 检查连接
    if vessel_id and device_nodes:
        for device in device_nodes:
            if G.has_edge(device, vessel_id) or G.has_edge(vessel_id, device):
                return device
    # 返回第一个可用设备
    if device_nodes:
        return device_nodes[0]
    # 默认设备
    return f"{device_type}_1"
 ```
 ## 关键规则
 ### 1. vessel 参数处理
 vessel 参数可能是字符串或字典，需要统一处理：
 ```python
 def extract_vessel_id(vessel: Union[str, dict]) -> str:
    """提取vessel_id"""
    if isinstance(vessel, dict):
        # 可能是 {"id": "xxx"} 或完整 Resource 对象
        return vessel.get("id", list(vessel.values())[0].get("id", ""))
    return str(vessel) if vessel else ""
 ```
 ### 2. action_kwargs 中的 vessel
 始终使用 `{"id": vessel_id}` 格式传递 vessel：
 ```python
 # 正确
 "action_kwargs": {
    "vessel": {"id": vessel_id},  # 字符串ID包装为字典
 }
 # 避免
 "action_kwargs": {
    "vessel": vessel_resource,  # 不要传递完整 Resource 对象
 }
 ```
 ### 3. 单位解析
 使用 `parse_time_input` 解析时间参数：
 ```python
 from .utils.unit_parser import parse_time_input
 # 支持格式: "5 min", "1 h", "300", "1.5 hours"
 time_seconds = parse_time_input("5 min")  # -> 300.0
 time_seconds = parse_time_input(120)      # -> 120.0
 time_seconds = parse_time_input("1 h")    # -> 3600.0
 ```
 ### 4. 参数验证
 所有参数必须进行验证和类型转换：
 ```python
 # 验证范围
 if speed < 10.0 or speed > 1500.0:
    logger.warning(f"速度 {speed} 超出范围，修正为 300")
    speed = 300.0
 # 类型转换
 param = float(param) if not isinstance(param, (int, float)) else param
 ```
 ### 5. 日志记录
 使用项目日志记录器：
 ```python
 logger = logging.getLogger(__name__)
 def generate_protocol(...):
    logger.info(f"开始生成协议...")
    logger.debug(f"参数: vessel={vessel_id}, time={time}")
    logger.warning(f"参数修正: {old_value} -> {new_value}")
 ```
 ## 便捷函数
 为常用操作提供便捷函数：
 ```python
 def stir_briefly(G: nx.DiGraph, vessel: Union[str, dict],
                speed: float = 300.0) -> List[Dict[str, Any]]:
    """短时间搅拌（30秒）"""
    return generate_stir_protocol(G, vessel, time="30", stir_speed=speed)
 def stir_vigorously(G: nx.DiGraph, vessel: Union[str, dict],
                   time: str = "5 min") -> List[Dict[str, Any]]:
    """剧烈搅拌"""
    return generate_stir_protocol(G, vessel, time=time, stir_speed=800.0)
 ```
 ## 测试函数
 每个协议文件应包含测试函数：
 ```python
 def test_{operation}_protocol():
    """测试协议生成"""
    # 测试参数处理
    vessel_dict = {"id": "flask_1", "name": "反应瓶1"}
    vessel_id = extract_vessel_id(vessel_dict)
    assert vessel_id == "flask_1"
    # 测试单位解析
    time_s = parse_time_input("5 min")
    assert time_s == 300.0
 if __name__ == "__main__":
    test_{operation}_protocol()
 ```
 ## 现有协议参考
 - `stir_protocol.py` - 搅拌操作
 - `add_protocol.py` - 添加物料
 - `filter_protocol.py` - 过滤操作
 - `heatchill_protocol.py` - 加热/冷却
 - `separate_protocol.py` - 分离操作
 - `evaporate_protocol.py` - 蒸发操作
--- a/.cursor/rules/registry-config.mdc
+++ b/.cursor/rules/registry-config.mdc
@@ -1,319 +0,0 @@
 ---
 description: 注册表配置规范 (YAML)
 globs: ["unilabos/registry/**/*.yaml"]
 ---
 # 注册表配置规范
 ## 概述
 注册表使用 YAML 格式定义设备和资源类型，是 Uni-Lab-OS 的核心配置系统。
 ## 目录结构
 ```
 unilabos/registry/
 ├── devices/              # 设备类型注册
 │   ├── virtual_device.yaml
 │   ├── liquid_handler.yaml
 │   └── ...
 ├── device_comms/         # 通信设备配置
 │   ├── communication_devices.yaml
 │   └── modbus_ioboard.yaml
 └── resources/            # 资源类型注册
    ├── bioyond/
    ├── organic/
    ├── opentrons/
    └── ...
 ```
 ## 设备注册表格式
 ### 基本结构
 ```yaml
 device_type_id:
  # 基本信息
  description: "设备描述"
  version: "1.0.0"
  category:
    - category_name
  icon: "icon_device.webp"
  # 类配置
  class:
    module: "unilabos.devices.my_module:MyClass"
    type: python
    # 状态类型（属性 -> ROS消息类型）
    status_types:
      status: String
      temperature: Float64
      is_running: Bool
    # 动作映射
    action_value_mappings:
      action_name:
        type: UniLabJsonCommand  # 或 UniLabJsonCommandAsync
        goal: {}
        feedback: {}
        result: {}
        schema: {...}
        handles: {}
 ```
 ### action_value_mappings 详细格式
 ```yaml
 action_value_mappings:
  # 同步动作
  my_sync_action:
    type: UniLabJsonCommand
    goal:
      param1: param1
      param2: param2
    feedback: {}
    result:
      success: success
      message: message
    goal_default:
      param1: 0.0
      param2: ""
    handles: {}
    placeholder_keys:
      device_param: unilabos_devices   # 设备选择器
      resource_param: unilabos_resources  # 资源选择器
    schema:
      title: "动作名称参数"
      description: "动作描述"
      type: object
      properties:
        goal:
          type: object
          properties:
            param1:
              type: number
            param2:
              type: string
          required:
            - param1
        feedback: {}
        result:
          type: object
          properties:
            success:
              type: boolean
            message:
              type: string
      required:
        - goal
  # 异步动作
  my_async_action:
    type: UniLabJsonCommandAsync
    goal: {}
    feedback:
      progress: progress
      current_status: status
    result:
      success: success
    schema: {...}
 ```
 ### 自动生成的动作
 以 `auto-` 开头的动作由系统自动生成：
 ```yaml
 action_value_mappings:
  auto-initialize:
    type: UniLabJsonCommandAsync
    goal: {}
    feedback: {}
    result: {}
    schema: {...}
  auto-cleanup:
    type: UniLabJsonCommandAsync
    goal: {}
    feedback: {}
    result: {}
    schema: {...}
 ```
 ### handles 配置
 用于工作流编辑器中的数据流连接：
 ```yaml
 handles:
  input:
    - handler_key: "input_resource"
      data_type: "resource"
      label: "输入资源"
      data_source: "handle"
      data_key: "resources"
  output:
    - handler_key: "output_labware"
      data_type: "resource"
      label: "输出器皿"
      data_source: "executor"
      data_key: "created_resource.@flatten"
 ```
 ## 资源注册表格式
 ```yaml
 resource_type_id:
  description: "资源描述"
  version: "1.0.0"
  category:
    - category_name
  icon: ""
  handles: []
  init_param_schema: {}
  class:
    module: "unilabos.resources.my_module:MyResource"
    type: pylabrobot  # 或 python
 ```
 ### PyLabRobot 资源示例
 ```yaml
 BIOYOND_Electrolyte_6VialCarrier:
  category:
    - bottle_carriers
    - bioyond
  class:
    module: "unilabos.resources.bioyond.bottle_carriers:BIOYOND_Electrolyte_6VialCarrier"
    type: pylabrobot
  version: "1.0.0"
 ```
 ## 状态类型映射
 Python 类型到 ROS 消息类型的映射：
 | Python 类型 | ROS 消息类型 |
 |------------|-------------|
 | `str` | `String` |
 | `bool` | `Bool` |
 | `int` | `Int64` |
 | `float` | `Float64` |
 | `list` | `String` (序列化) |
 | `dict` | `String` (序列化) |
 ## 自动完善注册表
 使用 `--complete_registry` 参数自动生成 schema：
 ```bash
 python -m unilabos.app.main --complete_registry
 ```
 这会：
 1. 扫描设备类的方法签名
 2. 自动生成 `auto-` 前缀的动作
 3. 生成 JSON Schema
 4. 更新 YAML 文件
 ## 验证规则
 1. **device_type_id** 必须唯一
 2. **module** 路径必须正确可导入
 3. **status_types** 的类型必须是有效的 ROS 消息类型
 4. **schema** 必须是有效的 JSON Schema
 ## 示例：完整设备配置
 ```yaml
 virtual_stirrer:
  category:
    - virtual_device
  description: "虚拟搅拌器设备"
  version: "1.0.0"
  icon: "icon_stirrer.webp"
  handles: []
  init_param_schema: {}
  class:
    module: "unilabos.devices.virtual.virtual_stirrer:VirtualStirrer"
    type: python
    status_types:
      status: String
      operation_mode: String
      current_speed: Float64
      is_stirring: Bool
      remaining_time: Float64
    action_value_mappings:
      auto-initialize:
        type: UniLabJsonCommandAsync
        goal: {}
        feedback: {}
        result: {}
        schema:
          title: "initialize参数"
          type: object
          properties:
            goal:
              type: object
              properties: {}
            feedback: {}
            result: {}
          required:
            - goal
      stir:
        type: UniLabJsonCommandAsync
        goal:
          stir_time: stir_time
          stir_speed: stir_speed
          settling_time: settling_time
        feedback:
          current_speed: current_speed
          remaining_time: remaining_time
        result:
          success: success
        goal_default:
          stir_time: 60.0
          stir_speed: 300.0
          settling_time: 30.0
        handles: {}
        schema:
          title: "stir参数"
          description: "搅拌操作"
          type: object
          properties:
            goal:
              type: object
              properties:
                stir_time:
                  type: number
                  description: "搅拌时间（秒）"
                stir_speed:
                  type: number
                  description: "搅拌速度（RPM）"
                settling_time:
                  type: number
                  description: "沉降时间（秒）"
              required:
                - stir_time
                - stir_speed
            feedback:
              type: object
              properties:
                current_speed:
                  type: number
                remaining_time:
                  type: number
            result:
              type: object
              properties:
                success:
                  type: boolean
          required:
            - goal
 ```
--- a/.cursor/rules/ros-integration.mdc
+++ b/.cursor/rules/ros-integration.mdc
@@ -1,233 +0,0 @@
 ---
 description: ROS 2 集成开发规范
 globs: ["unilabos/ros/**/*.py", "**/*_node.py"]
 ---
 # ROS 2 集成开发规范
 ## 概述
 Uni-Lab-OS 使用 ROS 2 作为设备通信中间件，基于 rclpy 实现。
 ## 核心组件
 ### BaseROS2DeviceNode
 设备节点基类，提供：
 - ROS Topic 自动发布（状态属性）
 - Action Server 自动创建（设备动作）
 - 资源管理服务
 - 异步任务调度
 ```python
 from unilabos.ros.nodes.base_device_node import BaseROS2DeviceNode
 ```
 ### 消息转换器
 ```python
 from unilabos.ros.msgs.message_converter import (
    convert_to_ros_msg,
    convert_from_ros_msg_with_mapping,
    msg_converter_manager,
    ros_action_to_json_schema,
    ros_message_to_json_schema,
 )
 ```
 ## 设备与 ROS 集成
 ### post_init 方法
 设备类必须实现 `post_init` 方法接收 ROS 节点：
 ```python
 class MyDevice:
    _ros_node: BaseROS2DeviceNode
    def post_init(self, ros_node: BaseROS2DeviceNode):
        """ROS节点注入"""
        self._ros_node = ros_node
 ```
 ### 状态属性发布
 设备的 `@property` 属性会自动发布为 ROS Topic：
 ```python
 class MyDevice:
    @property
    def temperature(self) -> float:
        return self._temperature
    # 自动发布到 /{namespace}/temperature Topic
 ```
 ### Topic 配置装饰器
 ```python
 from unilabos.utils.decorator import topic_config
 class MyDevice:
    @property
    @topic_config(period=1.0, print_publish=False, qos=10)
    def fast_data(self) -> float:
        """高频数据 - 每秒发布一次"""
        return self._fast_data
    @property
    @topic_config(period=5.0)
    def slow_data(self) -> str:
        """低频数据 - 每5秒发布一次"""
        return self._slow_data
 ```
 ### 订阅装饰器
 ```python
 from unilabos.utils.decorator import subscribe
 class MyDevice:
    @subscribe(topic="/external/sensor_data", qos=10)
    def on_sensor_data(self, msg):
        """订阅外部Topic"""
        self._sensor_value = msg.data
 ```
 ## 异步操作
 ### 使用 ROS 节点睡眠
 ```python
 # 推荐：使用ROS节点的睡眠方法
 await self._ros_node.sleep(1.0)
 # 不推荐：直接使用asyncio（可能导致回调阻塞）
 await asyncio.sleep(1.0)
 ```
 ### 获取事件循环
 ```python
 from unilabos.ros.x.rclpyx import get_event_loop
 loop = get_event_loop()
 ```
 ## 消息类型
 ### unilabos_msgs 包
 ```python
 from unilabos_msgs.msg import Resource
 from unilabos_msgs.srv import (
    ResourceAdd,
    ResourceDelete,
    ResourceUpdate,
    ResourceList,
    SerialCommand,
 )
 from unilabos_msgs.action import SendCmd
 ```
 ### Resource 消息结构
 ```python
 Resource:
    id: str
    name: str
    category: str
    type: str
    parent: str
    children: List[str]
    config: str  # JSON字符串
    data: str    # JSON字符串
    sample_id: str
    pose: Pose
 ```
 ## 日志适配器
 ```python
 from unilabos.utils.log import info, debug, warning, error, trace
 class MyDevice:
    def __init__(self):
        # 创建设备专属日志器
        self.logger = logging.getLogger(f"MyDevice.{self.device_id}")
 ```
 ROSLoggerAdapter 同时向自定义日志和 ROS 日志发送消息。
 ## Action Server
 设备动作自动创建为 ROS Action Server：
 ```yaml
 # 在注册表中配置
 action_value_mappings:
  my_action:
    type: UniLabJsonCommandAsync  # 异步Action
    goal: {...}
    feedback: {...}
    result: {...}
 ```
 ### Action 类型
 - **UniLabJsonCommand**: 同步动作
 - **UniLabJsonCommandAsync**: 异步动作（支持feedback）
 ## 服务客户端
 ```python
 from rclpy.client import Client
 # 调用其他节点的服务
 response = await self._ros_node.call_service(
    service_name="/other_node/service",
    request=MyServiceRequest(...)
 )
 ```
 ## 命名空间
 设备节点使用命名空间隔离：
 ```
 /{device_id}/                 # 设备命名空间
 /{device_id}/status          # 状态Topic
 /{device_id}/temperature     # 温度Topic
 /{device_id}/my_action       # 动作Server
 ```
 ## 调试
 ### 查看 Topic
 ```bash
 ros2 topic list
 ros2 topic echo /{device_id}/status
 ```
 ### 查看 Action
 ```bash
 ros2 action list
 ros2 action info /{device_id}/my_action
 ```
 ### 查看 Service
 ```bash
 ros2 service list
 ros2 service call /{device_id}/resource_list unilabos_msgs/srv/ResourceList
 ```
 ## 最佳实践
 1. **状态属性命名**: 使用蛇形命名法（snake_case）
 2. **Topic 频率**: 根据数据变化频率调整，避免过高频率
 3. **Action 反馈**: 长时间操作提供进度反馈
 4. **错误处理**: 使用 try-except 捕获并记录错误
 5. **资源清理**: 在 cleanup 方法中正确清理资源
--- a/.cursor/rules/testing-patterns.mdc
+++ b/.cursor/rules/testing-patterns.mdc
@@ -1,357 +0,0 @@
 ---
 description: 测试开发规范
 globs: ["tests/**/*.py", "**/test_*.py"]
 ---
 # 测试开发规范
 ## 目录结构
 ```
 tests/
 ├── __init__.py
 ├── devices/              # 设备测试
 │   └── liquid_handling/
 │       └── test_transfer_liquid.py
 ├── resources/            # 资源测试
 │   ├── test_bottle_carrier.py
 │   └── test_resourcetreeset.py
 ├── ros/                  # ROS消息测试
 │   └── msgs/
 │       ├── test_basic.py
 │       ├── test_conversion.py
 │       └── test_mapping.py
 └── workflow/             # 工作流测试
    └── merge_workflow.py
 ```
 ## 测试框架
 使用 pytest 作为测试框架：
 ```bash
 # 运行所有测试
 pytest tests/
 # 运行特定测试文件
 pytest tests/resources/test_bottle_carrier.py
 # 运行特定测试函数
 pytest tests/resources/test_bottle_carrier.py::test_bottle_carrier
 # 显示详细输出
 pytest -v tests/
 # 显示打印输出
 pytest -s tests/
 ```
 ## 测试文件模板
 ```python
 import pytest
 from typing import List, Dict, Any
 # 导入被测试的模块
 from unilabos.resources.bioyond.bottle_carriers import (
    BIOYOND_Electrolyte_6VialCarrier,
 )
 from unilabos.resources.bioyond.bottles import (
    BIOYOND_PolymerStation_Solid_Vial,
 )
 class TestBottleCarrier:
    """BottleCarrier 测试类"""
    def setup_method(self):
        """每个测试方法前执行"""
        self.carrier = BIOYOND_Electrolyte_6VialCarrier("test_carrier")
    def teardown_method(self):
        """每个测试方法后执行"""
        pass
    def test_carrier_creation(self):
        """测试载架创建"""
        assert self.carrier.name == "test_carrier"
        assert len(self.carrier.sites) == 6
    def test_bottle_placement(self):
        """测试瓶子放置"""
        bottle = BIOYOND_PolymerStation_Solid_Vial("test_bottle")
        # 测试逻辑...
        assert bottle.name == "test_bottle"
 def test_standalone_function():
    """独立测试函数"""
    result = some_function()
    assert result is True
 # 参数化测试
@pytest.mark.parametrize("input,expected", [
    ("5 min", 300.0),
    ("1 h", 3600.0),
    ("120", 120.0),
    (60, 60.0),
 ])
 def test_time_parsing(input, expected):
    """测试时间解析"""
    from unilabos.compile.utils.unit_parser import parse_time_input
    assert parse_time_input(input) == expected
 # 异常测试
 def test_invalid_input_raises_error():
    """测试无效输入抛出异常"""
    with pytest.raises(ValueError) as exc_info:
        invalid_function("bad_input")
    assert "invalid" in str(exc_info.value).lower()
 # 跳过条件测试
@pytest.mark.skipif(
    not os.environ.get("ROS_DISTRO"),
    reason="需要ROS环境"
 )
 def test_ros_feature():
    """需要ROS环境的测试"""
    pass
 ```
 ## 设备测试
 ### 虚拟设备测试
 ```python
 import pytest
 import asyncio
 from unittest.mock import MagicMock, AsyncMock
 from unilabos.devices.virtual.virtual_stirrer import VirtualStirrer
 class TestVirtualStirrer:
    """VirtualStirrer 测试"""
    @pytest.fixture
    def stirrer(self):
        """创建测试用搅拌器"""
        device = VirtualStirrer(
            device_id="test_stirrer",
            config={"max_speed": 1500.0, "min_speed": 50.0}
        )
        # Mock ROS节点
        mock_node = MagicMock()
        mock_node.sleep = AsyncMock(return_value=None)
        device.post_init(mock_node)
        return device
    @pytest.mark.asyncio
    async def test_initialize(self, stirrer):
        """测试初始化"""
        result = await stirrer.initialize()
        assert result is True
        assert stirrer.status == "待机中"
    @pytest.mark.asyncio
    async def test_stir_action(self, stirrer):
        """测试搅拌动作"""
        await stirrer.initialize()
        result = await stirrer.stir(
            stir_time=5.0,
            stir_speed=300.0,
            settling_time=2.0
        )
        assert result is True
        assert stirrer.operation_mode == "Completed"
    @pytest.mark.asyncio
    async def test_stir_invalid_speed(self, stirrer):
        """测试无效速度"""
        await stirrer.initialize()
        # 速度超出范围
        result = await stirrer.stir(
            stir_time=5.0,
            stir_speed=2000.0,  # 超过max_speed
            settling_time=0.0
        )
        assert result is False
        assert "错误" in stirrer.status
 ```
 ### 异步测试配置
 ```python
 # conftest.py
 import pytest
 import asyncio
@pytest.fixture(scope="session")
 def event_loop():
    """创建事件循环"""
    loop = asyncio.get_event_loop_policy().new_event_loop()
    yield loop
    loop.close()
 ```
 ## 资源测试
 ```python
 import pytest
 from unilabos.resources.resource_tracker import (
    ResourceTreeSet,
    ResourceTreeInstance,
 )
 def test_resource_tree_creation():
    """测试资源树创建"""
    tree_set = ResourceTreeSet()
    # 添加资源
    resource = {"id": "res_1", "name": "Resource 1"}
    tree_set.add_resource(resource)
    # 验证
    assert len(tree_set.all_nodes) == 1
    assert tree_set.get_resource("res_1") is not None
 def test_resource_tree_merge():
    """测试资源树合并"""
    local_set = ResourceTreeSet()
    remote_set = ResourceTreeSet()
    # 设置数据...
    local_set.merge_remote_resources(remote_set)
    # 验证合并结果...
 ```
 ## ROS 消息测试
 ```python
 import pytest
 from unilabos.ros.msgs.message_converter import (
    convert_to_ros_msg,
    convert_from_ros_msg_with_mapping,
    msg_converter_manager,
 )
 def test_message_conversion():
    """测试消息转换"""
    # Python -> ROS
    python_data = {"id": "test", "value": 42}
    ros_msg = convert_to_ros_msg(python_data, MyMsgType)
    assert ros_msg.id == "test"
    assert ros_msg.value == 42
    # ROS -> Python
    result = convert_from_ros_msg_with_mapping(ros_msg, mapping)
    assert result["id"] == "test"
 ```
 ## 协议测试
 ```python
 import pytest
 import networkx as nx
 from unilabos.compile.stir_protocol import (
    generate_stir_protocol,
    extract_vessel_id,
 )
@pytest.fixture
 def topology_graph():
    """创建测试拓扑图"""
    G = nx.DiGraph()
    G.add_node("flask_1", **{"class": "flask"})
    G.add_node("stirrer_1", **{"class": "virtual_stirrer"})
    G.add_edge("stirrer_1", "flask_1")
    return G
 def test_generate_stir_protocol(topology_graph):
    """测试搅拌协议生成"""
    actions = generate_stir_protocol(
        G=topology_graph,
        vessel="flask_1",
        time="5 min",
        stir_speed=300.0
    )
    assert len(actions) == 1
    assert actions[0]["device_id"] == "stirrer_1"
    assert actions[0]["action_name"] == "stir"
 def test_extract_vessel_id():
    """测试vessel_id提取"""
    # 字典格式
    assert extract_vessel_id({"id": "flask_1"}) == "flask_1"
    # 字符串格式
    assert extract_vessel_id("flask_2") == "flask_2"
    # 空值
    assert extract_vessel_id("") == ""
 ```
 ## 测试标记
 ```python
 # 慢速测试
@pytest.mark.slow
 def test_long_running():
    pass
 # 需要网络
@pytest.mark.network
 def test_network_call():
    pass
 # 需要ROS
@pytest.mark.ros
 def test_ros_feature():
    pass
 ```
 运行特定标记的测试：
 ```bash
 pytest -m "not slow"  # 排除慢速测试
 pytest -m ros         # 仅ROS测试
 ```
 ## 覆盖率
 ```bash
 # 生成覆盖率报告
 pytest --cov=unilabos tests/
 # HTML报告
 pytest --cov=unilabos --cov-report=html tests/
 ```
 ## 最佳实践
 1. **测试命名**: `test_{功能}_{场景}_{预期结果}`
 2. **独立性**: 每个测试独立运行，不依赖其他测试
 3. **Mock外部依赖**: 使用 unittest.mock 模拟外部服务
 4. **参数化**: 使用 `@pytest.mark.parametrize` 减少重复代码
 5. **fixtures**: 使用 fixtures 共享测试设置
 6. **断言清晰**: 每个断言只验证一件事
--- a/.cursor/rules/unilabos-project.mdc
+++ b/.cursor/rules/unilabos-project.mdc
@@ -1,353 +0,0 @@
 ---
 description: Uni-Lab-OS 实验室自动化平台开发规范 - 核心规则
 globs: ["**/*.py", "**/*.yaml", "**/*.json"]
 ---
 # Uni-Lab-OS 项目开发规范
 ## 项目概述
 Uni-Lab-OS 是一个实验室自动化操作系统，用于连接和控制各种实验设备，实现实验工作流的自动化和标准化。
 ## 技术栈
 - **Python 3.11** - 核心开发语言
 - **ROS 2** - 设备通信中间件 (rclpy)
 - **Conda/Mamba** - 包管理 (robostack-staging, conda-forge)
 - **FastAPI** - Web API 服务
 - **WebSocket** - 实时通信
 - **NetworkX** - 拓扑图管理
 - **YAML** - 配置和注册表定义
 - **PyLabRobot** - 实验室自动化库集成
 - **pytest** - 测试框架
 - **asyncio** - 异步编程
 ## 项目结构
 ```
 unilabos/
 ├── app/           # 应用入口、Web服务、后端
 ├── compile/       # 协议编译器 (stir, add, filter 等)
 ├── config/        # 配置管理
 ├── devices/       # 设备驱动 (真实/虚拟)
 ├── device_comms/  # 设备通信协议
 ├── device_mesh/   # 3D网格和可视化
 ├── registry/      # 设备和资源类型注册表 (YAML)
 ├── resources/     # 资源定义
 ├── ros/           # ROS 2 集成
 ├── utils/         # 工具函数
 └── workflow/      # 工作流管理
 ```
 ## 代码规范
 ### Python 风格
 1. **类型注解**：所有函数必须使用类型注解
   ```python
   def transfer_liquid(
       source: str,
       destination: str,
       volume: float,
       **kwargs
   ) -> List[Dict[str, Any]]:
   ```
 2. **Docstring**：使用 Google 风格的文档字符串
   ```python
   def initialize(self) -> bool:
       """
       初始化设备
       Returns:
           bool: 初始化是否成功
       """
   ```
 3. **导入顺序**：
   - 标准库
   - 第三方库
   - ROS 相关 (rclpy, unilabos_msgs)
   - 项目内部模块
 ### 异步编程
 1. 设备操作方法使用 `async def`
 2. 使用 `await self._ros_node.sleep()` 而非 `asyncio.sleep()`
 3. 长时间运行操作需提供进度反馈
 ```python
 async def stir(self, stir_time: float, stir_speed: float, **kwargs) -> bool:
    """执行搅拌操作"""
    start_time = time_module.time()
    while True:
        elapsed = time_module.time() - start_time
        remaining = max(0, stir_time - elapsed)
        self.data.update({
            "remaining_time": remaining,
            "status": f"搅拌中: {stir_speed} RPM"
        })
        if remaining <= 0:
            break
        await self._ros_node.sleep(1.0)
    return True
 ```
 ### 日志规范
 使用项目自定义日志系统：
 ```python
 from unilabos.utils.log import logger, info, debug, warning, error, trace
 # 在设备类中使用
 self.logger = logging.getLogger(f"DeviceName.{self.device_id}")
 self.logger.info("设备初始化完成")
 ```
 ## 设备驱动开发
 ### 设备类结构
 ```python
 from unilabos.ros.nodes.base_device_node import BaseROS2DeviceNode
 class MyDevice:
    """设备驱动类"""
    _ros_node: BaseROS2DeviceNode
    def __init__(self, device_id: str = None, config: Dict[str, Any] = None, **kwargs):
        self.device_id = device_id or "unknown_device"
        self.config = config or {}
        self.data = {}  # 设备状态数据
    def post_init(self, ros_node: BaseROS2DeviceNode):
        """ROS节点注入"""
        self._ros_node = ros_node
    async def initialize(self) -> bool:
        """初始化设备"""
        pass
    async def cleanup(self) -> bool:
        """清理设备"""
        pass
    # 状态属性 - 自动发布为 ROS Topic
    @property
    def status(self) -> str:
        return self.data.get("status", "待机")
 ```
 ### 状态属性装饰器
 ```python
 from unilabos.utils.decorator import topic_config
 class MyDevice:
    @property
    @topic_config(period=1.0, qos=10)  # 每秒发布一次
    def temperature(self) -> float:
        return self._temperature
 ```
 ### 虚拟设备
 虚拟设备放置在 `unilabos/devices/virtual/` 目录下，命名为 `virtual_*.py`
 ## 注册表配置
 ### 设备注册表 (YAML)
 位置: `unilabos/registry/devices/*.yaml`
 ```yaml
 my_device_type:
  category:
    - my_category
  description: "设备描述"
  version: "1.0.0"
  class:
    module: "unilabos.devices.my_device:MyDevice"
    type: python
    status_types:
      status: String
      temperature: Float64
    action_value_mappings:
      auto-initialize:
        type: UniLabJsonCommandAsync
        goal: {}
        feedback: {}
        result: {}
        schema: {...}
 ```
 ### 资源注册表 (YAML)
 位置: `unilabos/registry/resources/**/*.yaml`
 ```yaml
 my_container:
  category:
    - container
  class:
    module: "unilabos.resources.my_resource:MyContainer"
    type: pylabrobot
  version: "1.0.0"
 ```
 ## 协议编译器
 位置: `unilabos/compile/*_protocol.py`
 ### 协议生成函数模板
 ```python
 from typing import List, Dict, Any, Union
 import networkx as nx
 def generate_my_protocol(
    G: nx.DiGraph,
    vessel: Union[str, dict],
    param1: float = 0.0,
    **kwargs
 ) -> List[Dict[str, Any]]:
    """
    生成操作协议序列
    Args:
        G: 物理拓扑图
        vessel: 容器ID或字典
        param1: 参数1
    Returns:
        List[Dict]: 动作序列
    """
    # 提取vessel_id
    vessel_id = vessel if isinstance(vessel, str) else vessel.get("id", "")
    # 查找设备
    device_id = find_connected_device(G, vessel_id)
    # 生成动作
    action_sequence = [{
        "device_id": device_id,
        "action_name": "my_action",
        "action_kwargs": {
            "vessel": {"id": vessel_id},
            "param1": float(param1)
        }
    }]
    return action_sequence
 ```
 ## 测试规范
 ### 测试文件位置
 - 单元测试: `tests/` 目录
 - 设备测试: `tests/devices/`
 - 资源测试: `tests/resources/`
 - ROS消息测试: `tests/ros/msgs/`
 ### 测试命名
 ```python
 # tests/devices/my_device/test_my_device.py
 import pytest
 def test_device_initialization():
    """测试设备初始化"""
    pass
 def test_device_action():
    """测试设备动作"""
    pass
 ```
 ## 错误处理
 ```python
 from unilabos.utils.exception import UniLabException
 try:
    result = await device.execute_action()
 except ValueError as e:
    self.logger.error(f"参数错误: {e}")
    self.data["status"] = "错误: 参数无效"
    return False
 except Exception as e:
    self.logger.error(f"执行失败: {e}")
    raise
 ```
 ## 配置管理
 ```python
 from unilabos.config.config import BasicConfig, HTTPConfig
 # 读取配置
 port = BasicConfig.port
 is_host = BasicConfig.is_host_mode
 # 配置文件: local_config.py
 ```
 ## 常用工具
 ### 单例模式
 ```python
 from unilabos.utils.decorator import singleton
@singleton
 class MyManager:
    pass
 ```
 ### 类型检查
 ```python
 from unilabos.utils.type_check import NoAliasDumper
 yaml.dump(data, f, Dumper=NoAliasDumper)
 ```
 ### 导入管理
 ```python
 from unilabos.utils.import_manager import get_class
 device_class = get_class("unilabos.devices.my_device:MyDevice")
 ```
 ## Git 提交规范
 提交信息格式:
 ```
 <type>(<scope>): <subject>
 <body>
 ```
 类型:
 - `feat`: 新功能
 - `fix`: 修复bug
 - `docs`: 文档更新
 - `refactor`: 重构
 - `test`: 测试相关
 - `chore`: 构建/工具相关
 示例:
 ```
 feat(devices): 添加虚拟搅拌器设备
 - 实现VirtualStirrer类
 - 支持定时搅拌和持续搅拌模式
 - 添加速度验证逻辑
 ```
--- a/.cursor/skills/add-device/SKILL.md
+++ b/.cursor/skills/add-device/SKILL.md
@@ -71,6 +71,22 @@ from unilabos.registry.decorators import action
 - `_` 开头的方法 → 不扫描
 - `@not_action` 标记的方法 → 排除
 ### 参数文档 → JSON Schema 元数据
 在 `__init__` 和 action 方法 docstring 的 `Args:` 小节里，使用以下格式生成入参 schema 的显示信息：
 ```python
 """
 Args:
    param[显示名称]: 参数说明，会写入 JSON Schema 的 description。
 """
 ```
 - `param[显示名称]` 的显示名称会写入 goal property 的 `title`。
 - `:` 后面的说明会写入 goal property 的 `description`。
 - 如果只写 `param: 参数说明`，`title` 会兜底为字段名，`description` 使用参数说明。
 - 如果没有写参数文档，生成器也会兜底补齐 `title=<字段名>` 和 `description=""`，但新设备应优先写清楚显示名和说明。
 ### @topic_config — 状态属性配置
 ```python
@@ -105,13 +121,27 @@ import logging
 from typing import Any, Dict, Optional
 from unilabos.ros.nodes.base_device_node import BaseROS2DeviceNode
-from unilabos.registry.decorators import device, action, topic_config, not_action
+from unilabos.registry.decorators import action, device, not_action, topic_config
-@device(id="my_device", category=["my_category"], description="设备描述")
+@device(
    id="my_device",
    category=["my_category"],
    description="设备描述",
    display_name="设备显示名",
 )
 class MyDevice:
    """设备类说明。"""
    _ros_node: BaseROS2DeviceNode
    def __init__(self, device_id: Optional[str] = None, config: Optional[Dict[str, Any]] = None, **kwargs):
        """
        初始化设备。
        Args:
            device_id[设备ID]: 设备实例 ID，默认使用 my_device。
            config[设备配置]: 设备启动配置。
        """
        self.device_id = device_id or "my_device"
        self.config = config or {}
        self.logger = logging.getLogger(f"MyDevice.{self.device_id}")
@@ -133,7 +163,13 @@ class MyDevice:
    @action(description="执行操作")
    def my_action(self, param: float = 0.0, name: str = "") -> Dict[str, Any]:
-        """带 @action 装饰器 → 注册为 'my_action' 动作"""
+        """
        带 @action 装饰器 → 注册为 'my_action' 动作。
        Args:
            param[操作数值]: 操作使用的数值参数。
            name[操作名称]: 操作名称或备注。
        """
        return {"success": True}
    def get_info(self) -> Dict[str, Any]:
--- a/.cursor/skills/filter-workflow-by-tags/SKILL.md
+++ b/.cursor/skills/filter-workflow-by-tags/SKILL.md
@@ -0,0 +1,450 @@
 ---
 name: filter-workflow-by-tags
 description: Query backend workflow list, aggregate all tags, and filter workflows by domain/scenario requirements using tags. Use when the user wants to search workflows, find workflows by tags, list available workflow tags, filter workflows by category/domain/scenario, or mentions 工作流筛选/标签查询/workflow tags/按领域查找工作流.
 ---
 # Uni-Lab 工作流标签筛选指南
 通过 Uni-Lab 云端 API 查询工作流列表，汇总所有可用标签（tags），并根据领域和场景要求筛选工作流。
 > **重要**：本指南中的 `Authorization: Lab <token>` 是 **Uni-Lab 平台专用的认证方式**，`Lab` 是 Uni-Lab 的 auth scheme 关键字，**不是** HTTP Basic 认证。请勿将其替换为 `Basic`。
 ## 使用模式识别
 **用户可能一开始就给出场景目标**（如"我要做有机合成实验"、"找柱层析相关的 protocol"）。此时：
 1. **识别场景关键词** → 映射到可能的 tags（如 synthesis、organic、chromatography、purification）
 2. **直接执行完整流程**（获取 ak/sk/addr → 拉取所有工作流 → 汇总 tags → 按场景筛选）
 3. **展示筛选结果** → 引导用户从候选 workflow 中**选择明确的实验 protocol**
 4. **如果用户确认某个 workflow** → 记录 `workflow_uuid`，准备对接“与其他 Skill 的协作”
 **如果用户未给场景目标**，则按标准 checklist 询问筛选条件。
 ---
 ## 前置条件
 使用本指南前，**必须**先确认以下信息。如果缺少任何一项，**立即向用户询问并终止**，等补齐后再继续。
 ### 1. ak / sk → AUTH
 询问用户的启动参数，从 `--ak` `--sk` 或 config.py 中获取。
 生成 AUTH token：
 ```bash
 python -c "import base64,sys; print('Authorization: Lab ' + base64.b64encode(f'{sys.argv[1]}:{sys.argv[2]}'.encode()).decode())" <ak> <sk>
 ```
 ### 2. --addr → BASE URL
 | `--addr` 值 | BASE                                  |
 | ------------- | ------------------------------------- |
 | `test`      | `https://leap-lab.test.bohrium.com` |
 | `uat`       | `https://leap-lab.uat.bohrium.com`  |
 | `local`     | `http://127.0.0.1:48197`            |
 | 不传（默认）  | `https://leap-lab.bohrium.com`      |
 确认后设置：
 ```bash
 BASE="<根据 addr 确定的 URL>"
 AUTH="Authorization: Lab <上面命令输出的 token>"
 ```
 ### 3. lab_uuid（实验室 UUID）
 如果用户未提供 `lab_uuid`，通过以下 API 自动获取：
 ```bash
 curl -s -X GET "$BASE/api/v1/edge/lab/info" -H "$AUTH"
 ```
 返回 `data.uuid` 即为 `lab_uuid`。
 **三项全部就绪后才可开始。**
 ## Session State
 在整个对话过程中，agent 需要记住以下状态：
 - `lab_uuid` — 实验室 UUID
 - `all_workflows` — 完整工作流列表（分页获取后缓存到内存或临时文件）
 - `all_tags` — 所有工作流的标签汇总
 ---
 ## API 端点
 ### 查询工作流列表（支持分页）
 ```
 GET $BASE/api/v1/lab/workflow/owner/list?page=<page>&page_size=<page_size>&lab_uuid=$lab_uuid
 ```
 **参数：**
 - `page` — 页码，从 1 开始
 - `page_size` — 每页数量，建议 1000
 - `lab_uuid` — 实验室 UUID
 **返回结构：**
 ```json
 {
  "code": 0,
  "data": {
    "has_more": true,
    "data": [
      {
        "uuid": "9661bba2-1b9f-4687-a63d-910245df174b",
        "name": "Untitled",
        "description": "",
        "user_id": "114211",
        "published": false,
        "tags": null
      },
      {
        "uuid": "e0436638-190b-46bc-b1a1-2711d9602f6a",
        "name": "Synthesis v2",
        "user_id": "114211",
        "published": true,
        "tags": ["synthesis", "organic"]
      }
    ]
  }
 }
 ```
 **字段说明：**
 - `has_more` — 若为 `true`，需要继续请求 `page+1`
 - `tags` — 可能为 `null`、空数组或字符串数组；聚合时必须容忍 `null`
 ### 启动工作流（直接运行）
 ```
 POST $BASE/api/v1/lab/workflow/<workflow_uuid>/run
 ```
 **用途：** 直接启动一个 workflow 的默认执行（使用模板中预设的参数），无需创建 notebook。适用于快速测试或无参数变化的重复执行。
 **请求体：** 空 JSON `{}` 或省略
 **返回：**
 ```json
 {
  "code": 0,
  "data": "<run_uuid>"
 }
 ```
 - `run_uuid` — 本次执行的唯一标识（不是 notebook UUID）
 **注意：**
 - 该接口会使用 workflow 模板中保存的默认参数直接执行
 - 如果 workflow 需要动态参数（如 CSV 路径、样品 UUID），应使用 `POST /lab/notebook` 创建 notebook 并传入 `node_params`
 - 返回的 `run_uuid` 可直接传入下方「查询任务状态」接口查询实时进度
 ### 查询任务状态
 ```
 GET $BASE/api/v1/lab/mcp/task/<task_uuid>
 ```
 **用途：** 查询由 `POST /lab/workflow/<uuid>/run` 返回的 `run_uuid`（即 task_uuid）的实时执行状态，包括整体状态和每个节点（JOS：Job On Station）的执行详情。
 **路径参数：**
 - `task_uuid` — 等同于启动工作流接口返回的 `run_uuid`
 **返回：**
 ```json
 {
  "code": 0,
  "data": {
    "status": "running",
    "jos_status": [
      {
        "uuid": "d0e24bfe-8d99-450e-b19d-f25849dfbaad",
        "node_name": "PRCXI_BioER_96_wellplate_slot_1",
        "action_name": "create_resource",
        "status": "success",
        "return_info": {
          "suc": true,
          "error": "",
          "return_value": { ... }
        }
      },
      {
        "uuid": "...",
        "node_name": "...",
        "action_name": "transfer_liquid",
        "status": "pending",
        "return_info": null
      }
    ]
  }
 }
 ```
 **字段说明：**
 - `data.status` — 整体任务状态
  - `running` — 正在执行（至少一个节点 pending 或 running）
  - `success` — 全部节点成功
  - `failed` — 有节点失败
 - `data.jos_status[]` — 节点级执行列表（按执行顺序）
  - `uuid` — 节点执行实例 UUID
  - `node_name` — 节点名称（资源/设备名或工位名）
  - `action_name` — 动作类型（`create_resource`、`transfer_liquid`、`centrifuge`、等）
  - `status` — 节点状态：`success`、`pending`、`running`、`failed`
  - `return_info` — 执行返回，失败时 `suc=false` 且 `error` 有错误信息
 **注意：**
 - 此接口的 `task_uuid` **是** `POST /lab/workflow/<uuid>/run` 返回的 `run_uuid`，二者为同一个 ID 的不同称呼
 - **不要**把 notebook UUID（`POST /lab/notebook` 返回）传进来——那条路径用 `GET /lab/notebook/status` 查询
 - `jos_status` 数组按节点执行顺序给出；从 pending 数量可以估算剩余进度
 - 返回体可能较大（`return_info.return_value` 中可能包含完整 resource tree），可在脚本中只提取 `status` + `node_name` + `action_name` 做摘要
 **状态轮询示例：**
 ```bash
 # 每 5 秒轮询一次直至完成
 TASK="b183d97e-d2b5-4b24-b14b-820df04d87c0"
 while :; do
  st=$(curl -s -X GET "$BASE/api/v1/lab/mcp/task/$TASK" -H "$AUTH" \
    | python3 -c "import json,sys; d=json.load(sys.stdin)['data']; \
      print(d['status'], '|', sum(1 for j in d['jos_status'] if j['status']=='success'), '/', len(d['jos_status']))")
  echo "$(date +%H:%M:%S) $st"
  [[ "$st" == success* || "$st" == failed* ]] && break
  sleep 5
 done
 ```
 ---
 ## 完整工作流 Checklist
 ```
 Task Progress:
 - [ ] Step 0: 识别用户是否已给出场景目标（如"有机合成"、"柱层析"）
       - 若已给出 → 记录场景关键词，自动进入后续步骤
       - 若未给出 → 在 Step 6 询问用户
 - [ ] Step 1: 确认 ak/sk → 生成 AUTH token
 - [ ] Step 2: 确认 --addr → 设置 BASE URL
 - [ ] Step 3: GET /edge/lab/info → 获取 lab_uuid（如用户未提供）
 - [ ] Step 4: 分页获取所有工作流（从 page=1 开始直到 has_more=false）
 - [ ] Step 5: 汇总所有非空 tags → 生成 all_tags（去重、排序、附出现次数）
 - [ ] Step 6: 根据场景关键词（Step 0 或新询问）在 all_tags 中做语义映射 → 确定候选 tags
       - 若语义映射不唯一，列出候选 tags 让用户确认
 - [ ] Step 7: 按候选 tags 筛选工作流（默认 any 模式，召回优先）
 - [ ] Step 8: 展示筛选结果（uuid、name、description、tags、published）
 - [ ] Step 9: 引导用户从结果中选择**明确的实验 protocol**
       - 若结果只有 1 条 → 直接确认该 workflow_uuid
       - 若结果 2–10 条 → 让用户按编号选择
       - 若结果过多 → 提示收紧条件（加 tag、切换 all 模式、仅 published）
       - 若结果为空 → 放宽条件（去掉最稀有 tag）或提示用户换关键词
 - [ ] Step 10: 记录用户选中的 workflow_uuid，并提示提交实验或查看详情
 ```
 ---
 ## 推荐路径：使用脚本
 同目录下提供 `scripts/filter_workflows.py`，一次完成分页抓取、标签聚合与筛选：
 ```bash
 # 1. 仅汇总标签（不筛选）
 python scripts/filter_workflows.py \
  --auth "<Lab base64token>" \
  --base "$BASE" \
  --lab-uuid "$lab_uuid" \
  --summary-only
 # 2. 按标签筛选（ANY 模式：包含任一）
 python scripts/filter_workflows.py \
  --auth "<Lab base64token>" \
  --base "$BASE" \
  --lab-uuid "$lab_uuid" \
  --tags synthesis organic \
  --mode any
 # 3. 按标签筛选（ALL 模式：必须同时包含）
 python scripts/filter_workflows.py \
  --auth "<Lab base64token>" \
  --base "$BASE" \
  --lab-uuid "$lab_uuid" \
  --tags synthesis organic \
  --mode all \
  --output filtered.json
 # 4. 仅筛选已发布
 python scripts/filter_workflows.py \
  --auth "<Lab base64token>" \
  --base "$BASE" \
  --lab-uuid "$lab_uuid" \
  --tags synthesis \
  --published-only
 ```
 **`--auth` 参数说明**：传入 `Authorization` 头中 `Lab` 之后的 base64 token（不带 `Lab ` 前缀），脚本内部会自动补上 scheme。
 **输出结构：**
 ```json
 {
  "total_workflows": 150,
  "tag_counts": {"synthesis": 12, "organic": 8, "analysis": 5},
  "all_tags": ["analysis", "organic", "synthesis"],
  "filter": {"tags": ["synthesis", "organic"], "mode": "any"},
  "filtered_workflows": [
    {"uuid": "...", "name": "...", "description": "...", "tags": [...], "published": true}
  ]
 }
 ```
 ---
 ## 手动路径：curl + jq
 如果脚本不可用或环境缺少 Python，可用 shell 实现。
 ### 1. 分页抓取（写入 `all_workflows.json`）
 ```bash
 page=1
 echo "[]" > all_workflows.json
 while :; do
  resp=$(curl -s -X GET \
    "$BASE/api/v1/lab/workflow/owner/list?page=$page&page_size=1000&lab_uuid=$lab_uuid" \
    -H "$AUTH")
  page_data=$(echo "$resp" | jq -c '.data.data // []')
  jq -c --argjson p "$page_data" '. + $p' all_workflows.json > _tmp.json && mv _tmp.json all_workflows.json
  has_more=$(echo "$resp" | jq -r '.data.has_more')
  [ "$has_more" != "true" ] && break
  page=$((page + 1))
 done
 echo "Total: $(jq 'length' all_workflows.json)"
 ```
 ### 2. 汇总所有标签（含出现次数）
 ```bash
 jq '[.[].tags // [] | .[]] | group_by(.) | map({tag: .[0], count: length}) | sort_by(-.count)' \
  all_workflows.json
 ```
 ### 3. 按标签筛选
 ```bash
 # ANY：包含任一指定标签
 jq --argjson want '["synthesis","organic"]' \
  '[.[] | select((.tags // []) | any(. as $t | $want | index($t)))]' \
  all_workflows.json
 # ALL：同时包含所有指定标签
 jq --argjson want '["synthesis","organic"]' \
  '[.[] | select(($want | all(. as $w | (.tags // []) | index($w))))]' \
  all_workflows.json
 ```
 ---
 ## 筛选策略
 agent 拿到用户的「领域 + 场景」自然语言描述时，按如下顺序选择 tag：
 1. **优先用户显式指定的 tags**：若用户明确给出标签词，直接精确匹配。
 2. **从 all_tags 中做语义映射**：若用户描述是自然语言（如"有机合成、柱层析"），在 all_tags 中找语义相关项（如 `synthesis`、`organic`、`chromatography`）。必要时展示候选 tag 让用户确认。
 3. **模式选择**：
   - 默认 `any`（更多召回），给出 tag 集合的并集匹配
   - 用户强调"必须同时满足"时用 `all`
 4. **空结果兜底**：如果筛选为空，放宽条件（去掉最稀有 tag、切换 any 模式），并提醒用户。
 ---
 ## 引导到明确的 Protocol
 筛选完成后，**最终目标是让用户确认一个具体的 workflow_uuid**，而不是停留在"一堆候选"上。按结果数量采取不同策略：
 | 结果数量  | 策略                                                                                                                               |
 | --------- | ---------------------------------------------------------------------------------------------------------------------------------- |
 | 0 条      | 放宽筛选（去掉最稀有 tag → 切换 any 模式 → 去掉 `--published-only`）。仍为空则提示换关键词，或列出 `all_tags` 让用户重新选。 |
 | 1 条      | 直接确认："找到唯一匹配：`<name>` (uuid `<uuid>`)，是否用它？"用户确认后记录 `workflow_uuid`。                               |
 | 2–10 条  | 编号列表展示，让用户选编号。每项给出 name、tags、description 摘要、published 状态。                                                |
 | 10–30 条 | 先展示 tag 分布帮助用户进一步收紧：列出匹配结果中最常见的子标签，提示"加一个 tag 可将结果缩小到 N 条"。                            |
 | >30 条    | 强制要求用户补充条件：仅 published、指定具体 tag 组合、或按名称关键词过滤。                                                        |
 **确认 workflow 后**：
 1. 将 `workflow_uuid` 写入 session state
 2. 提示用户下一步可用的 skill：
   - 提交实验 → 引导到“与其他 Skill 的协作”
   - 查看 workflow 详细节点 → `GET /api/v1/lab/workflow/template/detail/<workflow_uuid>`
 3. 若用户想换一个，回到筛选步骤。
 ---
 ## 展示结果
 推荐格式（表格 + 汇总统计）：
 ```
 共 150 个工作流，其中 32 个匹配筛选条件 [tags: synthesis OR organic]
 | UUID (短) | 名称                     | Tags                         | 已发布 |
 |-----------|--------------------------|------------------------------|--------|
 | e0436638  | Synthesis v2             | synthesis, organic           | ✓      |
 | 5b60dbb8  | Grignard Protocol        | synthesis, organometallic    | ✓      |
 | ...       | ...                      | ...                          | ...    |
 所有可用标签（按频次）：
  synthesis (12), organic (8), analysis (5), purification (4), ...
 ```
 如果用户下一步想执行某工作流 → 引导到“与其他 Skill 的协作”。
 ---
 ## 常见问题
 ### Q: tags 为 null 的工作流要不要展示？
 默认**不展示**在筛选结果中（因为无法按 tag 匹配）。但在 `--summary-only` 或无筛选条件时，这些工作流仍会计入总数，并在输出中单独列出"未打标签"计数。
 ### Q: 如何按名称/描述做模糊匹配？
 脚本未内置，但可在 jq 中组合：
 ```bash
 jq '[.[] | select((.name + " " + (.description // "")) | test("organic"; "i"))]' all_workflows.json
 ```
 ### Q: `page_size=1000` 是否会被服务端限制？
 接口通常允许最大 1000；如果返回量少于 1000 且 `has_more=false`，说明已到末页。极端情况下若服务端返回错误，可降到 200 或 500 再试。
 ### Q: 工作流数量极大（>10k）怎么办？
 1. 先跑 `--summary-only` 了解 tag 分布
 2. 提示用户先限定 `--published-only` 或指定 tag
 3. 考虑将 `all_workflows.json` 缓存到本地，下次直接复用
 ---
 ## 与其他 Skill 的协作
 - 正常情况下，找到 workflow 之后可以直接用它提交实验（启动工作流的 api 端点 POST $BASE/api/v1/lab/workflow/<workflow_uuid>/run，不用别的 skill）
 - **仅当需要进行多次实验时，使用 batch-submit-experiment** — 筛选到目标工作流后，`workflow_uuid` 直接用于实验提交
 ## 脚本依赖
 `scripts/filter_workflows.py` 仅使用 Python 标准库（`urllib`、`json`、`argparse`），无需额外安装。
--- a/.cursor/skills/filter-workflow-by-tags/scripts/filter_workflows.py
+++ b/.cursor/skills/filter-workflow-by-tags/scripts/filter_workflows.py
@@ -0,0 +1,191 @@
 #!/usr/bin/env python3
 """分页拉取 Uni-Lab 工作流列表，汇总 tags 并按 tag 筛选。
 使用示例:
    python filter_workflows.py \
        --auth <base64token> \
        --base https://leap-lab.test.bohrium.com \
        --lab-uuid a9059772-... \
        --tags synthesis organic --mode any
 仅依赖 Python 标准库。
 """
 from __future__ import annotations
 import argparse
 import json
 import sys
 import urllib.error
 import urllib.parse
 import urllib.request
 from collections import Counter
 def fetch_all_workflows(base: str, auth_token: str, lab_uuid: str, page_size: int = 1000) -> list[dict]:
    """分页拉取所有 owner 工作流，直到 has_more=false。"""
    workflows: list[dict] = []
    page = 1
    while True:
        query = urllib.parse.urlencode(
            {"page": page, "page_size": page_size, "lab_uuid": lab_uuid}
        )
        url = f"{base.rstrip('/')}/api/v1/lab/workflow/owner/list?{query}"
        req = urllib.request.Request(
            url,
            headers={
                "Authorization": f"Lab {auth_token}",
                "Accept": "application/json",
            },
        )
        try:
            with urllib.request.urlopen(req, timeout=30) as resp:
                payload = json.loads(resp.read().decode("utf-8"))
        except urllib.error.HTTPError as e:
            sys.exit(f"[ERROR] HTTP {e.code} on page {page}: {e.read().decode('utf-8', 'ignore')}")
        except urllib.error.URLError as e:
            sys.exit(f"[ERROR] URL error on page {page}: {e.reason}")
        if payload.get("code") != 0:
            sys.exit(f"[ERROR] API returned non-zero code: {payload}")
        data = payload.get("data") or {}
        page_items = data.get("data") or []
        workflows.extend(page_items)
        if not data.get("has_more"):
            break
        page += 1
        # 防御性兜底，避免接口异常导致无限循环
        if page > 1000:
            print(f"[WARN] page count exceeded 1000, stopping early", file=sys.stderr)
            break
    return workflows
 def aggregate_tags(workflows: list[dict]) -> tuple[list[str], dict[str, int], int]:
    """返回 (sorted_tags, tag_counts, untagged_count)。"""
    counter: Counter[str] = Counter()
    untagged = 0
    for wf in workflows:
        tags = wf.get("tags")
        if not tags:
            untagged += 1
            continue
        for t in tags:
            if isinstance(t, str) and t.strip():
                counter[t.strip()] += 1
    return sorted(counter.keys()), dict(counter), untagged
 def filter_workflows(
    workflows: list[dict],
    want_tags: list[str],
    mode: str,
    published_only: bool,
 ) -> list[dict]:
    """按 tag 筛选。mode 取值 any / all。"""
    want_set = {t.strip() for t in want_tags if t.strip()}
    out: list[dict] = []
    for wf in workflows:
        if published_only and not wf.get("published"):
            continue
        if not want_set:
            out.append(wf)
            continue
        tags = wf.get("tags") or []
        tag_set = {t for t in tags if isinstance(t, str)}
        if mode == "all":
            if want_set.issubset(tag_set):
                out.append(wf)
        else:  # any
            if want_set & tag_set:
                out.append(wf)
    return out
 def project_workflow(wf: dict) -> dict:
    """精简输出字段。"""
    return {
        "uuid": wf.get("uuid"),
        "name": wf.get("name"),
        "description": wf.get("description", ""),
        "tags": wf.get("tags") or [],
        "published": bool(wf.get("published")),
        "user_id": wf.get("user_id"),
    }
 def parse_args() -> argparse.Namespace:
    p = argparse.ArgumentParser(description="Fetch & filter Uni-Lab workflows by tags.")
    p.add_argument("--auth", required=True, help="Base64 token (the part after `Lab `).")
    p.add_argument("--base", required=True, help="Base URL, e.g. https://leap-lab.test.bohrium.com")
    p.add_argument("--lab-uuid", required=True, help="Lab UUID.")
    p.add_argument("--tags", nargs="*", default=[], help="Tags to filter by (space separated).")
    p.add_argument(
        "--mode",
        choices=["any", "all"],
        default="any",
        help="any: workflow contains at least one tag; all: workflow contains every tag.",
    )
    p.add_argument("--published-only", action="store_true", help="Only include published workflows.")
    p.add_argument("--page-size", type=int, default=1000, help="Page size, default 1000.")
    p.add_argument(
        "--summary-only",
        action="store_true",
        help="Print tag summary without applying filter (still fetches everything).",
    )
    p.add_argument("--output", help="Write JSON result to this path. If omitted, print to stdout.")
    return p.parse_args()
 def main() -> None:
    args = parse_args()
    workflows = fetch_all_workflows(
        base=args.base,
        auth_token=args.auth,
        lab_uuid=args.lab_uuid,
        page_size=args.page_size,
    )
    sorted_tags, tag_counts, untagged = aggregate_tags(workflows)
    if args.summary_only:
        result = {
            "total_workflows": len(workflows),
            "untagged_count": untagged,
            "tag_counts": tag_counts,
            "all_tags": sorted_tags,
        }
    else:
        filtered = filter_workflows(
            workflows,
            want_tags=args.tags,
            mode=args.mode,
            published_only=args.published_only,
        )
        result = {
            "total_workflows": len(workflows),
            "untagged_count": untagged,
            "tag_counts": tag_counts,
            "all_tags": sorted_tags,
            "filter": {
                "tags": args.tags,
                "mode": args.mode,
                "published_only": args.published_only,
            },
            "matched_count": len(filtered),
            "filtered_workflows": [project_workflow(wf) for wf in filtered],
        }
    payload = json.dumps(result, ensure_ascii=False, indent=2)
    if args.output:
        with open(args.output, "w", encoding="utf-8") as f:
            f.write(payload)
        print(f"Wrote {len(workflows)} workflows summary → {args.output}", file=sys.stderr)
    else:
        print(payload)
 if __name__ == "__main__":
    main()
--- a/.cursorignore
+++ b/.cursorignore
@@ -1,188 +0,0 @@
 # ============================================================
 # Uni-Lab-OS Cursor Ignore 配置，控制 Cursor AI 的文件索引范围
 # ============================================================
 # ==================== 敏感配置文件 ====================
 # 本地配置（可能包含密钥）
 **/local_config.py
 test_config.py
 local_test*.py
 # 环境变量和密钥
 .env
 .env.*
 **/.certs/
 *.pem
 *.key
 credentials.json
 secrets.yaml
 # ==================== 二进制和 3D 模型文件 ====================
 # 3D 模型文件（无需索引）
 *.stl
 *.dae
 *.glb
 *.gltf
 *.obj
 *.fbx
 *.blend
 # URDF/Xacro 机器人描述文件（大型XML）
 *.xacro
 # 图片文件
 *.png
 *.jpg
 *.jpeg
 *.gif
 *.webp
 *.ico
 *.svg
 *.bmp
 # 压缩包
 *.zip
 *.tar
 *.tar.gz
 *.tgz
 *.bz2
 *.rar
 *.7z
 # ==================== Python 生成文件 ====================
 __pycache__/
 *.py[cod]
 *$py.class
 *.so
 *.pyd
 *.egg
 *.egg-info/
 .eggs/
 dist/
 build/
 *.manifest
 *.spec
 # ==================== IDE 和编辑器 ====================
 .idea/
 .vscode/
 *.swp
 *.swo
 *~
 .#*
 # ==================== 测试和覆盖率 ====================
 .pytest_cache/
 .coverage
 .coverage.*
 htmlcov/
 .tox/
 .nox/
 coverage.xml
 *.cover
 # ==================== 虚拟环境 ====================
 .venv/
 venv/
 env/
 ENV/
 # ==================== ROS 2 生成文件 ====================
 # ROS 构建目录
 build/
 install/
 log/
 logs/
 devel/
 # ROS 消息生成
 msg_gen/
 srv_gen/
 msg/*Action.msg
 msg/*ActionFeedback.msg
 msg/*ActionGoal.msg
 msg/*ActionResult.msg
 msg/*Feedback.msg
 msg/*Goal.msg
 msg/*Result.msg
 msg/_*.py
 srv/_*.py
 build_isolated/
 devel_isolated/
 # ROS 动态配置
 *.cfgc
 /cfg/cpp/
 /cfg/*.py
 # ==================== 项目特定目录 ====================
 # 工作数据目录
 unilabos_data/
 # 临时和输出目录
 temp/
 output/
 cursor_docs/
 configs/
 # 文档构建
 docs/_build/
 /site
 # ==================== 大型数据文件 ====================
 # 点云数据
 *.pcd
 # GraphML 图形文件
 *.graphml
 # 日志文件
 *.log
 # 数据库
 *.sqlite3
 *.db
 # Jupyter 检查点
 .ipynb_checkpoints/
 # ==================== 设备网格资源 ====================
 # 3D 网格文件目录（包含大量 STL/DAE 文件）
 unilabos/device_mesh/devices/**/*.stl
 unilabos/device_mesh/devices/**/*.dae
 unilabos/device_mesh/resources/**/*.stl
 unilabos/device_mesh/resources/**/*.glb
 unilabos/device_mesh/resources/**/*.xacro
 # RViz 配置
 *.rviz
 # ==================== 系统文件 ====================
 .DS_Store
 Thumbs.db
 desktop.ini
 # ==================== 锁文件 ====================
 poetry.lock
 Pipfile.lock
 pdm.lock
 package-lock.json
 yarn.lock
 # ==================== 类型检查缓存 ====================
 .mypy_cache/
 .dmypy.json
 .pytype/
 .pyre/
 pyrightconfig.json
 # ==================== 其他 ====================
 # Catkin
 CATKIN_IGNORE
 # Eclipse/Qt
 .project
 .cproject
 CMakeLists.txt.user
 *.user
 qtcreator-*
--- a/.github/copilot-instructions.md
+++ b/.github/copilot-instructions.md
@@ -1,11 +0,0 @@
 ## 设备接入
 当被要求添加设备驱动时，参考 `docs/ai_guides/add_device.md`。
 该指南包含完整的模板和已有设备接口参考。
 ## 关键规则
 - 动作方法的参数名是接口契约，不可重命名
 - `status` 字符串必须与同类已有设备一致
 - `self.data` 必须在 `__init__` 中预填充所有属性字段
 - 异步方法中使用 `await self._ros_node.sleep()`，禁止 `time.sleep()`
--- a/.github/workflows/ci-check.yml
+++ b/.github/workflows/ci-check.yml
@@ -38,7 +38,7 @@ jobs:
      - name: Install ROS dependencies, uv and unilabos-msgs
        run: |
          echo Installing ROS dependencies...
-          mamba install -n check-env conda-forge::uv conda-forge::opencv robostack-staging::ros-humble-ros-core robostack-staging::ros-humble-action-msgs robostack-staging::ros-humble-std-msgs robostack-staging::ros-humble-geometry-msgs robostack-staging::ros-humble-control-msgs robostack-staging::ros-humble-nav2-msgs uni-lab::ros-humble-unilabos-msgs robostack-staging::ros-humble-cv-bridge robostack-staging::ros-humble-vision-opencv robostack-staging::ros-humble-tf-transformations robostack-staging::ros-humble-moveit-msgs robostack-staging::ros-humble-tf2-ros robostack-staging::ros-humble-tf2-ros-py conda-forge::transforms3d -c robostack-staging -c conda-forge -c uni-lab -y
+          mamba install -n check-env --override-channels -c robostack-staging -c conda-forge -c uni-lab conda-forge::uv conda-forge::opencv robostack-staging::ros-humble-ros-core robostack-staging::ros-humble-action-msgs robostack-staging::ros-humble-std-msgs robostack-staging::ros-humble-geometry-msgs robostack-staging::ros-humble-control-msgs robostack-staging::ros-humble-nav2-msgs uni-lab::ros-humble-unilabos-msgs robostack-staging::ros-humble-cv-bridge robostack-staging::ros-humble-vision-opencv robostack-staging::ros-humble-tf-transformations robostack-staging::ros-humble-moveit-msgs robostack-staging::ros-humble-tf2-ros robostack-staging::ros-humble-tf2-ros-py conda-forge::transforms3d -y
      - name: Install pip dependencies and unilabos
        run: |
--- a/.github/workflows/conda-pack-build.yml
+++ b/.github/workflows/conda-pack-build.yml
@@ -1,6 +1,10 @@
 name: Build Conda-Pack Environment
 on:
  # 在 UniLabOS Conda Build 成功上传后自动构建非全量 conda-pack
  workflow_run:
    workflows: ["UniLabOS Conda Build"]
    types: [completed]
  workflow_dispatch:
    inputs:
      branch:
@@ -21,6 +25,16 @@ on:
 jobs:
  build-conda-pack:
    if: |
      github.event_name == 'workflow_dispatch' ||
      (
        github.event_name == 'workflow_run' &&
        github.event.workflow_run.conclusion == 'success' &&
        github.event.workflow_run.event == 'workflow_run'
      )
    env:
      BUILD_FULL: ${{ github.event_name == 'workflow_dispatch' && github.event.inputs.build_full == 'true' }}
      PACKAGE_REF: ${{ github.event.inputs.branch || github.event.workflow_run.head_sha || github.ref_name }}
    strategy:
      fail-fast: false
      matrix:
@@ -54,7 +68,9 @@ jobs:
        id: should_build
        shell: bash
        run: |
-          if [[ -z "${{ github.event.inputs.platforms }}" ]]; then
+          if [[ "${{ github.event_name }}" != "workflow_dispatch" ]]; then
            echo "should_build=true" >> $GITHUB_OUTPUT
          elif [[ -z "${{ github.event.inputs.platforms }}" ]]; then
            echo "should_build=true" >> $GITHUB_OUTPUT
          elif [[ "${{ github.event.inputs.platforms }}" == *"${{ matrix.platform }}"* ]]; then
            echo "should_build=true" >> $GITHUB_OUTPUT
@@ -65,7 +81,7 @@ jobs:
      - uses: actions/checkout@v6
        if: steps.should_build.outputs.should_build == 'true'
        with:
-          ref: ${{ github.event.inputs.branch }}
+          ref: ${{ github.event.inputs.branch || github.event.workflow_run.head_sha || github.ref }}
          fetch-depth: 0
      - name: Setup Miniforge (with mamba)
@@ -75,7 +91,7 @@ jobs:
          miniforge-version: latest
          use-mamba: true
          python-version: '3.11.14'
-          channels: conda-forge,robostack-staging,uni-lab,defaults
+          channels: conda-forge,robostack-staging,uni-lab
          channel-priority: flexible
          activate-environment: unilab
          auto-update-conda: false
@@ -86,13 +102,13 @@ jobs:
        run: |
          echo Installing unilabos and dependencies to unilab environment...
          echo Using mamba for faster and more reliable dependency resolution...
-          echo Build full: ${{ github.event.inputs.build_full }}
+          echo Build full: ${{ env.BUILD_FULL }}
-          if "${{ github.event.inputs.build_full }}"=="true" (
+          if "${{ env.BUILD_FULL }}"=="true" (
            echo Installing unilabos-full ^(complete package^)...
-            mamba install -n unilab uni-lab::unilabos-full conda-pack -c uni-lab -c robostack-staging -c conda-forge -y
+            mamba install -n unilab --override-channels -c uni-lab -c robostack-staging -c conda-forge uni-lab::unilabos-full conda-pack zstandard -y
          ) else (
            echo Installing unilabos ^(minimal package^)...
-            mamba install -n unilab uni-lab::unilabos conda-pack -c uni-lab -c robostack-staging -c conda-forge -y
+            mamba install -n unilab --override-channels -c uni-lab -c robostack-staging -c conda-forge uni-lab::unilabos conda-pack zstandard -y
          )
      - name: Install conda-pack, unilabos and dependencies (Unix)
@@ -101,13 +117,13 @@ jobs:
        run: |
          echo "Installing unilabos and dependencies to unilab environment..."
          echo "Using mamba for faster and more reliable dependency resolution..."
-          echo "Build full: ${{ github.event.inputs.build_full }}"
+          echo "Build full: ${{ env.BUILD_FULL }}"
-          if [[ "${{ github.event.inputs.build_full }}" == "true" ]]; then
+          if [[ "${{ env.BUILD_FULL }}" == "true" ]]; then
            echo "Installing unilabos-full (complete package)..."
-            mamba install -n unilab uni-lab::unilabos-full conda-pack -c uni-lab -c robostack-staging -c conda-forge -y
+            mamba install -n unilab --override-channels -c uni-lab -c robostack-staging -c conda-forge uni-lab::unilabos-full conda-pack zstandard -y
          else
            echo "Installing unilabos (minimal package)..."
-            mamba install -n unilab uni-lab::unilabos conda-pack -c uni-lab -c robostack-staging -c conda-forge -y
+            mamba install -n unilab --override-channels -c uni-lab -c robostack-staging -c conda-forge uni-lab::unilabos conda-pack zstandard -y
          fi
      - name: Get latest ros-humble-unilabos-msgs version (Windows)
@@ -134,27 +150,27 @@ jobs:
        if: steps.should_build.outputs.should_build == 'true' && matrix.platform == 'win-64'
        run: |
          echo Checking for available ros-humble-unilabos-msgs versions...
-          mamba search ros-humble-unilabos-msgs -c uni-lab -c robostack-staging -c conda-forge || echo Search completed
+          mamba search --override-channels -c uni-lab -c robostack-staging -c conda-forge ros-humble-unilabos-msgs || echo Search completed
          echo.
          echo Updating ros-humble-unilabos-msgs to latest version...
-          mamba update -n unilab ros-humble-unilabos-msgs -c uni-lab -c robostack-staging -c conda-forge -y || echo Already at latest version
+          mamba update -n unilab --override-channels -c uni-lab -c robostack-staging -c conda-forge ros-humble-unilabos-msgs -y || echo Already at latest version
      - name: Check for newer ros-humble-unilabos-msgs (Unix)
        if: steps.should_build.outputs.should_build == 'true' && matrix.platform != 'win-64'
        shell: bash
        run: |
          echo "Checking for available ros-humble-unilabos-msgs versions..."
-          mamba search ros-humble-unilabos-msgs -c uni-lab -c robostack-staging -c conda-forge || echo "Search completed"
+          mamba search --override-channels -c uni-lab -c robostack-staging -c conda-forge ros-humble-unilabos-msgs || echo "Search completed"
          echo ""
          echo "Updating ros-humble-unilabos-msgs to latest version..."
-          mamba update -n unilab ros-humble-unilabos-msgs -c uni-lab -c robostack-staging -c conda-forge -y || echo "Already at latest version"
+          mamba update -n unilab --override-channels -c uni-lab -c robostack-staging -c conda-forge ros-humble-unilabos-msgs -y || echo "Already at latest version"
      - name: Install latest unilabos from source (Windows)
        if: steps.should_build.outputs.should_build == 'true' && matrix.platform == 'win-64'
        run: |
          echo Uninstalling existing unilabos...
          mamba run -n unilab pip uninstall unilabos -y || echo unilabos not installed via pip
-          echo Installing unilabos from source (branch: ${{ github.event.inputs.branch }})...
+          echo Installing unilabos from source (ref: ${{ env.PACKAGE_REF }})...
          mamba run -n unilab pip install .
          echo Verifying installation...
          mamba run -n unilab pip show unilabos
@@ -165,7 +181,7 @@ jobs:
        run: |
          echo "Uninstalling existing unilabos..."
          mamba run -n unilab pip uninstall unilabos -y || echo "unilabos not installed via pip"
-          echo "Installing unilabos from source (branch: ${{ github.event.inputs.branch }})..."
+          echo "Installing unilabos from source (ref: ${{ env.PACKAGE_REF }})..."
          mamba run -n unilab pip install .
          echo "Verifying installation..."
          mamba run -n unilab pip show unilabos
@@ -226,7 +242,9 @@ jobs:
        if: steps.should_build.outputs.should_build == 'true' && matrix.platform == 'win-64'
        run: |
          echo Packing unilab environment with conda-pack...
-          mamba activate unilab && conda pack -n unilab -o unilab-env-${{ matrix.platform }}.tar.gz --ignore-missing-files
+          for /f "delims=" %%i in ('mamba run -n unilab python -c "import os; print(os.environ['CONDA_PREFIX'])"') do set "UNILAB_PREFIX=%%i"
          echo Packing environment at: %UNILAB_PREFIX%
          mamba run -n unilab conda-pack -p "%UNILAB_PREFIX%" -o unilab-env-${{ matrix.platform }}.tar.gz --ignore-missing-files
          echo Pack file created:
          dir unilab-env-${{ matrix.platform }}.tar.gz
@@ -235,8 +253,9 @@ jobs:
        shell: bash
        run: |
          echo "Packing unilab environment with conda-pack..."
-          mamba install conda-pack -c conda-forge -y
+          UNILAB_PREFIX="$(mamba run -n unilab python -c 'import os; print(os.environ["CONDA_PREFIX"])')"
-          conda pack -n unilab -o unilab-env-${{ matrix.platform }}.tar.gz --ignore-missing-files
+          echo "Packing environment at: $UNILAB_PREFIX"
          mamba run -n unilab conda-pack -p "$UNILAB_PREFIX" -o unilab-env-${{ matrix.platform }}.tar.gz --ignore-missing-files
          echo "Pack file created:"
          ls -lh unilab-env-${{ matrix.platform }}.tar.gz
@@ -267,7 +286,7 @@ jobs:
          rem Create README using Python script
          echo Creating: README.txt
-          python scripts\create_readme.py ${{ matrix.platform }} ${{ github.event.inputs.branch }} dist-package\README.txt
+          python scripts\create_readme.py ${{ matrix.platform }} ${{ env.PACKAGE_REF }} dist-package\README.txt
          echo.
          echo Distribution package contents:
@@ -303,7 +322,7 @@ jobs:
          # Create README using Python script
          echo "Creating: README.txt"
-          python scripts/create_readme.py ${{ matrix.platform }} ${{ github.event.inputs.branch }} dist-package/README.txt
+          python scripts/create_readme.py ${{ matrix.platform }} ${{ env.PACKAGE_REF }} dist-package/README.txt
          echo ""
          echo "Distribution package contents:"
@@ -314,7 +333,7 @@ jobs:
        if: steps.should_build.outputs.should_build == 'true'
        uses: actions/upload-artifact@v6
        with:
-          name: unilab-pack-${{ matrix.platform }}-${{ github.event.inputs.branch }}
+          name: unilab-pack-${{ matrix.platform }}-${{ env.PACKAGE_REF }}
          path: dist-package/
          retention-days: 90
          if-no-files-found: error
@@ -326,9 +345,9 @@ jobs:
          echo Build Summary
          echo ==========================================
          echo Platform: ${{ matrix.platform }}
-          echo Branch: ${{ github.event.inputs.branch }}
+          echo Branch: ${{ env.PACKAGE_REF }}
          echo Python version: 3.11.14
-          if "${{ github.event.inputs.build_full }}"=="true" (
+          if "${{ env.BUILD_FULL }}"=="true" (
            echo Package: unilabos-full ^(complete^)
          ) else (
            echo Package: unilabos ^(minimal^)
@@ -337,7 +356,7 @@ jobs:
          echo Distribution package contents:
          dir dist-package
          echo.
-          echo Artifact name: unilab-pack-${{ matrix.platform }}-${{ github.event.inputs.branch }}
+          echo Artifact name: unilab-pack-${{ matrix.platform }}-${{ env.PACKAGE_REF }}
          echo.
          echo After download, extract the ZIP and run:
          echo   install_unilab.bat
@@ -351,9 +370,9 @@ jobs:
          echo "Build Summary"
          echo "=========================================="
          echo "Platform: ${{ matrix.platform }}"
-          echo "Branch: ${{ github.event.inputs.branch }}"
+          echo "Branch: ${{ env.PACKAGE_REF }}"
          echo "Python version: 3.11.14"
-          if [[ "${{ github.event.inputs.build_full }}" == "true" ]]; then
+          if [[ "${{ env.BUILD_FULL }}" == "true" ]]; then
            echo "Package: unilabos-full (complete)"
          else
            echo "Package: unilabos (minimal)"
@@ -362,7 +381,7 @@ jobs:
          echo "Distribution package contents:"
          ls -lh dist-package/
          echo ""
-          echo "Artifact name: unilab-pack-${{ matrix.platform }}-${{ github.event.inputs.branch }}"
+          echo "Artifact name: unilab-pack-${{ matrix.platform }}-${{ env.PACKAGE_REF }}"
          echo ""
          echo "After download:"
          echo "  install_unilab.sh"
--- a/.github/workflows/deploy-docs.yml
+++ b/.github/workflows/deploy-docs.yml
@@ -56,7 +56,7 @@ jobs:
          miniforge-version: latest
          use-mamba: true
          python-version: '3.11.14'
-          channels: conda-forge,robostack-staging,uni-lab,defaults
+          channels: conda-forge,robostack-staging,uni-lab
          channel-priority: flexible
          activate-environment: unilab
          auto-update-conda: false
@@ -66,7 +66,7 @@ jobs:
        run: |
          echo "Installing unilabos and dependencies to unilab environment..."
          echo "Using mamba for faster and more reliable dependency resolution..."
-          mamba install -n unilab uni-lab::unilabos -c uni-lab -c robostack-staging -c conda-forge -y
+          mamba install -n unilab --override-channels -c uni-lab -c robostack-staging -c conda-forge uni-lab::unilabos -y
      - name: Install latest unilabos from source
        run: |
--- a/.github/workflows/multi-platform-build.yml
+++ b/.github/workflows/multi-platform-build.yml
@@ -10,6 +10,9 @@ on:
  # 支持 tag 推送（不依赖 CI Check）
  push:
    tags: ['v*']
  # GitHub Release 发布时自动构建并上传
  release:
    types: [published]
  # 手动触发
  workflow_dispatch:
    inputs:
@@ -80,7 +83,7 @@ jobs:
      - uses: actions/checkout@v6
        with:
          # 如果是 workflow_run 触发，使用触发 CI Check 的 commit
-          ref: ${{ github.event.workflow_run.head_sha || github.ref }}
+          ref: ${{ github.event.workflow_run.head_sha || github.event.release.tag_name || github.ref }}
          fetch-depth: 0
      - name: Check if platform should be built
@@ -96,12 +99,13 @@ jobs:
            echo "should_build=false" >> $GITHUB_OUTPUT
          fi
-      - name: Setup Miniconda
+      - name: Setup Miniforge
        if: steps.should_build.outputs.should_build == 'true'
        uses: conda-incubator/setup-miniconda@v3
        with:
-          miniconda-version: 'latest'
+          miniforge-version: latest
-          channels: conda-forge,robostack-staging,defaults
+          use-mamba: true
          channels: conda-forge,robostack-staging
          channel-priority: strict
          activate-environment: build-env
          auto-update-conda: false
@@ -110,7 +114,7 @@ jobs:
      - name: Install rattler-build and anaconda-client
        if: steps.should_build.outputs.should_build == 'true'
        run: |
-          conda install -c conda-forge rattler-build anaconda-client
+          mamba install --override-channels -c conda-forge rattler-build anaconda-client -y
      - name: Show environment info
        if: steps.should_build.outputs.should_build == 'true'
@@ -157,7 +161,13 @@ jobs:
          retention-days: 30
      - name: Upload to Anaconda.org (unilab organization)
-        if: steps.should_build.outputs.should_build == 'true' && github.event.inputs.upload_to_anaconda == 'true'
+        if: |
          steps.should_build.outputs.should_build == 'true' &&
          (
            github.event_name == 'release' ||
            startsWith(github.ref, 'refs/tags/') ||
            github.event.inputs.upload_to_anaconda == 'true'
          )
        run: |
          for package in $(find ./output -name "*.conda"); do
            echo "Uploading $package to unilab organization..."
--- a/.github/workflows/unilabos-conda-build.yml
+++ b/.github/workflows/unilabos-conda-build.yml
@@ -1,14 +1,10 @@
 name: UniLabOS Conda Build
 on:
-  # 在 CI Check 成功后自动触发
+  # 在 Multi-Platform Conda Build 成功上传 msgs 后自动触发
  workflow_run:
-    workflows: ["CI Check"]
+    workflows: ["Multi-Platform Conda Build"]
    types: [completed]
    branches: [main, dev]
  # 标签推送时直接触发（发布版本）
  push:
    tags: ['v*']
  # 手动触发
  workflow_dispatch:
    inputs:
@@ -33,30 +29,30 @@ on:
        type: boolean
 jobs:
-  # 等待 CI Check 完成的 job (仅用于 workflow_run 触发)
+  # 等待上游 msgs 构建完成的 job (仅用于 workflow_run 触发)
-  wait-for-ci:
+  wait-for-upstream:
    runs-on: ubuntu-latest
    if: github.event_name == 'workflow_run'
    outputs:
      should_continue: ${{ steps.check.outputs.should_continue }}
    steps:
-      - name: Check CI status
+      - name: Check upstream workflow status
        id: check
        run: |
-          if [[ "${{ github.event.workflow_run.conclusion }}" == "success" ]]; then
+          if [[ "${{ github.event.workflow_run.conclusion }}" == "success" && ( "${{ github.event.workflow_run.event }}" == "release" || "${{ github.event.workflow_run.event }}" == "push" ) ]]; then
            echo "should_continue=true" >> $GITHUB_OUTPUT
-            echo "CI Check passed, proceeding with build"
+            echo "Multi-Platform Conda Build passed for release/tag, proceeding with UniLabOS build"
          else
            echo "should_continue=false" >> $GITHUB_OUTPUT
-            echo "CI Check did not succeed (status: ${{ github.event.workflow_run.conclusion }}), skipping build"
+            echo "Upstream workflow is not a successful release/tag build (status: ${{ github.event.workflow_run.conclusion }}, event: ${{ github.event.workflow_run.event }}), skipping build"
          fi
  build:
-    needs: [wait-for-ci]
+    needs: [wait-for-upstream]
-    # 运行条件：workflow_run 触发且 CI 成功，或者其他触发方式
+    # 运行条件：workflow_run 触发且上游成功，或者手动触发
    if: |
      always() &&
-      (needs.wait-for-ci.result == 'skipped' || needs.wait-for-ci.outputs.should_continue == 'true')
+      (needs.wait-for-upstream.result == 'skipped' || needs.wait-for-upstream.outputs.should_continue == 'true')
    strategy:
      fail-fast: false
      matrix:
@@ -79,7 +75,7 @@ jobs:
    steps:
      - uses: actions/checkout@v6
        with:
-          # 如果是 workflow_run 触发，使用触发 CI Check 的 commit
+          # 如果是 workflow_run 触发，使用上游 conda 包构建的 commit
          ref: ${{ github.event.workflow_run.head_sha || github.ref }}
          fetch-depth: 0
@@ -96,12 +92,13 @@ jobs:
            echo "should_build=false" >> $GITHUB_OUTPUT
          fi
-      - name: Setup Miniconda
+      - name: Setup Miniforge
        if: steps.should_build.outputs.should_build == 'true'
        uses: conda-incubator/setup-miniconda@v3
        with:
-          miniconda-version: 'latest'
+          miniforge-version: latest
-          channels: conda-forge,robostack-staging,uni-lab,defaults
+          use-mamba: true
          channels: conda-forge,robostack-staging,uni-lab
          channel-priority: strict
          activate-environment: build-env
          auto-update-conda: false
@@ -110,7 +107,7 @@ jobs:
      - name: Install rattler-build and anaconda-client
        if: steps.should_build.outputs.should_build == 'true'
        run: |
-          conda install -c conda-forge rattler-build anaconda-client
+          mamba install --override-channels -c conda-forge rattler-build anaconda-client -y
      - name: Show environment info
        if: steps.should_build.outputs.should_build == 'true'
@@ -119,11 +116,11 @@ jobs:
          conda list | grep -E "(rattler-build|anaconda-client)"
          echo "Platform: ${{ matrix.platform }}"
          echo "OS: ${{ matrix.os }}"
-          echo "Build full package: ${{ github.event.inputs.build_full || 'false' }}"
+          echo "Build full package: ${{ github.event_name == 'workflow_dispatch' && github.event.inputs.build_full == 'true' }}"
          echo "Building packages:"
          echo "  - unilabos-env (environment dependencies)"
          echo "  - unilabos (with pip package)"
-          if [[ "${{ github.event.inputs.build_full }}" == "true" ]]; then
+          if [[ "${{ github.event_name == 'workflow_dispatch' && github.event.inputs.build_full == 'true' }}" == "true" ]]; then
            echo "  - unilabos-full (complete package)"
          fi
@@ -134,7 +131,12 @@ jobs:
          rattler-build build -r .conda/environment/recipe.yaml -c uni-lab -c robostack-staging -c conda-forge
      - name: Upload unilabos-env to Anaconda.org (if enabled)
-        if: steps.should_build.outputs.should_build == 'true' && github.event.inputs.upload_to_anaconda == 'true'
+        if: |
          steps.should_build.outputs.should_build == 'true' &&
          (
            github.event_name == 'workflow_run' ||
            github.event.inputs.upload_to_anaconda == 'true'
          )
        run: |
          echo "Uploading unilabos-env to uni-lab organization..."
          for package in $(find ./output -name "unilabos-env*.conda"); do
@@ -149,7 +151,12 @@ jobs:
          rattler-build build -r .conda/base/recipe.yaml -c uni-lab -c robostack-staging -c conda-forge --channel ./output
      - name: Upload unilabos to Anaconda.org (if enabled)
-        if: steps.should_build.outputs.should_build == 'true' && github.event.inputs.upload_to_anaconda == 'true'
+        if: |
          steps.should_build.outputs.should_build == 'true' &&
          (
            github.event_name == 'workflow_run' ||
            github.event.inputs.upload_to_anaconda == 'true'
          )
        run: |
          echo "Uploading unilabos to uni-lab organization..."
          for package in $(find ./output -name "unilabos-0*.conda" -o -name "unilabos-[0-9]*.conda"); do
@@ -159,6 +166,7 @@ jobs:
      - name: Build unilabos-full - Only when explicitly requested
        if: |
          steps.should_build.outputs.should_build == 'true' && 
          github.event_name == 'workflow_dispatch' &&
          github.event.inputs.build_full == 'true'
        run: |
          echo "Building unilabos-full package on ${{ matrix.platform }}..."
@@ -167,6 +175,7 @@ jobs:
      - name: Upload unilabos-full to Anaconda.org (if enabled)
        if: |
          steps.should_build.outputs.should_build == 'true' && 
          github.event_name == 'workflow_dispatch' &&
          github.event.inputs.build_full == 'true' &&
          github.event.inputs.upload_to_anaconda == 'true'
        run: |
--- a/docs/ai_guides/add_device.md
+++ b/docs/ai_guides/add_device.md
--- a/docs/ai_guides/agent_prompt_template.md
+++ b/docs/ai_guides/agent_prompt_template.md
@@ -1,344 +0,0 @@
 # Uni-Lab-OS 设备接入 Agent — 提示词模板
 > 本文件提供一套可直接复制使用的 Agent 系统提示词，以及各平台的配置说明。
 > 提示词模板与 `add_device.md`（领域知识）配合使用，前者控制 Agent 行为，后者提供完整的技术细节。
 ---
 ## 系统提示词模板
 以下内容可直接作为系统提示词 / Instructions / Custom Instructions 使用。`{{...}}` 标记的变量根据平台替换。
 ---
 ### 开始复制 ↓
 ```
 你是 Uni-Lab-OS 设备接入专家。你的任务是帮助用户将新的实验室硬件设备接入 Uni-Lab-OS 系统。
 你能做的事：
 - 根据用户描述，生成完整的设备驱动代码（Python）、注册表（YAML）和实验图文件（JSON）
 - 解读用户提供的通信协议文档、SDK 代码、或口述的指令格式
 - 诊断已有驱动代码的接口对齐问题
 你不能做的事：
 - 凭空猜测硬件私有通信指令（必须从用户提供的资料中获取）
 - 替代真实硬件联调测试
 ## 知识来源
 {{KNOWLEDGE_LOADING}}
 ## 工作流程
 当用户要求接入新设备时，严格按以下流程执行。每个暂停点必须等待用户确认后再继续。
 ### 阶段 1：设备画像（交互）
 向用户收集以下三个信息，可以一次性提问：
 1. **设备类别** — 属于以下哪一种？
   - temperature（温控）、pump_and_valve（泵阀）、motor（电机）
   - heaterstirrer（加热搅拌）、balance（天平）、sensor（传感器）
   - liquid_handling（液体处理）、robot_arm（机械臂）、workstation（工作站）
   - virtual（虚拟设备）、custom（自定义）
   - 如果是 pump_and_valve，进一步确认子类型：注射泵 / 电磁阀 / 蠕动泵
 2. **设备英文名称** — 用于文件名和类名（如 my_heater、runze_sy03b）
 3. **通信协议** — Serial(RS232/RS485) / Modbus RTU / Modbus TCP / TCP Socket / HTTP API / OPC UA / 无通信（虚拟）
 ⏸️ **暂停：等待用户回答后继续**
 ### 阶段 2：指令协议收集（交互）
 根据上一步确定的通信协议，引导用户提供指令信息：
 - 如果用户有 **SDK/驱动代码**：请用户提供代码文件，你从中提取通信逻辑
 - 如果用户有 **协议文档**：请用户提供文档（PDF/图片/文本），你从中解析指令格式
 - 如果用户 **口头描述**：针对每个标准动作逐一确认硬件指令
 - 如果是 **标准协议**（Modbus 寄存器表、SCPI）：请用户提供寄存器/指令映射
 - 如果是 **虚拟设备**：跳过此阶段
 ⏸️ **暂停：确认已获取足够的指令协议信息**
 ### 阶段 3：确认摘要
 在开始生成代码前，向用户展示你的理解摘要：
 ```
 设备接入摘要：
 - 设备名称：<name>
 - 设备类别：<category>（<subtype>）
 - 通信协议：<protocol>
 - 指令来源：<source>
 - 将要实现的属性：<list>
 - 将要实现的动作：<list>
 - 同类已有设备：<existing>（将对齐其接口）
 ```
 ⏸️ **暂停：用户确认"没问题"后再生成代码**
 ### 阶段 4：自动生成（无需暂停）
 按以下顺序自动执行：
 1. **对齐同类设备接口**（指南第四步）
   - 查阅指南中的「现有设备接口快照」或搜索仓库注册表
   - 确保所有已有设备的 status_types 和动作方法都被覆盖
   - 参数名必须完全一致
 2. **生成驱动代码** — `unilabos/devices/<category>/<name>.py`
 3. **生成注册表** — `unilabos/registry/devices/<name>.yaml`（最小配置）
 4. **生成图文件** — `unilabos/test/experiments/graph_example_<name>.json`
 ### 阶段 5：验证输出
 生成完成后，逐项检查对齐验证清单并展示结果：
 ```
 对齐验证清单：
 - [x] 所有动作方法的参数名与已有设备完全一致
 - [x] status 属性返回的字符串值与已有设备一致
 - [x] 已有设备的所有 status_types 字段都有对应 @property
 - [x] 已有设备的所有非 auto- 前缀的 action 都有对应方法
 - [x] self.data 在 __init__ 中已预填充所有属性字段的默认值
 - [x] 串口/二进制协议的响应解析先定位帧起始标记
 ```
 如果有未通过的项，主动修复后再展示。
 ## 硬约束（违反任何一条都会导致设备接入失败）
 1. **禁止重命名参数** — 动作方法的参数名（如 volume、position、max_velocity）是接口契约，框架通过参数名分派调用。绝不能加后缀（如 volume_ml）、改名（如 speed_ml_s）。单位写在 docstring 中。
 2. **status 字符串必须一致** — 如果同类已有设备用英文（如 "Idle" / "Busy"），新驱动必须用相同的字符串，不能改为中文（如 "就绪"）。
 3. **self.data 必须预填充** — 不能用空字典 {}。框架在 initialize() 之前就可能读取属性值。每个 @property 对应的键都必须在 __init__ 中有初始值。
 4. **禁止跳过接口对齐** — 对齐同类设备接口是强制步骤。缺失的属性和动作会导致设备在工作流中不可互换。
 5. **串口解析先找帧头** — RS-485 总线上响应前常有回声/噪声字节。必须先定位帧起始标记（如 /、0xFE），禁止用硬编码索引直接解析。
 6. **异步等待用 _ros_node.sleep** — 在 async 方法中使用 await self._ros_node.sleep()，禁止 time.sleep()（阻塞事件循环）和 asyncio.sleep()。
 7. **物理单位对外暴露** — 对外参数使用用户友好的物理单位（mL、°C、RPM），驱动内部负责转换到硬件原始值（步数、Hz、寄存器值）。
 ## 代码骨架参考
 所有设备驱动遵循以下结构：
 ```python
 import logging
 import time as time_module
 from typing import Dict, Any
 try:
    from unilabos.ros.nodes.base_device_node import BaseROS2DeviceNode
 except ImportError:
    BaseROS2DeviceNode = None
 class MyDevice:
    _ros_node: "BaseROS2DeviceNode"
    def __init__(self, device_id: str = None, config: Dict[str, Any] = None, **kwargs):
        if device_id is None and 'id' in kwargs:
            device_id = kwargs.pop('id')
        if config is None and 'config' in kwargs:
            config = kwargs.pop('config')
        self.device_id = device_id or "unknown_device"
        self.config = config or {}
        self.logger = logging.getLogger(f"MyDevice.{self.device_id}")
        self.data = {
            "status": "Idle",
            # 所有 @property 的键都必须在此预填充
        }
    def post_init(self, ros_node: "BaseROS2DeviceNode"):
        self._ros_node = ros_node
    async def initialize(self) -> bool:
        self.data["status"] = "Idle"
        return True
    async def cleanup(self) -> bool:
        self.data["status"] = "Offline"
        return True
    @property
    def status(self) -> str:
        return self.data.get("status", "Idle")
 ```
 ## 注册表最小配置
 ```yaml
 my_device:
  class:
    module: unilabos.devices.<category>.<file>:MyDevice
    type: python
 ```
 启动时 --complete_registry 自动生成 status_types 和 action_value_mappings。
 ## 图文件模板
 ```json
 {
    "nodes": [
        {
            "id": "my_device_1",
            "name": "设备名称",
            "children": [],
            "parent": null,
            "type": "device",
            "class": "my_device",
            "position": {"x": 0, "y": 0, "z": 0},
            "config": {},
            "data": {}
        }
    ]
 }
 ```
 ## 现有设备接口快照（对齐用）
 对齐时参考以下已有设备接口。如果能联网，优先从 GitHub 获取最新版本：
 https://github.com/dptech-corp/Uni-Lab-OS/tree/main/unilabos/registry/devices/
 ### pump_and_valve — 注射泵
 已有设备：syringe_pump_with_valve.runze.SY03B-T06
 属性：status(str, "Idle"/"Busy"), valve_position(str), position(float, mL), max_velocity(float, mL/s), mode(int), plunger_position(String), velocity_grade(String), velocity_init(String), velocity_end(String)
 方法签名（参数名不可改）：
 - initialize()
 - set_valve_position(position)
 - set_position(position: float, max_velocity: float = None)
 - pull_plunger(volume: float)
 - push_plunger(volume: float)
 - set_max_velocity(velocity: float)
 - set_velocity_grade(velocity)
 - stop_operation()
 ### pump_and_valve — 电磁阀
 属性：status(str), valve_position(str)
 方法：open(), close(), set_valve_position(position), is_open(), is_closed()
 ### temperature
 属性：status(str), temp(float, °C), temp_target(float, °C), stir_speed(float, RPM), temp_warning(float, °C)
 ### motor
 属性：status(str), position(int)
 ### sensor
 属性：level(bool), rssi(int)
 ```
 ### 结束复制 ↑
 ---
 ## `{{KNOWLEDGE_LOADING}}` 变量替换
 根据平台能力，将提示词中的 `{{KNOWLEDGE_LOADING}}` 替换为以下对应内容：
 ### 方案 A：有知识库（Custom GPT / Claude Project）
 ```
 你的知识库中包含 add_device.md 文件，这是完整的设备接入指南。
 执行工作流时，参考该文件获取物模型模板、通信协议代码片段、指令协议模式和常见错误检查清单。
 本提示词中的「现有设备接口快照」和「硬约束」是从指南中提炼的关键内容，以确保即使知识库检索不完整也能正确工作。
 ```
 ### 方案 B：有联网能力
 ```
 执行工作流前，从以下 URL 获取完整的设备接入指南：
 https://raw.githubusercontent.com/dptech-corp/Uni-Lab-OS/main/docs/ai_guides/add_device.md
 该指南包含物模型模板、通信协议代码片段、指令协议模式和常见错误检查清单。
 如果无法访问 URL，使用本提示词中内联的「现有设备接口快照」和「代码骨架参考」作为兜底。
 ```
 ### 方案 C：无知识库、无联网
 ```
 完整的设备接入指南需要用户在对话中提供。
 如果用户未主动提供，请在阶段 1 开始前询问：
 "请将 add_device.md 的内容粘贴到对话中，或上传该文件。如果没有该文件，我将使用内置的精简规则工作。"
 本提示词已内联了最关键的内容（硬约束 + 代码骨架 + 接口快照），足以生成基本正确的驱动。
 但完整指南包含更多物模型模板和通信协议代码片段，能显著提升生成质量。
 ```
 ---
 ## 各平台配置指南
 ### OpenAI Custom GPT
 1. 进入 https://chat.openai.com/gpts/editor
 2. **Name**：Uni-Lab-OS 设备接入助手
 3. **Description**：帮助用户将实验室硬件设备接入 Uni-Lab-OS 系统，自动生成驱动代码、注册表和图文件。
 4. **Instructions**：粘贴上方系统提示词，`{{KNOWLEDGE_LOADING}}` 替换为方案 A
 5. **Knowledge**：上传 `docs/ai_guides/add_device.md`
 6. **Capabilities**：开启 Code Interpreter（用于代码验证）
 7. **Conversation starters**：
   - "我要接入一个新的注射泵"
   - "帮我把这个 SDK 包装成 UniLab 驱动"
   - "检查我的设备驱动有没有接口问题"
 ### Claude Project
 1. 创建新 Project
 2. **Custom Instructions**：粘贴系统提示词，`{{KNOWLEDGE_LOADING}}` 替换为方案 A
 3. **Project Knowledge**：上传 `docs/ai_guides/add_device.md`
 ### API Agent（LangChain / AutoGen / 自建框架）
 ```python
 system_prompt = """
 <粘贴完整系统提示词，{{KNOWLEDGE_LOADING}} 替换为方案 B>
 """
 # 如果框架支持工具调用，可注册以下工具：
 tools = [
    {
        "name": "fetch_device_guide",
        "description": "获取最新的 Uni-Lab-OS 设备接入指南",
        "url": "https://raw.githubusercontent.com/dptech-corp/Uni-Lab-OS/main/docs/ai_guides/add_device.md"
    },
    {
        "name": "fetch_registry",
        "description": "获取最新的设备注册表",
        "url": "https://raw.githubusercontent.com/dptech-corp/Uni-Lab-OS/main/unilabos/registry/devices/{category}.yaml"
    },
 ]
 ```
 ### Cursor Agent Mode
 无需使用本模板。Cursor 中使用已有的 `.cursor/skills/add-device/SKILL.md`，它会自动读取 `docs/ai_guides/add_device.md` 并利用 Cursor 的工具能力（Grep 搜索注册表、AskQuestion 收集信息等）。
 ### 纯网页对话（ChatGPT / Claude 无 Project）
 1. 第一条消息粘贴系统提示词（`{{KNOWLEDGE_LOADING}}` 替换为方案 C）
 2. 第二条消息上传或粘贴 `add_device.md`
 3. 第三条消息开始描述设备
 ---
 ## 维护说明
 - **硬约束更新**：如果 `add_device.md` 中新增了禁止事项或常见错误，需要同步更新本模板的「硬约束」部分
 - **接口快照更新**：新增设备类别或已有设备接口变更时，需要同步更新本模板的「现有设备接口快照」部分
 - **工作流调整**：如果接入流程发生变化（新增步骤、合并步骤），需要同步调整「工作流程」部分
 - 本模板与 `add_device.md` 是**互补关系**：模板定义 Agent 行为，指南提供领域知识。两者独立维护
--- a/docs/developer_guide/add_old_device.md
+++ b/docs/developer_guide/add_old_device.md
@@ -18,15 +18,13 @@ Uni-Lab 开发团队在仓库中提供了 3 个样例：
 - 单一机械设备**电夹爪**，通讯协议可见 [增广夹爪通讯协议](https://doc.rmaxis.com/docs/communication/fieldbus/)，驱动代码位于 `unilabos/devices/gripper/rmaxis_v4.py`
 - 单一通信设备**IO 板卡**，驱动代码位于 `unilabos/device_comms/gripper/SRND_16_IO.py`
- 执行多设备复杂任务逻辑的**PLC**，Uni-Lab 提供了基于地址表的接入方式和点动工作流编写，测试代码位于 `unilabos/device_comms/modbus_plc/test/test_workflow.py`。详细框架说明请参考 {doc}`plc_framework`
+- 执行多设备复杂任务逻辑的**PLC**，Uni-Lab 提供了基于地址表的接入方式和点动工作流编写，测试代码位于 `unilabos/device_comms/modbus_plc/test/test_workflow.py`
 ---
 ## 其他工业通信协议：CANopen, Ethernet, OPCUA...
-Uni-Lab 已实现基于 OPC UA 协议的 PLC 接管框架，用于后处理工站等项目。与 Modbus 框架相比，OPC UA 框架额外提供了自动节点发现、订阅推送、断线重连等特性。详细说明请参考 {doc}`plc_framework`。
+【敬请期待】
 其他协议（CANopen、EtherCAT 等）【敬请期待】
 ## 没有接口的老设备老软件：使用 PyWinAuto
--- a/docs/developer_guide/plc_framework.md
+++ b/docs/developer_guide/plc_framework.md
@@ -1,281 +0,0 @@
 # PLC 设备接管框架
 > 本文档面向初次接触 UniLab-OS 的开发者，介绍系统如何通过工业协议"接管"（连接并控制）PLC 设备。
 ## 什么是"PLC 接管"？
 **PLC**（可编程逻辑控制器）是工厂设备的控制核心，驱动机械臂、泵、阀门等硬件。UniLab-OS 通过网络协议直接读写 PLC 内部变量，从而控制设备运行：
 ```
 UniLab-OS（Python）  ←通信协议→  PLC  ←电信号→  电机/气缸/传感器
 ```
 UniLab-OS 提供两套接管框架，对应两种工业协议：
 | 框架            | 协议             | 应用项目           | 核心文件                                                    |
 | --------------- | ---------------- | ------------------ | ----------------------------------------------------------- |
 | **Modbus 框架** | Modbus TCP / RTU | 扣式电池装配工站   | `unilabos/device_comms/modbus_plc/client.py`                |
 | **OPC UA 框架** | OPC UA           | 后处理工站（怀柔） | `unilabos/devices/workstation/post_process/post_process.py` |
 两套框架**设计思想完全一致**，底层通信协议不同。理解一个，另一个基本触类旁通。
 ---
 ## 核心概念
 ### 节点（Node）
 节点是 PLC 内部一个具体的变量地址，可以理解为 PLC 的一个输入/输出端口。
 | 属性 | 说明                                   | 示例                 |
 | ---- | -------------------------------------- | -------------------- |
 | 名称 | 人类可读标识                           | `COIL_SYS_START_CMD` |
 | 地址 | PLC 内存地址                           | `0x0064`             |
 | 类型 | Coil / HoldRegister / InputRegister 等 | `coil`               |
 ```
 PLC 内存空间
 ├── Coil 区:    True / False  ← 控制开关量（启动/停止/复位）
 ├── Hold Reg:   120, 35.5 …  ← 存参数值（速度、位置）
 └── Input Reg:  99.8, 42 …   ← 只读传感器数据
 ```
 ### 动作生命周期（Action Lifecycle）
 每个设备动作被拆分为 4 个阶段，用 `try/finally` 保证安全性：
 ```python
 try:
    init(...)    # 写入参数（速度、位置等）— 可选
    start(...)   # 发触发信号 + 轮询等待完成
    stop(...)    # 复位触发信号（成功时执行）
 except:
    is_err = True
 finally:
    cleanup(...) # 无论成败都执行，作为安全兜底
 ```
 | 阶段      | 何时执行                | 典型内容                             |
 | --------- | ----------------------- | ------------------------------------ |
 | `init`    | 成功路径（可选）        | 写运动速度 = 20.0                    |
 | `start`   | 成功路径                | 写启动位 = True，等待完成位 = True   |
 | `stop`    | 成功路径                | 写启动位 = False（正常复位）         |
 | `cleanup` | **无论成败**（finally） | 安全兜底复位，防止异常时设备持续运动 |
 > **为什么 `cleanup` 无论成败都执行？**
 > 若 `start` 阶段因传感器故障抛出异常，`stop` 会被跳过，PLC 触发位仍为 `True`——设备可能持续运动。`cleanup` 放在 `finally` 块中，作为最后的安全保障，确保 PLC 一定被复位到安全状态。实际上大多数动作将 `cleanup` 设为 `null`，由 `stop` 负责正常复位即可。
 ---
 ## Modbus 框架
 **核心文件**：`unilabos/device_comms/modbus_plc/client.py`
 **参考实现**：`unilabos/devices/workstation/coin_cell_assembly/coin_cell_assembly.py`
 ### 连接与节点注册
 ```python
 from unilabos.device_comms.modbus_plc.client import TCPClient, BaseClient
 # 1. 建立 TCP 连接
 client = TCPClient(addr="172.16.28.102", port=502)
 client.client.connect()
 # 2. 从 CSV 加载节点定义
 nodes = BaseClient.load_csv("coin_cell_assembly_b.csv")
 # 3. 注册节点，之后可按名称访问
 client.register_node_list(nodes)
 # 访问节点
 client.use_node('COIL_SYS_START_CMD').write(True)
 value, err = client.use_node('COIL_SYS_START_STATUS').read(1)
 ```
 **CSV 格式**（`Name` / `DeviceType` / `Address` / `DataType`）：
 | Name               | DeviceType    | Address | DataType |
 | ------------------ | ------------- | ------- | -------- |
 | COIL_SYS_START_CMD | coil          | 100     | INT16    |
 | REG_SPEED          | hold_register | 200     | FLOAT32  |
 ### 三段式接管流程（扣式电池工站）
 PLC 设备通常需要按固定顺序切换模式，以扣式电池工站为例：
 ```
 Python                             PLC
  │── 写 HAND_CMD = True ─────────>│ 切换到手动模式
  │<─ 读 HAND_STATUS = True ────────│ 确认进入手动
  │── 写 INIT_CMD = True ──────────>│ 执行初始化
  │<─ 读 INIT_STATUS = True ─────────│ 初始化完成
  │── 写 HAND_CMD = False ──────────>│ 复位（脉冲信号）
  │── 写 INIT_CMD = False ──────────>│ 复位
  │── 写 AUTO_CMD = True ───────────>│ 切换自动模式
  │<─ 读 AUTO_STATUS = True ─────────│ 自动模式就绪
  │── 写 AUTO_CMD = False ──────────>│ 复位
  │── 写 START_CMD = True ──────────>│ 开始运行
  │<─ 读 START_STATUS = True ────────│ 运行确认
  │── 写 START_CMD = False ──────────>│ 复位
 ```
 > **脉冲信号模式**：命令写 `True` → 等待 PLC 状态位确认 → 命令写回 `False`，这是大多数 PLC 的标准触发方式，而不是保持高电平。
 ### JSON 配置方式
 Modbus 框架支持纯 JSON 配置，无需手写 Python 流程：
 ```json
 {
    "register_node_list_from_csv_path": {"path": "M01.csv"},
    "create_flow": [
        {
            "name": "归位",
            "action": [{
                "address_function_to_create": [
                    {"func_name": "pos_tip",      "node_name": "M01_idlepos_coil_w",    "mode": "write", "value": true},
                    {"func_name": "pos_tip_read", "node_name": "M01_idlepos_coil_r",    "mode": "read",  "value": 1},
                    {"func_name": "manual_stop",  "node_name": "M01_manual_stop_coil_r","mode": "read",  "value": 1}
                ],
                "create_init_function":  {"func_name": "idel_init", "node_name": "M01_idlepos_velocity_rw", "mode": "write", "value": 20.0},
                "create_start_function": {
                    "func_name": "idel_position",
                    "write_functions": ["pos_tip"],
                    "condition_functions": ["pos_tip_read", "manual_stop"],
                    "stop_condition_expression": "pos_tip_read[0] and manual_stop[0]"
                },
                "create_stop_function":  {"func_name": "idel_stop", "node_name": "M01_idlepos_coil_w", "mode": "write", "value": false},
                "create_cleanup_function": null
            }]
        }
    ],
    "execute_flow": ["归位"]
 }
 ```
 执行：
 ```python
 client.execute_procedure_from_json(json_data)
 ```
 ---
 ## OPC UA 框架
 **核心文件**：`unilabos/devices/workstation/post_process/post_process.py`
 **参考实现**：`unilabos/devices/workstation/post_process/opcua_huairou.json`
 ### 与 Modbus 的主要区别
 | 特性       | Modbus               | OPC UA                            |
 | ---------- | -------------------- | --------------------------------- |
 | 节点发现   | 手动填写 CSV 地址    | **自动遍历**服务器节点树          |
 | 数据获取   | 轮询（主动问）       | **订阅推送**（有变化时通知）      |
 | 节点标识   | 数字地址（如 `100`） | 字符串 NodeId（如 `ns=2;s=速度`） |
 | 断线处理   | 无                   | **后台监控线程**自动重连          |
 | 认证安全   | 无                   | 支持用户名/密码                   |
 | 工作流调用 | 手动调用             | **自动注册为实例方法**            |
 ### 连接与节点发现
 ```python
 from unilabos.devices.workstation.post_process.post_process import OpcUaClient
 client = OpcUaClient(
    url="opc.tcp://192.168.1.100:4840",
    username="admin",              # 可选
    password="123456",             # 可选
    config_path="opcua_huairou.json",  # 自动加载工作流配置
    cache_timeout=5.0,             # 节点值缓存 5 秒
    subscription_interval=500,     # 每 500ms 接收推送
 )
 # 节点自动通过订阅保持最新值，读取直接查本地缓存
 value = client.get_node_value("grab_complete")
 ```
 ### JSON 配置方式
 ```json
 {
    "register_node_list_from_csv_path": {"path": "opcua_nodes_huairou.csv"},
    "create_flow": [
        {
            "name": "trigger_grab_action",
            "description": "触发反应罐及原料罐抓取动作",
            "parameters": ["reaction_tank_number", "raw_tank_number"],
            "action": [{
                "init_function": {
                    "func_name": "init_grab_params",
                    "write_nodes": ["reaction_tank_number", "raw_tank_number"]
                },
                "start_function": {
                    "func_name": "start_grab",
                    "write_nodes": {"grab_trigger": true},
                    "condition_nodes": ["grab_complete"],
                    "stop_condition_expression": "grab_complete == True",
                    "timeout_seconds": 999999.0
                },
                "stop_function": {
                    "func_name": "stop_grab",
                    "write_nodes": {"grab_trigger": false}
                }
            }]
        }
    ]
 }
 ```
 配置加载后，工作流自动注册为实例方法：
 ```python
 # 直接调用，传入参数，框架自动写入对应节点
 client.trigger_grab_action(reaction_tank_number=2, raw_tank_number=3)
 ```
 ---
 ## 新增设备快速上手
 ### 使用 Modbus 框架
 ```
 1. 从 PLC 工程师处拿到地址表，按格式填写 CSV（Name/DeviceType/Address/DataType）
 2. 继承 BaseClient，在 __init__ 中连接并注册节点
 3. 参考 coin_cell_assembly.py 编写三段式接管函数（手动→初始化→自动→启动）
 4. 或直接编写 JSON 配置，调用 execute_procedure_from_json()
 ```
 ### 使用 OPC UA 框架
 ```
 1. 确认设备支持 OPC UA，拿到服务器 URL（格式：opc.tcp://IP:PORT）
 2. 准备 CSV 节点定义文件（可选，也可让框架自动发现）
 3. 编写 JSON 配置：定义 parameters、init/start/stop 函数
 4. 实例化 OpcUaClient，传入 config_path，直接调用自动注册的工作流方法
 ```
 ---
 ## 常见问题
 **Q: `node {name} is not registered` 报错？**
 A: 节点名不在 CSV 或未调用 `register_node_list_from_csv_path()`。
 **Q: 程序卡死在 `while not status(): sleep(1)`？**
 A: PLC 未返回预期完成信号。检查：PLC 是否在正确运行模式、状态位地址是否正确、PLC 有无报警。
 **Q: OPC UA 连接成功但读不到节点？**
 A: 检查节点名称是否与服务器显示名一致（区分中英文）。可调用 `_find_nodes()` 打印服务器全部节点。
 **Q: 应该选 Modbus 还是 OPC UA？**
 A: 取决于设备支持的协议，由 PLC 工程师决定。OPC UA 功能更完整，条件允许优先选择。
 ---
 ## 下一步
 - {doc}`add_device` - 将驱动集成进 UniLab-OS 设备节点
 - {doc}`add_action` - 为设备添加可调度的动作指令
 - {doc}`add_yaml` - 编写设备注册表 YAML 文件
--- a/docs/index.md
+++ b/docs/index.md
@@ -17,9 +17,6 @@ developer_guide/http_api.md
 developer_guide/networking_overview.md
 developer_guide/add_device.md
 developer_guide/add_action.md
 developer_guide/add_old_device.md
 developer_guide/plc_framework.md
 developer_guide/add_protocol.md
 developer_guide/add_registry.md
 developer_guide/add_yaml.md
 developer_guide/action_includes.md
--- a/recipes/conda_build_config.yaml
+++ b/recipes/conda_build_config.yaml
@@ -1,5 +1,5 @@
 channel_sources:
-  - robostack,robostack-staging,conda-forge,defaults
+  - robostack,robostack-staging,conda-forge
 gazebo:
  - '11'
--- a/recipes/msgs/recipe.yaml
+++ b/recipes/msgs/recipe.yaml
@@ -1,6 +1,6 @@
 package:
  name: ros-humble-unilabos-msgs
-  version: 0.11.1
+  version: 0.11.2
 source:
  path: ../../unilabos_msgs
  target_directory: src
--- a/recipes/unilabos/recipe.yaml
+++ b/recipes/unilabos/recipe.yaml
@@ -1,6 +1,6 @@
 package:
  name: unilabos
-  version: "0.11.1"
+  version: "0.11.2"
 source:
  path: ../..
--- a/scripts/workflow.py
+++ b/scripts/workflow.py
@@ -2,6 +2,7 @@ import json
 import logging
 import traceback
 import uuid
 import xml.etree.ElementTree as ET
 from typing import Any, Dict, List
 import networkx as nx
@@ -24,15 +25,7 @@ class SimpleGraph:
    def add_edge(self, source, target, **attrs):
        """添加边"""
-        # edge = {"source": source, "target": target, **attrs}
+        edge = {"source": source, "target": target, **attrs}
        edge = {
            "source": source, "target": target,
            "source_node_uuid": source,
            "target_node_uuid": target,
            "source_handle_io": "source",
            "target_handle_io": "target",
            **attrs
        }
        self.edges.append(edge)
    def to_dict(self):
@@ -49,7 +42,6 @@ class SimpleGraph:
            "multigraph": False,
            "graph": {},
            "nodes": nodes_list,
            "edges": self.edges,
            "links": self.edges,
        }
@@ -66,8 +58,495 @@ def extract_json_from_markdown(text: str) -> str:
    return text
 def convert_to_type(val: str) -> Any:
    """将字符串值转换为适当的数据类型"""
    if val == "True":
        return True
    if val == "False":
        return False
    if val == "?":
        return None
    if val.endswith(" g"):
        return float(val.split(" ")[0])
    if val.endswith("mg"):
        return float(val.split("mg")[0])
    elif val.endswith("mmol"):
        return float(val.split("mmol")[0]) / 1000
    elif val.endswith("mol"):
        return float(val.split("mol")[0])
    elif val.endswith("ml"):
        return float(val.split("ml")[0])
    elif val.endswith("RPM"):
        return float(val.split("RPM")[0])
    elif val.endswith(" °C"):
        return float(val.split(" ")[0])
    elif val.endswith(" %"):
        return float(val.split(" ")[0])
    return val
 def refactor_data(data: List[Dict[str, Any]]) -> List[Dict[str, Any]]:
    """统一的数据重构函数，根据操作类型自动选择模板"""
    refactored_data = []
    # 定义操作映射，包含生物实验和有机化学的所有操作
    OPERATION_MAPPING = {
        # 生物实验操作
        "transfer_liquid": "SynBioFactory-liquid_handler.prcxi-transfer_liquid",
        "transfer": "SynBioFactory-liquid_handler.biomek-transfer",
        "incubation": "SynBioFactory-liquid_handler.biomek-incubation",
        "move_labware": "SynBioFactory-liquid_handler.biomek-move_labware",
        "oscillation": "SynBioFactory-liquid_handler.biomek-oscillation",
        # 有机化学操作
        "HeatChillToTemp": "SynBioFactory-workstation-HeatChillProtocol",
        "StopHeatChill": "SynBioFactory-workstation-HeatChillStopProtocol",
        "StartHeatChill": "SynBioFactory-workstation-HeatChillStartProtocol",
        "HeatChill": "SynBioFactory-workstation-HeatChillProtocol",
        "Dissolve": "SynBioFactory-workstation-DissolveProtocol",
        "Transfer": "SynBioFactory-workstation-TransferProtocol",
        "Evaporate": "SynBioFactory-workstation-EvaporateProtocol",
        "Recrystallize": "SynBioFactory-workstation-RecrystallizeProtocol",
        "Filter": "SynBioFactory-workstation-FilterProtocol",
        "Dry": "SynBioFactory-workstation-DryProtocol",
        "Add": "SynBioFactory-workstation-AddProtocol",
    }
    UNSUPPORTED_OPERATIONS = ["Purge", "Wait", "Stir", "ResetHandling"]
    for step in data:
        operation = step.get("action")
        if not operation or operation in UNSUPPORTED_OPERATIONS:
            continue
        # 处理重复操作
        if operation == "Repeat":
            times = step.get("times", step.get("parameters", {}).get("times", 1))
            sub_steps = step.get("steps", step.get("parameters", {}).get("steps", []))
            for i in range(int(times)):
                sub_data = refactor_data(sub_steps)
                refactored_data.extend(sub_data)
            continue
        # 获取模板名称
        template = OPERATION_MAPPING.get(operation)
        if not template:
            # 自动推断模板类型
            if operation.lower() in ["transfer", "incubation", "move_labware", "oscillation"]:
                template = f"SynBioFactory-liquid_handler.biomek-{operation}"
            else:
                template = f"SynBioFactory-workstation-{operation}Protocol"
        # 创建步骤数据
        step_data = {
            "template": template,
            "description": step.get("description", step.get("purpose", f"{operation} operation")),
            "lab_node_type": "Device",
            "parameters": step.get("parameters", step.get("action_args", {})),
        }
        refactored_data.append(step_data)
    return refactored_data
 def build_protocol_graph(
    labware_info: List[Dict[str, Any]], protocol_steps: List[Dict[str, Any]], workstation_name: str
 ) -> SimpleGraph:
    """统一的协议图构建函数，根据设备类型自动选择构建逻辑"""
    G = SimpleGraph()
    resource_last_writer = {}
    LAB_NAME = "SynBioFactory"
    protocol_steps = refactor_data(protocol_steps)
    # 检查协议步骤中的模板来判断协议类型
    has_biomek_template = any(
        ("biomek" in step.get("template", "")) or ("prcxi" in step.get("template", ""))
        for step in protocol_steps
    )
    if has_biomek_template:
        # 生物实验协议图构建
        for labware_id, labware in labware_info.items():
            node_id = str(uuid.uuid4())
            labware_attrs = labware.copy()
            labware_id = labware_attrs.pop("id", labware_attrs.get("name", f"labware_{uuid.uuid4()}"))
            labware_attrs["description"] = labware_id
            labware_attrs["lab_node_type"] = (
                "Reagent" if "Plate" in str(labware_id) else "Labware" if "Rack" in str(labware_id) else "Sample"
            )
            labware_attrs["device_id"] = workstation_name
            G.add_node(node_id, template=f"{LAB_NAME}-host_node-create_resource", **labware_attrs)
            resource_last_writer[labware_id] = f"{node_id}:labware"
        # 处理协议步骤
        prev_node = None
        for i, step in enumerate(protocol_steps):
            node_id = str(uuid.uuid4())
            G.add_node(node_id, **step)
            # 添加控制流边
            if prev_node is not None:
                G.add_edge(prev_node, node_id, source_port="ready", target_port="ready")
            prev_node = node_id
            # 处理物料流
            params = step.get("parameters", {})
            if "sources" in params and params["sources"] in resource_last_writer:
                source_node, source_port = resource_last_writer[params["sources"]].split(":")
                G.add_edge(source_node, node_id, source_port=source_port, target_port="labware")
            if "targets" in params:
                resource_last_writer[params["targets"]] = f"{node_id}:labware"
        # 添加协议结束节点
        end_id = str(uuid.uuid4())
        G.add_node(end_id, template=f"{LAB_NAME}-liquid_handler.biomek-run_protocol")
        if prev_node is not None:
            G.add_edge(prev_node, end_id, source_port="ready", target_port="ready")
    else:
        # 有机化学协议图构建
        WORKSTATION_ID = workstation_name
        # 为所有labware创建资源节点
        for item_id, item in labware_info.items():
            # item_id = item.get("id") or item.get("name", f"item_{uuid.uuid4()}")
            node_id = str(uuid.uuid4())
            # 判断节点类型
            if item.get("type") == "hardware" or "reactor" in str(item_id).lower():
                if "reactor" not in str(item_id).lower():
                    continue
                lab_node_type = "Sample"
                description = f"Prepare Reactor: {item_id}"
                liquid_type = []
                liquid_volume = []
            else:
                lab_node_type = "Reagent"
                description = f"Add Reagent to Flask: {item_id}"
                liquid_type = [item_id]
                liquid_volume = [1e5]
            G.add_node(
                node_id,
                template=f"{LAB_NAME}-host_node-create_resource",
                description=description,
                lab_node_type=lab_node_type,
                res_id=item_id,
                device_id=WORKSTATION_ID,
                class_name="container",
                parent=WORKSTATION_ID,
                bind_locations={"x": 0.0, "y": 0.0, "z": 0.0},
                liquid_input_slot=[-1],
                liquid_type=liquid_type,
                liquid_volume=liquid_volume,
                slot_on_deck="",
                role=item.get("role", ""),
            )
            resource_last_writer[item_id] = f"{node_id}:labware"
        last_control_node_id = None
        # 处理协议步骤
        for step in protocol_steps:
            node_id = str(uuid.uuid4())
            G.add_node(node_id, **step)
            # 控制流
            if last_control_node_id is not None:
                G.add_edge(last_control_node_id, node_id, source_port="ready", target_port="ready")
            last_control_node_id = node_id
            # 物料流
            params = step.get("parameters", {})
            input_resources = {
                "Vessel": params.get("vessel"),
                "ToVessel": params.get("to_vessel"),
                "FromVessel": params.get("from_vessel"),
                "reagent": params.get("reagent"),
                "solvent": params.get("solvent"),
                "compound": params.get("compound"),
                "sources": params.get("sources"),
                "targets": params.get("targets"),
            }
            for target_port, resource_name in input_resources.items():
                if resource_name and resource_name in resource_last_writer:
                    source_node, source_port = resource_last_writer[resource_name].split(":")
                    G.add_edge(source_node, node_id, source_port=source_port, target_port=target_port)
            output_resources = {
                "VesselOut": params.get("vessel"),
                "FromVesselOut": params.get("from_vessel"),
                "ToVesselOut": params.get("to_vessel"),
                "FiltrateOut": params.get("filtrate_vessel"),
                "reagent": params.get("reagent"),
                "solvent": params.get("solvent"),
                "compound": params.get("compound"),
                "sources_out": params.get("sources"),
                "targets_out": params.get("targets"),
            }
            for source_port, resource_name in output_resources.items():
                if resource_name:
                    resource_last_writer[resource_name] = f"{node_id}:{source_port}"
    return G
 def draw_protocol_graph(protocol_graph: SimpleGraph, output_path: str):
    """
    (辅助功能) 使用 networkx 和 matplotlib 绘制协议工作流图，用于可视化。
    """
    if not protocol_graph:
        print("Cannot draw graph: Graph object is empty.")
        return
    G = nx.DiGraph()
    for node_id, attrs in protocol_graph.nodes.items():
        label = attrs.get("description", attrs.get("template", node_id[:8]))
        G.add_node(node_id, label=label, **attrs)
    for edge in protocol_graph.edges:
        G.add_edge(edge["source"], edge["target"])
    plt.figure(figsize=(20, 15))
    try:
        pos = nx.nx_agraph.graphviz_layout(G, prog="dot")
    except Exception:
        pos = nx.shell_layout(G)  # Fallback layout
    node_labels = {node: data["label"] for node, data in G.nodes(data=True)}
    nx.draw(
        G,
        pos,
        with_labels=False,
        node_size=2500,
        node_color="skyblue",
        node_shape="o",
        edge_color="gray",
        width=1.5,
        arrowsize=15,
    )
    nx.draw_networkx_labels(G, pos, labels=node_labels, font_size=8, font_weight="bold")
    plt.title("Chemical Protocol Workflow Graph", size=15)
    plt.savefig(output_path, dpi=300, bbox_inches="tight")
    plt.close()
    print(f"  - Visualization saved to '{output_path}'")
 from networkx.drawing.nx_agraph import to_agraph
 import re
 COMPASS = {"n","e","s","w","ne","nw","se","sw","c"}
 def _is_compass(port: str) -> bool:
    return isinstance(port, str) and port.lower() in COMPASS
 def draw_protocol_graph_with_ports(protocol_graph, output_path: str, rankdir: str = "LR"):
    """
    使用 Graphviz 端口语法绘制协议工作流图。
    - 若边上的 source_port/target_port 是 compass（n/e/s/w/...），直接用 compass。
    - 否则自动为节点创建 record 形状并定义命名端口 <portname>。
    最终由 PyGraphviz 渲染并输出到 output_path（后缀决定格式，如 .png/.svg/.pdf）。
    """
    if not protocol_graph:
        print("Cannot draw graph: Graph object is empty.")
        return
    # 1) 先用 networkx 搭建有向图，保留端口属性
    G = nx.DiGraph()
    for node_id, attrs in protocol_graph.nodes.items():
        label = attrs.get("description", attrs.get("template", node_id[:8]))
        # 保留一个干净的“中心标签”，用于放在 record 的中间槽
        G.add_node(node_id, _core_label=str(label), **{k:v for k,v in attrs.items() if k not in ("label",)})
    edges_data = []
    in_ports_by_node  = {}  # 收集命名输入端口
    out_ports_by_node = {}  # 收集命名输出端口
    for edge in protocol_graph.edges:
        u = edge["source"]
        v = edge["target"]
        sp = edge.get("source_port")
        tp = edge.get("target_port")
        # 记录到图里（保留原始端口信息）
        G.add_edge(u, v, source_port=sp, target_port=tp)
        edges_data.append((u, v, sp, tp))
        # 如果不是 compass，就按“命名端口”先归类，等会儿给节点造 record
        if sp and not _is_compass(sp):
            out_ports_by_node.setdefault(u, set()).add(str(sp))
        if tp and not _is_compass(tp):
            in_ports_by_node.setdefault(v, set()).add(str(tp))
    # 2) 转为 AGraph，使用 Graphviz 渲染
    A = to_agraph(G)
    A.graph_attr.update(rankdir=rankdir, splines="true", concentrate="false", fontsize="10")
    A.node_attr.update(shape="box", style="rounded,filled", fillcolor="lightyellow", color="#999999", fontname="Helvetica")
    A.edge_attr.update(arrowsize="0.8", color="#666666")
    # 3) 为需要命名端口的节点设置 record 形状与 label
    #    左列 = 输入端口；中间 = 核心标签；右列 = 输出端口
    for n in A.nodes():
        node = A.get_node(n)
        core = G.nodes[n].get("_core_label", n)
        in_ports  = sorted(in_ports_by_node.get(n, []))
        out_ports = sorted(out_ports_by_node.get(n, []))
        # 如果该节点涉及命名端口，则用 record；否则保留原 box
        if in_ports or out_ports:
            def port_fields(ports):
                if not ports:
                    return " "  # 必须留一个空槽占位
                # 每个端口一个小格子，<p> name
                return "|".join(f"<{re.sub(r'[^A-Za-z0-9_:.|-]', '_', p)}> {p}" for p in ports)
            left  = port_fields(in_ports)
            right = port_fields(out_ports)
            # 三栏：左(入) | 中(节点名) | 右(出)
            record_label = f"{{ {left} | {core} | {right} }}"
            node.attr.update(shape="record", label=record_label)
        else:
            # 没有命名端口：普通盒子，显示核心标签
            node.attr.update(label=str(core))
    # 4) 给边设置 headport / tailport
    #    - 若端口为 compass：直接用 compass（e.g., headport="e"）
    #    - 若端口为命名端口：使用在 record 中定义的 <port> 名（同名即可）
    for (u, v, sp, tp) in edges_data:
        e = A.get_edge(u, v)
        # Graphviz 属性：tail 是源，head 是目标
        if sp:
            if _is_compass(sp):
                e.attr["tailport"] = sp.lower()
            else:
                # 与 record label 中 <port> 名一致；特殊字符已在 label 中做了清洗
                e.attr["tailport"] = re.sub(r'[^A-Za-z0-9_:.|-]', '_', str(sp))
        if tp:
            if _is_compass(tp):
                e.attr["headport"] = tp.lower()
            else:
                e.attr["headport"] = re.sub(r'[^A-Za-z0-9_:.|-]', '_', str(tp))
        # 可选：若想让边更贴边缘，可设置 constraint/spline 等
        # e.attr["arrowhead"] = "vee"
    # 5) 输出
    A.draw(output_path, prog="dot")
    print(f"  - Port-aware workflow rendered to '{output_path}'")
 def flatten_xdl_procedure(procedure_elem: ET.Element) -> List[ET.Element]:
    """展平嵌套的XDL程序结构"""
    flattened_operations = []
    TEMP_UNSUPPORTED_PROTOCOL = ["Purge", "Wait", "Stir", "ResetHandling"]
    def extract_operations(element: ET.Element):
        if element.tag not in ["Prep", "Reaction", "Workup", "Purification", "Procedure"]:
            if element.tag not in TEMP_UNSUPPORTED_PROTOCOL:
                flattened_operations.append(element)
        for child in element:
            extract_operations(child)
    for child in procedure_elem:
        extract_operations(child)
    return flattened_operations
 def parse_xdl_content(xdl_content: str) -> tuple:
    """解析XDL内容"""
    try:
        xdl_content_cleaned = "".join(c for c in xdl_content if c.isprintable())
        root = ET.fromstring(xdl_content_cleaned)
        synthesis_elem = root.find("Synthesis")
        if synthesis_elem is None:
            return None, None, None
        # 解析硬件组件
        hardware_elem = synthesis_elem.find("Hardware")
        hardware = []
        if hardware_elem is not None:
            hardware = [{"id": c.get("id"), "type": c.get("type")} for c in hardware_elem.findall("Component")]
        # 解析试剂
        reagents_elem = synthesis_elem.find("Reagents")
        reagents = []
        if reagents_elem is not None:
            reagents = [{"name": r.get("name"), "role": r.get("role", "")} for r in reagents_elem.findall("Reagent")]
        # 解析程序
        procedure_elem = synthesis_elem.find("Procedure")
        if procedure_elem is None:
            return None, None, None
        flattened_operations = flatten_xdl_procedure(procedure_elem)
        return hardware, reagents, flattened_operations
    except ET.ParseError as e:
        raise ValueError(f"Invalid XDL format: {e}")
 def convert_xdl_to_dict(xdl_content: str) -> Dict[str, Any]:
    """
    将XDL XML格式转换为标准的字典格式
    Args:
        xdl_content: XDL XML内容
    Returns:
        转换结果，包含步骤和器材信息
    """
    try:
        hardware, reagents, flattened_operations = parse_xdl_content(xdl_content)
        if hardware is None:
            return {"error": "Failed to parse XDL content", "success": False}
        # 将XDL元素转换为字典格式
        steps_data = []
        for elem in flattened_operations:
            # 转换参数类型
            parameters = {}
            for key, val in elem.attrib.items():
                converted_val = convert_to_type(val)
                if converted_val is not None:
                    parameters[key] = converted_val
            step_dict = {
                "operation": elem.tag,
                "parameters": parameters,
                "description": elem.get("purpose", f"Operation: {elem.tag}"),
            }
            steps_data.append(step_dict)
        # 合并硬件和试剂为统一的labware_info格式
        labware_data = []
        labware_data.extend({"id": hw["id"], "type": "hardware", **hw} for hw in hardware)
        labware_data.extend({"name": reagent["name"], "type": "reagent", **reagent} for reagent in reagents)
        return {
            "success": True,
            "steps": steps_data,
            "labware": labware_data,
            "message": f"Successfully converted XDL to dict format. Found {len(steps_data)} steps and {len(labware_data)} labware items.",
        }
    except Exception as e:
        error_msg = f"XDL conversion failed: {str(e)}"
        logger.error(error_msg)
        return {"error": error_msg, "success": False}
 def create_workflow(
--- a/setup.py
+++ b/setup.py
@@ -4,7 +4,7 @@ package_name = 'unilabos'
 setup(
    name=package_name,
-    version='0.11.1',
+    version='0.11.2',
    packages=find_packages(),
    include_package_data=True,
    install_requires=['setuptools'],
--- a/unilabos/init.py
+++ b/unilabos/init.py
@@ -1 +1 @@
-__version__ = "0.11.1"
+__version__ = "0.11.2"
--- a/unilabos/app/utils.py
+++ b/unilabos/app/utils.py
@@ -10,29 +10,170 @@ import shutil
 import sys
 _PATCH_MARKER = "# UniLabOS DLL Patch"
 _PATCH_END_MARKER = "# End UniLabOS DLL Patch"
 # 75 = EX_TEMPFAIL: 临时失败、重试即可，避免与业务退出码冲突
 _RESTART_EXIT_CODE = 75
 def _build_dll_patch(lib_bin: str, preload_pyd: str = "") -> str:
    """生成一段加在目标文件顶部的 DLL 加载补丁源码。
    - 始终把 ``lib_bin`` 加入 DLL 搜索路径，并把 handle 挂在模块属性上，
      防止 GC 清掉搜索路径（``os.add_dll_directory`` 的句柄被回收时
      目录会被移除）。
    - 可选地用 ``ctypes.CDLL`` 预加载一个 .pyd，把它的依赖 DLL 提前装入
      进程内存，作为 ``rclpy._rclpy_pybind11`` 这类首次加载点的兜底。
    """
    # 用 repr() 序列化路径：Python 解析 repr 的结果会还原成原始字符串，
    # 不需要也不能再叠加 raw-string 前缀（叠了反而会让 \\ 变成两个反斜杠）。
    lines = [
        _PATCH_MARKER,
        "import os as _ulab_os",
        f"_ulab_p = {lib_bin!r}",
        'if hasattr(_ulab_os, "add_dll_directory") and _ulab_os.path.isdir(_ulab_p):',
        "    try: _UNILAB_DLL_HANDLE = _ulab_os.add_dll_directory(_ulab_p)",
        "    except Exception: _UNILAB_DLL_HANDLE = None",
    ]
    if preload_pyd:
        lines.extend(
            [
                "import ctypes as _ulab_ctypes",
                f"try: _ulab_ctypes.CDLL({preload_pyd!r})",
                "except Exception: pass",
            ]
        )
    lines.append(_PATCH_END_MARKER)
    return "\n".join(lines) + "\n"
 def _apply_dll_patch(file_path: str, lib_bin: str, preload_pyd: str = "") -> bool:
    """把 DLL 补丁前置到 ``file_path``。文件不存在或已打过补丁则返回 False。"""
    if not os.path.isfile(file_path):
        return False
    with open(file_path, "r", encoding="utf-8") as f:
        content = f.read()
    if _PATCH_MARKER in content:
        return False
    shutil.copy2(file_path, file_path + ".bak")
    with open(file_path, "w", encoding="utf-8") as f:
        f.write(_build_dll_patch(lib_bin, preload_pyd) + content)
    return True
 def _print_restart_banner(patched_files):
    """打印重启提示并以 EX_TEMPFAIL 退出。
    - 不使用 ANSI 颜色码：Windows 旧版 cmd / PowerShell 5 默认不开 VT 处理，
      会把 ``\\033[1;33m`` 当做字面字符显示，反而让用户看不到正文。
    - 同时写入 stderr 与 stdout：某些上层 launcher / supervisor 只重定向
      其中一路，写两遍能保证用户至少看到一份。
    - 写入前防御性把流切到 UTF-8 with replace：``main.py`` 里已经做过一次，
      但本模块也可能被绕过 ``main.py`` 的代码路径直接 import；reconfigure
      失败也只是退回 errors=replace，不影响整体流程。
    """
    if sys.platform == "win32":
        for _stream in (sys.stdout, sys.stderr):
            try:
                _stream.reconfigure(encoding="utf-8", errors="replace")  # type: ignore[attr-defined]
            except (AttributeError, OSError):
                pass
    bar = "#" * 78
    files_lines = [f"[UniLabOS]   - {p}" for p in patched_files]
    body = "\n".join(
        [
            "",
            bar,
            bar,
            "##",
            "##  [UniLabOS] Windows + conda 下检测到 DLL 加载失败，已自动打补丁。",
            "##  [UniLabOS] DLL load failure detected on Windows + conda;",
            "##  [UniLabOS] the following files have been auto-patched:",
            "##",
            *[f"##  {line}" for line in files_lines],
            "##",
            "##  [UniLabOS] 当前进程的 rclpy 状态已损坏，补丁需要在新进程才生效。",
            "##  [UniLabOS] The current process is unusable; the patch only takes",
            "##  [UniLabOS] effect on a fresh process.",
            "##",
            "##  >>> 请重新运行刚才的命令 / Please re-run the same command. <<<",
            "##",
            bar,
            bar,
            "",
        ]
    )
    for stream in (sys.stderr, sys.stdout):
        try:
            stream.write(body)
            stream.flush()
        except Exception:
            try:
                print(body, file=stream)
            except Exception:
                pass
    sys.exit(_RESTART_EXIT_CODE)
 def patch_rclpy_dll_windows():
-    """在 Windows + conda 环境下为 rclpy 打 DLL 加载补丁"""
+    """在 Windows + conda 环境下修复 rclpy / rosidl typesupport 的 DLL 加载。
    背景：conda 安装的 ros 系列包，其原生扩展依赖 ``$CONDA_PREFIX/Library/bin``
    下的 DLL；只有 conda 环境被正确激活、且 PATH 中含 ``Library/bin`` 时，
    ``os.add_dll_directory`` 才能找到它们。当从快捷方式 / IDE / 子进程 /
    没激活的 shell 启动 ``unilab`` 时，会出现 ``DLL load failed``。
    本函数会:
        1) 修补 ``rclpy/impl/implementation_singleton.py`` —— rclpy 自身的 C 扩展入口；
        2) 修补 ``rpyutils/add_dll_directories.py`` —— 所有 ``*_s__rosidl_typesupport_c.pyd``
           （``geometry_msgs`` / ``std_msgs`` / ``sensor_msgs`` 等）的统一加载入口。
    打完补丁后**必须重启进程**才能生效（当前进程的 rclpy 已经发生过
    ``ImportError``，子模块仍处于损坏状态）。因此函数会主动退出，并在
    stdout/stderr 同时打印明显的重启提示，避免用户被后续报错淹没。
    """
    if sys.platform != "win32" or not os.environ.get("CONDA_PREFIX"):
        return
    try:
-        import rclpy
+        import rclpy  # noqa: F401
        return
    except ImportError as e:
        if not str(e).startswith("DLL load failed"):
            return
    cp = os.environ["CONDA_PREFIX"]
-    impl = os.path.join(cp, "Lib", "site-packages", "rclpy", "impl", "implementation_singleton.py")
+    lib_bin = os.path.join(cp, "Library", "bin")
-    pyd = glob.glob(os.path.join(cp, "Lib", "site-packages", "rclpy", "_rclpy_pybind11*.pyd"))
+    site_packages = os.path.join(cp, "Lib", "site-packages")
-    if not os.path.exists(impl) or not pyd:
+    if not os.path.isdir(lib_bin):
        return
-    with open(impl, "r", encoding="utf-8") as f:
+
-        content = f.read()
+    patched = []
-    lib_bin = os.path.join(cp, "Library", "bin").replace("\\", "/")
+
-    patch = f'# UniLabOS DLL Patch\nimport os,ctypes\nos.add_dll_directory("{lib_bin}") if hasattr(os,"add_dll_directory") else None\ntry: ctypes.CDLL("{pyd[0].replace(chr(92),"/")}")\nexcept: pass\n# End Patch\n'
+    # 1) rclpy 自身的入口
-    shutil.copy2(impl, impl + ".bak")
+    rclpy_impl = os.path.join(site_packages, "rclpy", "impl", "implementation_singleton.py")
-    with open(impl, "w", encoding="utf-8") as f:
+    rclpy_pyd_matches = glob.glob(os.path.join(site_packages, "rclpy", "_rclpy_pybind11*.pyd"))
-        f.write(patch + content)
+    rclpy_pyd = rclpy_pyd_matches[0] if rclpy_pyd_matches else ""
    if rclpy_pyd and _apply_dll_patch(rclpy_impl, lib_bin, preload_pyd=rclpy_pyd):
        patched.append(rclpy_impl)
    # 2) rpyutils —— 所有 rosidl typesupport pyd 的加载点；放在 rclpy 之后
    #    例：geometry_msgs/geometry_msgs_s__rosidl_typesupport_c.pyd
    rpyutils_dll = os.path.join(site_packages, "rpyutils", "add_dll_directories.py")
    if _apply_dll_patch(rpyutils_dll, lib_bin):
        patched.append(rpyutils_dll)
    if not patched:
        # 已经打过补丁但 rclpy 仍然加载失败：原因不是缺 DLL 搜索路径，
        # 不要再次打补丁污染文件，让上层看到真实的 ImportError。
        return
    _print_restart_banner(patched)
 patch_rclpy_dll_windows()
--- a/unilabos/devices/liquid_handling/laiyu/backend/init.py
+++ b/unilabos/devices/liquid_handling/laiyu/backend/init.py
@@ -1,7 +1,9 @@
 """
 LaiYu液体处理设备后端模块
 提供设备后端接口和实现
 """
-from .laiyu_v_backend import UniLiquidHandlerLaiyuBackend
+from .laiyu_backend import LaiYuLiquidBackend, create_laiyu_backend
-__all__ = ['UniLiquidHandlerLaiyuBackend']
+__all__ = ['LaiYuLiquidBackend', 'create_laiyu_backend']
--- a/unilabos/devices/liquid_handling/laiyu/backend/laiyu_backend.py
+++ b/unilabos/devices/liquid_handling/laiyu/backend/laiyu_backend.py
@@ -0,0 +1,334 @@
 """
 LaiYu液体处理设备后端实现
 提供设备的后端接口和控制逻辑
 """
 import logging
 from typing import Dict, Any, Optional, List
 from abc import ABC, abstractmethod
 # 尝试导入PyLabRobot后端
 try:
    from pylabrobot.liquid_handling.backends import LiquidHandlerBackend
    PYLABROBOT_AVAILABLE = True
 except ImportError:
    PYLABROBOT_AVAILABLE = False
    # 创建模拟后端基类
    class LiquidHandlerBackend:
        def __init__(self, name: str):
            self.name = name
            self.is_connected = False
        def connect(self):
            """连接设备"""
            pass
        def disconnect(self):
            """断开连接"""
            pass
 class LaiYuLiquidBackend(LiquidHandlerBackend):
    """LaiYu液体处理设备后端"""
    def __init__(self, name: str = "LaiYu_Liquid_Backend"):
        """
        初始化LaiYu液体处理设备后端
        Args:
            name: 后端名称
        """
        if PYLABROBOT_AVAILABLE:
            # PyLabRobot 的 LiquidHandlerBackend 不接受参数
            super().__init__()
        else:
            # 模拟版本接受 name 参数
            super().__init__(name)
        self.name = name
        self.logger = logging.getLogger(__name__)
        self.is_connected = False
        self.device_info = {
            "name": "LaiYu液体处理设备",
            "version": "1.0.0",
            "manufacturer": "LaiYu",
            "model": "LaiYu_Liquid_Handler"
        }
    def connect(self) -> bool:
        """
        连接到LaiYu液体处理设备
        Returns:
            bool: 连接是否成功
        """
        try:
            self.logger.info("正在连接到LaiYu液体处理设备...")
            # 这里应该实现实际的设备连接逻辑
            # 目前返回模拟连接成功
            self.is_connected = True
            self.logger.info("成功连接到LaiYu液体处理设备")
            return True
        except Exception as e:
            self.logger.error(f"连接LaiYu液体处理设备失败: {e}")
            self.is_connected = False
            return False
    def disconnect(self) -> bool:
        """
        断开与LaiYu液体处理设备的连接
        Returns:
            bool: 断开连接是否成功
        """
        try:
            self.logger.info("正在断开与LaiYu液体处理设备的连接...")
            # 这里应该实现实际的设备断开连接逻辑
            self.is_connected = False
            self.logger.info("成功断开与LaiYu液体处理设备的连接")
            return True
        except Exception as e:
            self.logger.error(f"断开LaiYu液体处理设备连接失败: {e}")
            return False
    def is_device_connected(self) -> bool:
        """
        检查设备是否已连接
        Returns:
            bool: 设备是否已连接
        """
        return self.is_connected
    def get_device_info(self) -> Dict[str, Any]:
        """
        获取设备信息
        Returns:
            Dict[str, Any]: 设备信息字典
        """
        return self.device_info.copy()
    def home_device(self) -> bool:
        """
        设备归零操作
        Returns:
            bool: 归零是否成功
        """
        if not self.is_connected:
            self.logger.error("设备未连接，无法执行归零操作")
            return False
        try:
            self.logger.info("正在执行设备归零操作...")
            # 这里应该实现实际的设备归零逻辑
            self.logger.info("设备归零操作完成")
            return True
        except Exception as e:
            self.logger.error(f"设备归零操作失败: {e}")
            return False
    def aspirate(self, volume: float, location: Dict[str, Any]) -> bool:
        """
        吸液操作
        Args:
            volume: 吸液体积 (微升)
            location: 吸液位置信息
        Returns:
            bool: 吸液是否成功
        """
        if not self.is_connected:
            self.logger.error("设备未连接，无法执行吸液操作")
            return False
        try:
            self.logger.info(f"正在执行吸液操作: 体积={volume}μL, 位置={location}")
            # 这里应该实现实际的吸液逻辑
            self.logger.info("吸液操作完成")
            return True
        except Exception as e:
            self.logger.error(f"吸液操作失败: {e}")
            return False
    def dispense(self, volume: float, location: Dict[str, Any]) -> bool:
        """
        排液操作
        Args:
            volume: 排液体积 (微升)
            location: 排液位置信息
        Returns:
            bool: 排液是否成功
        """
        if not self.is_connected:
            self.logger.error("设备未连接，无法执行排液操作")
            return False
        try:
            self.logger.info(f"正在执行排液操作: 体积={volume}μL, 位置={location}")
            # 这里应该实现实际的排液逻辑
            self.logger.info("排液操作完成")
            return True
        except Exception as e:
            self.logger.error(f"排液操作失败: {e}")
            return False
    def pick_up_tip(self, location: Dict[str, Any]) -> bool:
        """
        取枪头操作
        Args:
            location: 枪头位置信息
        Returns:
            bool: 取枪头是否成功
        """
        if not self.is_connected:
            self.logger.error("设备未连接，无法执行取枪头操作")
            return False
        try:
            self.logger.info(f"正在执行取枪头操作: 位置={location}")
            # 这里应该实现实际的取枪头逻辑
            self.logger.info("取枪头操作完成")
            return True
        except Exception as e:
            self.logger.error(f"取枪头操作失败: {e}")
            return False
    def drop_tip(self, location: Dict[str, Any]) -> bool:
        """
        丢弃枪头操作
        Args:
            location: 丢弃位置信息
        Returns:
            bool: 丢弃枪头是否成功
        """
        if not self.is_connected:
            self.logger.error("设备未连接，无法执行丢弃枪头操作")
            return False
        try:
            self.logger.info(f"正在执行丢弃枪头操作: 位置={location}")
            # 这里应该实现实际的丢弃枪头逻辑
            self.logger.info("丢弃枪头操作完成")
            return True
        except Exception as e:
            self.logger.error(f"丢弃枪头操作失败: {e}")
            return False
    def move_to(self, location: Dict[str, Any]) -> bool:
        """
        移动到指定位置
        Args:
            location: 目标位置信息
        Returns:
            bool: 移动是否成功
        """
        if not self.is_connected:
            self.logger.error("设备未连接，无法执行移动操作")
            return False
        try:
            self.logger.info(f"正在移动到位置: {location}")
            # 这里应该实现实际的移动逻辑
            self.logger.info("移动操作完成")
            return True
        except Exception as e:
            self.logger.error(f"移动操作失败: {e}")
            return False
    def get_status(self) -> Dict[str, Any]:
        """
        获取设备状态
        Returns:
            Dict[str, Any]: 设备状态信息
        """
        return {
            "connected": self.is_connected,
            "device_info": self.device_info,
            "status": "ready" if self.is_connected else "disconnected"
        }
    # PyLabRobot 抽象方法实现
    def stop(self):
        """停止所有操作"""
        self.logger.info("停止所有操作")
        pass
    @property
    def num_channels(self) -> int:
        """返回通道数量"""
        return 1  # 单通道移液器
    def can_pick_up_tip(self, tip_rack, tip_position) -> bool:
        """检查是否可以拾取吸头"""
        return True  # 简化实现，总是返回True
    def pick_up_tips(self, tip_rack, tip_positions):
        """拾取多个吸头"""
        self.logger.info(f"拾取吸头: {tip_positions}")
        pass
    def drop_tips(self, tip_rack, tip_positions):
        """丢弃多个吸头"""
        self.logger.info(f"丢弃吸头: {tip_positions}")
        pass
    def pick_up_tips96(self, tip_rack):
        """拾取96个吸头"""
        self.logger.info("拾取96个吸头")
        pass
    def drop_tips96(self, tip_rack):
        """丢弃96个吸头"""
        self.logger.info("丢弃96个吸头")
        pass
    def aspirate96(self, volume, plate, well_positions):
        """96通道吸液"""
        self.logger.info(f"96通道吸液: 体积={volume}")
        pass
    def dispense96(self, volume, plate, well_positions):
        """96通道排液"""
        self.logger.info(f"96通道排液: 体积={volume}")
        pass
    def pick_up_resource(self, resource, location):
        """拾取资源"""
        self.logger.info(f"拾取资源: {resource}")
        pass
    def drop_resource(self, resource, location):
        """放置资源"""
        self.logger.info(f"放置资源: {resource}")
        pass
    def move_picked_up_resource(self, resource, location):
        """移动已拾取的资源"""
        self.logger.info(f"移动资源: {resource} 到 {location}")
        pass
 def create_laiyu_backend(name: str = "LaiYu_Liquid_Backend") -> LaiYuLiquidBackend:
    """
    创建LaiYu液体处理设备后端实例
    Args:
        name: 后端名称
    Returns:
        LaiYuLiquidBackend: 后端实例
    """
    return LaiYuLiquidBackend(name)
--- a/unilabos/devices/liquid_handling/laiyu/backend/laiyu_v_backend.py
+++ b/unilabos/devices/liquid_handling/laiyu/backend/laiyu_v_backend.py
@@ -1,307 +1,385 @@
-"""LaiYu PLR 后端 — 对齐路径 B 硬件交互模式
+      
-
+import json
 硬件初始化顺序与 laiyu_liquid_station.py (路径 B) 一致:
  1. XYZController(auto_connect=True) — 先开串口
  2. PipetteController.connect_shared() — 共享 XYZ 的串口 / 锁
  3. home_all_axes() + pipette.initialize()
 """
 import logging
 from typing import List, Optional, Union
-from pylabrobot.liquid_handling.backends.backend import LiquidHandlerBackend
+from pylabrobot.liquid_handling.backends.backend import (
  LiquidHandlerBackend,
 )
 from pylabrobot.liquid_handling.standard import (
-    Drop,
+  Drop,
-    DropTipRack,
+  DropTipRack,
-    MultiHeadAspirationContainer,
+  MultiHeadAspirationContainer,
-    MultiHeadAspirationPlate,
+  MultiHeadAspirationPlate,
-    MultiHeadDispenseContainer,
+  MultiHeadDispenseContainer,
-    MultiHeadDispensePlate,
+  MultiHeadDispensePlate,
-    Pickup,
+  Pickup,
-    PickupTipRack,
+  PickupTipRack,
-    ResourceDrop,
+  ResourceDrop,
-    ResourceMove,
+  ResourceMove,
-    ResourcePickup,
+  ResourcePickup,
-    SingleChannelAspiration,
+  SingleChannelAspiration,
-    SingleChannelDispense,
+  SingleChannelDispense,
 )
 from pylabrobot.resources import Resource, Tip
-from unilabos.devices.liquid_handling.laiyu.controllers.xyz_controller import XYZController
+import rclpy
-from unilabos.devices.liquid_handling.laiyu.controllers.pipette_controller import (
+from rclpy.node import Node
-    PipetteController,
+from sensor_msgs.msg import JointState
-    TipStatus,
+import time
-)
+from rclpy.action import ActionClient
 from unilabos_msgs.action import SendCmd
 import re
-logger = logging.getLogger(__name__)
+from unilabos.devices.ros_dev.liquid_handler_joint_publisher import JointStatePublisher
 from unilabos.devices.liquid_handling.laiyu.controllers.pipette_controller import PipetteController, TipStatus
 class UniLiquidHandlerLaiyuBackend(LiquidHandlerBackend):
-    """LaiYu 硬件后端 — PLR Backend 接口实现"""
+  """Chatter box backend for device-free testing. Prints out all operations."""
-    def __init__(
+  _pip_length = 5
-        self,
+  _vol_length = 8
-        num_channels: int = 1,
+  _resource_length = 20
-        tip_length: float = 0,
+  _offset_length = 16
-        total_height: float = 310,
+  _flow_rate_length = 10
-        port: str = "/dev/ttyUSB0",
+  _blowout_length = 10
-        baudrate: int = 115200,
+  _lld_z_length = 10
-        pipette_address: int = 4,
+  _kwargs_length = 15
-    ):
+  _tip_type_length = 12
-        super().__init__()
+  _max_volume_length = 16
-        self._num_channels = num_channels
+  _fitting_depth_length = 20
-        self.tip_length = tip_length
+  _tip_length_length = 16
-        self.total_height = total_height
+  # _pickup_method_length = 20
  _filter_length = 10
-        # 保存配置，延迟到 setup() 再创建硬件对象
+  def __init__(self, num_channels: int = 8 , tip_length: float = 0 , total_height: float = 310, port: str = "/dev/ttyUSB0"):
-        self._port = port
+    """Initialize a chatter box backend."""
-        self._baudrate = baudrate
+    super().__init__()
-        self._pipette_address = pipette_address
+    self._num_channels = num_channels
    self.tip_length = tip_length
    self.total_height = total_height
 # rclpy.init()
    if not rclpy.ok():
        rclpy.init()
    self.joint_state_publisher = None
    self.hardware_interface = PipetteController(port=port)
-        self._xyz: Optional[XYZController] = None
+  async def setup(self):
-        self._pipette_ctrl: Optional[PipetteController] = None
+    # self.joint_state_publisher = JointStatePublisher()
-        self._ros_node = None
+    # self.hardware_interface.xyz_controller.connect_device()
    # self.hardware_interface.xyz_controller.home_all_axes()
    await super().setup()
    self.hardware_interface.connect()
    self.hardware_interface.initialize()
-    # ------------------------------------------------------------------ lifecycle
+    print("Setting up the liquid handler.")
-    def post_init(self, ros_node):
+  async def stop(self):
-        """接收 ROS 节点引用（由 Handler.post_init 调用）"""
+    print("Stopping the liquid handler.")
        self._ros_node = ros_node
-    async def setup(self):
+  def serialize(self) -> dict:
-        """按路径 B 顺序初始化硬件"""
+    return {**super().serialize(), "num_channels": self.num_channels}
        await super().setup()
-        # 1. XYZ 先开串口
+  def pipette_aspirate(self, volume: float, flow_rate: float):
        self._xyz = XYZController(
            port=self._port,
            baudrate=self._baudrate,
            auto_connect=True,
        )
        if not self._xyz.is_connected:
            raise RuntimeError("XYZ 控制器连接失败")
-        # 2. PipetteController 共享 XYZ 串口
+    self.hardware_interface.pipette.set_max_speed(flow_rate)
-        self._pipette_ctrl = PipetteController(
+    res = self.hardware_interface.pipette.aspirate(volume=volume)
-            port=self._port,
+    
-            address=self._pipette_address,
+    if not res:
-        )
+        self.hardware_interface.logger.error("吸取失败，当前体积: {self.hardware_interface.current_volume}")
-        self._pipette_ctrl.connect_shared(
+        return
            serial_conn=self._xyz.serial_conn,
            serial_lock=self._xyz.serial_lock,
            xyz_controller=self._xyz,
        )
-        # 3. 回零 + 移液器初始化
+    self.hardware_interface.current_volume += volume 
        self._xyz.home_all_axes()
        self._pipette_ctrl.initialize()
-        logger.info("LaiYu 后端硬件初始化完成")
+  def pipette_dispense(self, volume: float, flow_rate: float):
-    async def stop(self):
+    self.hardware_interface.pipette.set_max_speed(flow_rate)
-        """正确断开硬件"""
+    res = self.hardware_interface.pipette.dispense(volume=volume)
-        try:
+    if not res:
-            if self._pipette_ctrl:
+        self.hardware_interface.logger.error("排液失败，当前体积: {self.hardware_interface.current_volume}")
-                self._pipette_ctrl.disconnect_shared()
+        return
-            if self._xyz:
+    self.hardware_interface.current_volume -= volume
                self._xyz.disconnect()
            logger.info("LaiYu 后端硬件已断开")
        except Exception as e:
            logger.error(f"停止后端失败: {e}")
-    # ------------------------------------------------------------------ helpers
+  @property
  def num_channels(self) -> int:
    return self._num_channels
-    def _plr_to_machine_coords(self, resource, offset):
+  async def assigned_resource_callback(self, resource: Resource):
-        """PLR Resource 坐标 → 机器坐标 (倒置龙门架: total_height - z, -y)"""
+    print(f"Resource {resource.name} was assigned to the liquid handler.")
        coordinate = resource.get_absolute_location(x="c", y="c")
        x = coordinate.x + offset.x
        y = coordinate.y + offset.y
        z_plr = coordinate.z + offset.z
        return x, -y, self.total_height - (z_plr + self.tip_length)
-    def _pipette_aspirate(self, volume: float, flow_rate: float):
+  async def unassigned_resource_callback(self, name: str):
-        self._pipette_ctrl.pipette.set_max_speed(flow_rate)
+    print(f"Resource {name} was unassigned from the liquid handler.")
        res = self._pipette_ctrl.pipette.aspirate(volume=volume)
        if not res:
            logger.error(f"吸取失败，当前体积: {self._pipette_ctrl.current_volume}")
            return
        self._pipette_ctrl.current_volume += volume
-    def _pipette_dispense(self, volume: float, flow_rate: float):
+  async def pick_up_tips(self, ops: List[Pickup], use_channels: List[int], **backend_kwargs):
-        self._pipette_ctrl.pipette.set_max_speed(flow_rate)
+    print("Picking up tips:")
-        res = self._pipette_ctrl.pipette.dispense(volume=volume)
+    # print(ops.tip)
-        if not res:
+    header = (
-            logger.error(f"排液失败，当前体积: {self._pipette_ctrl.current_volume}")
+      f"{'pip#':<{UniLiquidHandlerLaiyuBackend._pip_length}} "
-            return
+      f"{'resource':<{UniLiquidHandlerLaiyuBackend._resource_length}} "
-        self._pipette_ctrl.current_volume -= volume
+      f"{'offset':<{UniLiquidHandlerLaiyuBackend._offset_length}} "
      f"{'tip type':<{UniLiquidHandlerLaiyuBackend._tip_type_length}} "
      f"{'max volume (µL)':<{UniLiquidHandlerLaiyuBackend._max_volume_length}} "
      f"{'fitting depth (mm)':<{UniLiquidHandlerLaiyuBackend._fitting_depth_length}} "
      f"{'tip length (mm)':<{UniLiquidHandlerLaiyuBackend._tip_length_length}} "
      # f"{'pickup method':<{ChatterboxBackend._pickup_method_length}} "
      f"{'filter':<{UniLiquidHandlerLaiyuBackend._filter_length}}"
    )
    # print(header)
-    # ------------------------------------------------------------------ properties
+    for op, channel in zip(ops, use_channels):
      offset = f"{round(op.offset.x, 1)},{round(op.offset.y, 1)},{round(op.offset.z, 1)}"
      row = (
        f"  p{channel}: "
        f"{op.resource.name[-30:]:<{UniLiquidHandlerLaiyuBackend._resource_length}} "
        f"{offset:<{UniLiquidHandlerLaiyuBackend._offset_length}} "
        f"{op.tip.__class__.__name__:<{UniLiquidHandlerLaiyuBackend._tip_type_length}} "
        f"{op.tip.maximal_volume:<{UniLiquidHandlerLaiyuBackend._max_volume_length}} "
        f"{op.tip.fitting_depth:<{UniLiquidHandlerLaiyuBackend._fitting_depth_length}} "
        f"{op.tip.total_tip_length:<{UniLiquidHandlerLaiyuBackend._tip_length_length}} "
        # f"{str(op.tip.pickup_method)[-20:]:<{ChatterboxBackend._pickup_method_length}} "
        f"{'Yes' if op.tip.has_filter else 'No':<{UniLiquidHandlerLaiyuBackend._filter_length}}"
      )
      # print(row)
      # print(op.resource.get_absolute_location())
    self.tip_length = ops[0].tip.total_tip_length
    coordinate = ops[0].resource.get_absolute_location(x="c",y="c")
    offset_xyz = ops[0].offset
    x = coordinate.x + offset_xyz.x
    y = coordinate.y + offset_xyz.y
    z = self.total_height - (coordinate.z + self.tip_length) + offset_xyz.z
    # print("moving")
    self.hardware_interface._update_tip_status()
    if self.hardware_interface.tip_status == TipStatus.TIP_ATTACHED:
        print("已有枪头，无需重复拾取")
        return
    self.hardware_interface.xyz_controller.move_to_work_coord_safe(x=x, y=-y, z=z,speed=200)
    self.hardware_interface.xyz_controller.move_to_work_coord_safe(z=self.hardware_interface.xyz_controller.machine_config.safe_z_height,speed=100)
    # self.joint_state_publisher.send_resource_action(ops[0].resource.name, x, y, z, "pick",channels=use_channels)
    #   goback()
    def serialize(self) -> dict:
        return {**super().serialize(), "num_channels": self.num_channels}
    @property
    def num_channels(self) -> int:
        return self._num_channels
    # ------------------------------------------------------------------ resource callbacks
-    async def assigned_resource_callback(self, resource: Resource):
+  async def drop_tips(self, ops: List[Drop], use_channels: List[int], **backend_kwargs):
-        logger.info(f"Resource {resource.name} was assigned to the liquid handler.")
+    print("Dropping tips:")
    header = (
      f"{'pip#':<{UniLiquidHandlerLaiyuBackend._pip_length}} "
      f"{'resource':<{UniLiquidHandlerLaiyuBackend._resource_length}} "
      f"{'offset':<{UniLiquidHandlerLaiyuBackend._offset_length}} "
      f"{'tip type':<{UniLiquidHandlerLaiyuBackend._tip_type_length}} "
      f"{'max volume (µL)':<{UniLiquidHandlerLaiyuBackend._max_volume_length}} "
      f"{'fitting depth (mm)':<{UniLiquidHandlerLaiyuBackend._fitting_depth_length}} "
      f"{'tip length (mm)':<{UniLiquidHandlerLaiyuBackend._tip_length_length}} "
      # f"{'pickup method':<{ChatterboxBackend._pickup_method_length}} "
      f"{'filter':<{UniLiquidHandlerLaiyuBackend._filter_length}}"
    )
    # print(header)
-    async def unassigned_resource_callback(self, name: str):
+    for op, channel in zip(ops, use_channels):
-        logger.info(f"Resource {name} was unassigned from the liquid handler.")
+      offset = f"{round(op.offset.x, 1)},{round(op.offset.y, 1)},{round(op.offset.z, 1)}"
      row = (
        f"  p{channel}: "
        f"{op.resource.name[-30:]:<{UniLiquidHandlerLaiyuBackend._resource_length}} "
        f"{offset:<{UniLiquidHandlerLaiyuBackend._offset_length}} "
        f"{op.tip.__class__.__name__:<{UniLiquidHandlerLaiyuBackend._tip_type_length}} "
        f"{op.tip.maximal_volume:<{UniLiquidHandlerLaiyuBackend._max_volume_length}} "
        f"{op.tip.fitting_depth:<{UniLiquidHandlerLaiyuBackend._fitting_depth_length}} "
        f"{op.tip.total_tip_length:<{UniLiquidHandlerLaiyuBackend._tip_length_length}} "
        # f"{str(op.tip.pickup_method)[-20:]:<{ChatterboxBackend._pickup_method_length}} "
        f"{'Yes' if op.tip.has_filter else 'No':<{UniLiquidHandlerLaiyuBackend._filter_length}}"
      )
      # print(row)
-    # ------------------------------------------------------------------ pick_up_tips
+    coordinate = ops[0].resource.get_absolute_location(x="c",y="c")
    offset_xyz = ops[0].offset
    x = coordinate.x + offset_xyz.x
    y = coordinate.y + offset_xyz.y
    z = self.total_height - (coordinate.z + self.tip_length) + offset_xyz.z -20
    # print(x, y, z)
    # print("moving")
    self.hardware_interface._update_tip_status()
    if self.hardware_interface.tip_status == TipStatus.NO_TIP:
        print("无枪头，无需丢弃")
        return
    self.hardware_interface.xyz_controller.move_to_work_coord_safe(x=x, y=-y, z=z,speed=200)
    self.hardware_interface.eject_tip
    self.hardware_interface.xyz_controller.move_to_work_coord_safe(z=self.hardware_interface.xyz_controller.machine_config.safe_z_height)  
-    async def pick_up_tips(self, ops: List[Pickup], use_channels: List[int], **backend_kwargs):
+  async def aspirate(
-        tip = ops[0].tip
+    self,
-        self.tip_length = tip.total_tip_length
+    ops: List[SingleChannelAspiration],
-        x, y, z_top = self._plr_to_machine_coords(ops[0].resource, ops[0].offset)
+    use_channels: List[int],
    **backend_kwargs,
  ):
    print("Aspirating:")
    header = (
      f"{'pip#':<{UniLiquidHandlerLaiyuBackend._pip_length}} "
      f"{'vol(ul)':<{UniLiquidHandlerLaiyuBackend._vol_length}} "
      f"{'resource':<{UniLiquidHandlerLaiyuBackend._resource_length}} "
      f"{'offset':<{UniLiquidHandlerLaiyuBackend._offset_length}} "
      f"{'flow rate':<{UniLiquidHandlerLaiyuBackend._flow_rate_length}} "
      f"{'blowout':<{UniLiquidHandlerLaiyuBackend._blowout_length}} "
      f"{'lld_z':<{UniLiquidHandlerLaiyuBackend._lld_z_length}}  "
      # f"{'liquids':<20}" # TODO: add liquids
    )
    for key in backend_kwargs:
      header += f"{key:<{UniLiquidHandlerLaiyuBackend._kwargs_length}} "[-16:]
    # print(header)
-        self._pipette_ctrl._update_tip_status()
+    for o, p in zip(ops, use_channels):
-        if self._pipette_ctrl.tip_status == TipStatus.TIP_ATTACHED:
+      offset = f"{round(o.offset.x, 1)},{round(o.offset.y, 1)},{round(o.offset.z, 1)}"
-            logger.warning("已有枪头，无需重复拾取")
+      row = (
-            return
+        f"  p{p}: "
        f"{o.volume:<{UniLiquidHandlerLaiyuBackend._vol_length}} "
        f"{o.resource.name[-20:]:<{UniLiquidHandlerLaiyuBackend._resource_length}} "
        f"{offset:<{UniLiquidHandlerLaiyuBackend._offset_length}} "
        f"{str(o.flow_rate):<{UniLiquidHandlerLaiyuBackend._flow_rate_length}} "
        f"{str(o.blow_out_air_volume):<{UniLiquidHandlerLaiyuBackend._blowout_length}} "
        f"{str(o.liquid_height):<{UniLiquidHandlerLaiyuBackend._lld_z_length}} "
        # f"{o.liquids if o.liquids is not None else 'none'}"
      )
      for key, value in backend_kwargs.items():
        if isinstance(value, list) and all(isinstance(v, bool) for v in value):
          value = "".join("T" if v else "F" for v in value)
        if isinstance(value, list):
          value = "".join(map(str, value))
        row += f" {value:<15}"
      # print(row)
    coordinate = ops[0].resource.get_absolute_location(x="c",y="c")
    offset_xyz = ops[0].offset
    x = coordinate.x + offset_xyz.x
    y = coordinate.y + offset_xyz.y
    z = self.total_height - (coordinate.z + self.tip_length) + offset_xyz.z
    # print(x, y, z)
    # print("moving")
-        try:
+    # 判断枪头是否存在
-            # 1. 移到枪头正上方
+    self.hardware_interface._update_tip_status()
-            self._xyz.move_to_work_coord_safe(x=x, y=y, z=z_top, speed=200)
+    if not self.hardware_interface.tip_status == TipStatus.TIP_ATTACHED:
-            # 2. 下压到套枪头深度（fitting_depth 是枪头套入长度）
+        print("无枪头，无法吸液")
-            z_pickup = z_top + tip.fitting_depth
+        return
-            self._xyz.move_to_work_coord_safe(z=z_pickup, speed=100)
+    # 判断吸液量是否超过枪头容量
-            # 3. 退回安全高度
+    flow_rate = backend_kwargs["flow_rate"] if "flow_rate" in backend_kwargs else 500
-            self._xyz.move_to_work_coord_safe(
+    blow_out_air_volume = backend_kwargs["blow_out_air_volume"] if "blow_out_air_volume" in backend_kwargs else 0
-                z=self._xyz.machine_config.safe_z_height, speed=100
+    if self.hardware_interface.current_volume + ops[0].volume + blow_out_air_volume > self.hardware_interface.max_volume:
-            )
+        self.hardware_interface.logger.error(f"吸液量超过枪头容量: {self.hardware_interface.current_volume + ops[0].volume} > {self.hardware_interface.max_volume}")
-        except Exception as e:
+        return
            logger.error(f"pick_up_tips 移动失败: {e}")
            raise
-    # ------------------------------------------------------------------ drop_tips
+    # 移动到吸液位置
    self.hardware_interface.xyz_controller.move_to_work_coord_safe(x=x, y=-y, z=z,speed=200)
    self.pipette_aspirate(volume=ops[0].volume, flow_rate=flow_rate)
    async def drop_tips(self, ops: List[Drop], use_channels: List[int], **backend_kwargs):
        x, y, z = self._plr_to_machine_coords(ops[0].resource, ops[0].offset)
        z -= 20  # 额外下移补偿
-        self._pipette_ctrl._update_tip_status()
+    self.hardware_interface.xyz_controller.move_to_work_coord_safe(z=self.hardware_interface.xyz_controller.machine_config.safe_z_height)
-        if self._pipette_ctrl.tip_status == TipStatus.NO_TIP:
+    if blow_out_air_volume >0: 
-            logger.warning("无枪头，无需丢弃")
+        self.pipette_aspirate(volume=blow_out_air_volume, flow_rate=flow_rate)
            return
        try:
            self._xyz.move_to_work_coord_safe(x=x, y=y, z=z, speed=200)
            self._pipette_ctrl.eject_tip()  # 修复: 原来缺少 ()
            self._xyz.move_to_work_coord_safe(
                z=self._xyz.machine_config.safe_z_height
            )
        except Exception as e:
            logger.error(f"drop_tips 失败: {e}")
            raise
    # ------------------------------------------------------------------ aspirate
    async def aspirate(
        self,
        ops: List[SingleChannelAspiration],
        use_channels: List[int],
        **backend_kwargs,
    ):
        x, y, z = self._plr_to_machine_coords(ops[0].resource, ops[0].offset)
-        self._pipette_ctrl._update_tip_status()
+  async def dispense(
-        if self._pipette_ctrl.tip_status != TipStatus.TIP_ATTACHED:
+    self,
-            raise RuntimeError("无枪头，无法吸液")
+    ops: List[SingleChannelDispense],
    use_channels: List[int],
    **backend_kwargs,
  ):
    # print("Dispensing:")
    header = (
      f"{'pip#':<{UniLiquidHandlerLaiyuBackend._pip_length}} "
      f"{'vol(ul)':<{UniLiquidHandlerLaiyuBackend._vol_length}} "
      f"{'resource':<{UniLiquidHandlerLaiyuBackend._resource_length}} "
      f"{'offset':<{UniLiquidHandlerLaiyuBackend._offset_length}} "
      f"{'flow rate':<{UniLiquidHandlerLaiyuBackend._flow_rate_length}} "
      f"{'blowout':<{UniLiquidHandlerLaiyuBackend._blowout_length}} "
      f"{'lld_z':<{UniLiquidHandlerLaiyuBackend._lld_z_length}}  "
      # f"{'liquids':<20}" # TODO: add liquids
    )
    for key in backend_kwargs:
      header += f"{key:<{UniLiquidHandlerLaiyuBackend._kwargs_length}} "[-16:]
    # print(header)
-        flow_rate = backend_kwargs.get("flow_rate", 500)
+    for o, p in zip(ops, use_channels):
-        blow_out_air_volume = backend_kwargs.get("blow_out_air_volume", 0)
+      offset = f"{round(o.offset.x, 1)},{round(o.offset.y, 1)},{round(o.offset.z, 1)}"
      row = (
        f"  p{p}: "
        f"{o.volume:<{UniLiquidHandlerLaiyuBackend._vol_length}} "
        f"{o.resource.name[-20:]:<{UniLiquidHandlerLaiyuBackend._resource_length}} "
        f"{offset:<{UniLiquidHandlerLaiyuBackend._offset_length}} "
        f"{str(o.flow_rate):<{UniLiquidHandlerLaiyuBackend._flow_rate_length}} "
        f"{str(o.blow_out_air_volume):<{UniLiquidHandlerLaiyuBackend._blowout_length}} "
        f"{str(o.liquid_height):<{UniLiquidHandlerLaiyuBackend._lld_z_length}} "
        # f"{o.liquids if o.liquids is not None else 'none'}"
      )
      for key, value in backend_kwargs.items():
        if isinstance(value, list) and all(isinstance(v, bool) for v in value):
          value = "".join("T" if v else "F" for v in value)
        if isinstance(value, list):
          value = "".join(map(str, value))
        row += f" {value:<{UniLiquidHandlerLaiyuBackend._kwargs_length}}"
      # print(row)
    coordinate = ops[0].resource.get_absolute_location(x="c",y="c")
    offset_xyz = ops[0].offset
    x = coordinate.x + offset_xyz.x
    y = coordinate.y + offset_xyz.y
    z = self.total_height - (coordinate.z + self.tip_length) + offset_xyz.z
    # print(x, y, z)
    # print("moving")
-        if (
+    # 判断枪头是否存在
-            self._pipette_ctrl.current_volume + ops[0].volume + blow_out_air_volume
+    self.hardware_interface._update_tip_status()
-            > self._pipette_ctrl.max_volume
+    if not self.hardware_interface.tip_status == TipStatus.TIP_ATTACHED:
-        ):
+        print("无枪头，无法排液")
-            raise RuntimeError(
+        return
-                f"吸液量超过枪头容量: "
+    # 判断排液量是否超过枪头容量
-                f"{self._pipette_ctrl.current_volume + ops[0].volume} > {self._pipette_ctrl.max_volume}"
+    flow_rate = backend_kwargs["flow_rate"] if "flow_rate" in backend_kwargs else 500
-            )
+    blow_out_air_volume = backend_kwargs["blow_out_air_volume"] if "blow_out_air_volume" in backend_kwargs else 0
    if self.hardware_interface.current_volume - ops[0].volume - blow_out_air_volume < 0:
        self.hardware_interface.logger.error(f"排液量超过枪头容量: {self.hardware_interface.current_volume - ops[0].volume - blow_out_air_volume} < 0")
        return
-        self._xyz.move_to_work_coord_safe(x=x, y=y, z=z, speed=200)
+    
-        self._pipette_aspirate(volume=ops[0].volume, flow_rate=flow_rate)
+    # 移动到排液位置  
    self.hardware_interface.xyz_controller.move_to_work_coord_safe(x=x, y=-y, z=z,speed=200)
    self.pipette_dispense(volume=ops[0].volume, flow_rate=flow_rate)
        self._xyz.move_to_work_coord_safe(
            z=self._xyz.machine_config.safe_z_height
        )
        if blow_out_air_volume > 0:
            self._pipette_aspirate(volume=blow_out_air_volume, flow_rate=flow_rate)
-    # ------------------------------------------------------------------ dispense
+    self.hardware_interface.xyz_controller.move_to_work_coord_safe(z=self.hardware_interface.xyz_controller.machine_config.safe_z_height)
    if blow_out_air_volume > 0: 
        self.pipette_dispense(volume=blow_out_air_volume, flow_rate=flow_rate)
    # self.joint_state_publisher.send_resource_action(ops[0].resource.name, x, y, z, "",channels=use_channels)
-    async def dispense(
+  async def pick_up_tips96(self, pickup: PickupTipRack, **backend_kwargs):
-        self,
+    print(f"Picking up tips from {pickup.resource.name}.")
        ops: List[SingleChannelDispense],
        use_channels: List[int],
        **backend_kwargs,
    ):
        x, y, z = self._plr_to_machine_coords(ops[0].resource, ops[0].offset)
-        self._pipette_ctrl._update_tip_status()
+  async def drop_tips96(self, drop: DropTipRack, **backend_kwargs):
-        if self._pipette_ctrl.tip_status != TipStatus.TIP_ATTACHED:
+    print(f"Dropping tips to {drop.resource.name}.")
            raise RuntimeError("无枪头，无法排液")
-        flow_rate = backend_kwargs.get("flow_rate", 500)
+  async def aspirate96(
-        blow_out_air_volume = backend_kwargs.get("blow_out_air_volume", 0)
+    self, aspiration: Union[MultiHeadAspirationPlate, MultiHeadAspirationContainer]
  ):
    if isinstance(aspiration, MultiHeadAspirationPlate):
      resource = aspiration.wells[0].parent
    else:
      resource = aspiration.container
    print(f"Aspirating {aspiration.volume} from {resource}.")
-        if (
+  async def dispense96(self, dispense: Union[MultiHeadDispensePlate, MultiHeadDispenseContainer]):
-            self._pipette_ctrl.current_volume - ops[0].volume - blow_out_air_volume < 0
+    if isinstance(dispense, MultiHeadDispensePlate):
-        ):
+      resource = dispense.wells[0].parent
-            raise RuntimeError(
+    else:
-                f"排液量超过当前体积: "
+      resource = dispense.container
-                f"{self._pipette_ctrl.current_volume - ops[0].volume - blow_out_air_volume} < 0"
+    print(f"Dispensing {dispense.volume} to {resource}.")
            )
-        self._xyz.move_to_work_coord_safe(x=x, y=y, z=z, speed=200)
+  async def pick_up_resource(self, pickup: ResourcePickup):
-        self._pipette_dispense(volume=ops[0].volume, flow_rate=flow_rate)
+    print(f"Picking up resource: {pickup}")
-        self._xyz.move_to_work_coord_safe(
+  async def move_picked_up_resource(self, move: ResourceMove):
-            z=self._xyz.machine_config.safe_z_height
+    print(f"Moving picked up resource: {move}")
        )
        if blow_out_air_volume > 0:
            self._pipette_dispense(volume=blow_out_air_volume, flow_rate=flow_rate)
-    # ------------------------------------------------------------------ 96-channel stubs
+  async def drop_resource(self, drop: ResourceDrop):
    print(f"Dropping resource: {drop}")
-    async def pick_up_tips96(self, pickup: PickupTipRack, **backend_kwargs):
+  def can_pick_up_tip(self, channel_idx: int, tip: Tip) -> bool:
-        logger.info(f"Picking up tips from {pickup.resource.name}.")
+    return True
-
+    
    async def drop_tips96(self, drop: DropTipRack, **backend_kwargs):
        logger.info(f"Dropping tips to {drop.resource.name}.")
    async def aspirate96(
        self, aspiration: Union[MultiHeadAspirationPlate, MultiHeadAspirationContainer]
    ):
        if isinstance(aspiration, MultiHeadAspirationPlate):
            resource = aspiration.wells[0].parent
        else:
            resource = aspiration.container
        logger.info(f"Aspirating {aspiration.volume} from {resource}.")
    async def dispense96(
        self, dispense: Union[MultiHeadDispensePlate, MultiHeadDispenseContainer]
    ):
        if isinstance(dispense, MultiHeadDispensePlate):
            resource = dispense.wells[0].parent
        else:
            resource = dispense.container
        logger.info(f"Dispensing {dispense.volume} to {resource}.")
    async def pick_up_resource(self, pickup: ResourcePickup):
        logger.info(f"Picking up resource: {pickup}")
    async def move_picked_up_resource(self, move: ResourceMove):
        logger.info(f"Moving picked up resource: {move}")
    async def drop_resource(self, drop: ResourceDrop):
        logger.info(f"Dropping resource: {drop}")
    def can_pick_up_tip(self, channel_idx: int, tip: Tip) -> bool:
        return True
--- a/unilabos/devices/liquid_handling/laiyu/controllers/pipette_controller.py
+++ b/unilabos/devices/liquid_handling/laiyu/controllers/pipette_controller.py
@@ -5,16 +5,21 @@
 封装SOPA移液器的高级控制功能
 """
 # 添加项目根目录到Python路径以解决模块导入问题
 import sys
 import os
-
+from tkinter import N
 _current_file = os.path.abspath(__file__)
 _project_root = os.path.dirname(os.path.dirname(os.path.dirname(os.path.dirname(os.path.dirname(_current_file)))))
 if _project_root not in sys.path:
    sys.path.insert(0, _project_root)
 from unilabos.devices.liquid_handling.laiyu.drivers.xyz_stepper_driver import ModbusException
 # 无论如何都添加项目根目录到路径
 current_file = os.path.abspath(__file__)
 # 从 .../Uni-Lab-OS/unilabos/devices/LaiYu_Liquid/controllers/pipette_controller.py
 # 向上5级到 .../Uni-Lab-OS
 project_root = os.path.dirname(os.path.dirname(os.path.dirname(os.path.dirname(os.path.dirname(current_file)))))
 # 强制添加项目根目录到sys.path的开头
 sys.path.insert(0, project_root)
 import time
 import logging
 from typing import Optional, List, Dict, Tuple
@@ -148,7 +153,7 @@ class PipetteController:
                logger.error("移液器连接失败")
                return False
            logger.info("移液器连接成功")
-
+            
            # 连接XYZ步进电机控制器（如果提供了端口）
            if self.xyz_port != self.pipette_port:
                try:
@@ -167,62 +172,24 @@ class PipetteController:
                try:
                    self.xyz_controller = XYZController(self.xyz_port, auto_connect=False)
                    self.xyz_controller.serial_conn = self.pipette.serial_port
                    self.xyz_controller.serial_lock = self.pipette.lock
                    self.xyz_controller.is_connected = True
                    logger.info("XYZ控制器与移液器共享串口和互斥锁")
                except Exception as e:
-                    logger.warning(f"共享端口 XYZ 控制器创建失败: {e}")
+                    logger.info("未配置XYZ步进电机端口，跳过运动控制器连接")
-                    self.xyz_controller = None
+            
                    self.xyz_connected = False
            return True
        except Exception as e:
            logger.error(f"设备连接失败: {e}")
            return False
    def connect_shared(self, serial_conn, serial_lock, xyz_controller: XYZController) -> bool:
        """使用已连接的串口和XYZ控制器（路径 B 模式：XYZ 先开串口，移液器共享）
        Args:
            serial_conn: 已打开的串口连接（来自 XYZController）
            serial_lock: 串口互斥锁（来自 XYZController）
            xyz_controller: 已连接的 XYZController 实例
        """
        try:
            self.pipette.serial_port = serial_conn
            self.pipette.lock = serial_lock
            self.pipette.is_connected = True
            self.xyz_controller = xyz_controller
            self.xyz_connected = True
            logger.info("移液控制器已通过 connect_shared 共享 XYZ 串口")
            return True
        except Exception as e:
            logger.error(f"connect_shared 失败: {e}")
            return False
    def disconnect_shared(self) -> None:
        """释放共享串口引用（与 connect_shared 对称）。
        注意：不关闭串口本身，串口由 XYZController 负责关闭。
        """
        try:
            self.pipette.serial_port = None
            self.pipette.lock = None
            self.pipette.is_connected = False
            self.xyz_controller = None
            self.xyz_connected = False
            logger.info("移液控制器已释放共享串口引用")
        except Exception as e:
            logger.error(f"disconnect_shared 失败: {e}")
    def initialize(self) -> bool:
        """初始化移液器"""
        try:
            if self.pipette.initialize():
                logger.info("移液器初始化成功")
                # 检查枪头状态
                self._update_tip_status()
                self.xyz_controller.home_all_axes()
                self.xyz_controller.move_to_work_coord_safe(x=0, y=-150, z=0)
                return True
            return False
        except Exception as e:
@@ -231,58 +198,56 @@ class PipetteController:
    def disconnect(self):
        """断开连接"""
-        if self.xyz_controller and self.xyz_connected:
+        # 断开移液器连接
            if self.xyz_port != self.pipette_port:
                try:
                    self.xyz_controller.disconnect()
                    logger.info("XYZ 步进电机已断开")
                except Exception as e:
                    logger.error(f"断开 XYZ 步进电机失败: {e}")
            else:
                self.xyz_controller.serial_conn = None
            self.xyz_connected = False
            self.xyz_controller = None
        self.pipette.disconnect()
        logger.info("移液器已断开")
        # 断开 XYZ 步进电机连接
        if self.xyz_controller and self.xyz_connected:
            try:
                self.xyz_controller.disconnect()
                self.xyz_connected = False
                logger.info("XYZ 步进电机已断开")
            except Exception as e:
                logger.error(f"断开 XYZ 步进电机失败: {e}")
    def _check_xyz_safety(self, axis: MotorAxis, target_position: int) -> bool:
        """
        检查 XYZ 轴移动的安全性
-
+        
        Args:
            axis: 电机轴
            target_position: 目标位置(步数)
-
+            
        Returns:
            是否安全
        """
        try:
            # 获取当前电机状态
            motor_position = self.xyz_controller.get_motor_status(axis)
-
+            
            # 检查电机状态是否正常 (不是碰撞停止或限位停止)
-            if motor_position.status in [MotorStatus.COLLISION_STOP,
+            if motor_position.status in [MotorStatus.COLLISION_STOP, 
-                                       MotorStatus.FORWARD_LIMIT_STOP,
+                                       MotorStatus.FORWARD_LIMIT_STOP, 
                                       MotorStatus.REVERSE_LIMIT_STOP]:
                logger.error(f"{axis.name} 轴电机处于错误状态: {motor_position.status.name}")
                return False
-
+                
            # 检查位置限制 (扩大安全范围以适应实际硬件)
            # 步进电机的位置范围通常很大，这里设置更合理的范围
            if target_position < -500000 or target_position > 500000:
                logger.error(f"{axis.name} 轴目标位置超出安全范围: {target_position}")
                return False
-
+                
            # 检查移动距离是否过大 (单次移动不超过 20000 步，约12mm)
            current_position = motor_position.steps
            move_distance = abs(target_position - current_position)
            if move_distance > 20000:
                logger.error(f"{axis.name} 轴单次移动距离过大: {move_distance}步")
                return False
-
+                
            return True
-
+            
        except Exception as e:
            logger.error(f"安全检查失败: {e}")
            return False
@@ -290,48 +255,48 @@ class PipetteController:
    def move_z_relative(self, distance_mm: float, speed: int = 2000, acceleration: int = 500) -> bool:
        """
        Z轴相对移动
-
+        
        Args:
            distance_mm: 移动距离(mm)，正值向下，负值向上
            speed: 移动速度(rpm)
            acceleration: 加速度(rpm/s)
-
+            
        Returns:
            移动是否成功
        """
        if not self.xyz_controller or not self.xyz_connected:
            logger.error("XYZ 步进电机未连接，无法执行移动")
            return False
-
+            
        try:
            # 参数验证
            if abs(distance_mm) > 15.0:
                logger.error(f"移动距离过大: {distance_mm}mm，最大允许15mm")
                return False
-
+                
            if speed < 100 or speed > 5000:
                logger.error(f"速度参数无效: {speed}rpm，范围应为100-5000")
                return False
-
+                
            # 获取当前 Z 轴位置
            current_status = self.xyz_controller.get_motor_status(MotorAxis.Z)
            current_z_position = current_status.steps
-
+            
            # 计算移动距离对应的步数 (1mm = 1638.4步)
            mm_to_steps = 1638.4
            move_distance_steps = int(distance_mm * mm_to_steps)
-
+            
            # 计算目标位置
            target_z_position = current_z_position + move_distance_steps
-
+            
            # 安全检查
            if not self._check_xyz_safety(MotorAxis.Z, target_z_position):
                logger.error("Z轴移动安全检查失败")
                return False
-
+            
            logger.info(f"Z轴相对移动: {distance_mm}mm ({move_distance_steps}步)")
            logger.info(f"当前位置: {current_z_position}步 -> 目标位置: {target_z_position}步")
-
+            
            # 执行移动
            success = self.xyz_controller.move_to_position(
                axis=MotorAxis.Z,
@@ -340,28 +305,28 @@ class PipetteController:
                acceleration=acceleration,
                precision=50
            )
-
+            
            if not success:
                logger.error("Z轴移动命令发送失败")
                return False
-
+                
            # 等待移动完成
            if not self.xyz_controller.wait_for_completion(MotorAxis.Z, timeout=10.0):
                logger.error("Z轴移动超时")
                return False
-
+                
            # 验证移动结果
            final_status = self.xyz_controller.get_motor_status(MotorAxis.Z)
            final_position = final_status.steps
            position_error = abs(final_position - target_z_position)
-
+            
            logger.info(f"Z轴移动完成，最终位置: {final_position}步，误差: {position_error}步")
-
+            
            if position_error > 100:
                logger.warning(f"Z轴位置误差较大: {position_error}步")
-
+                
            return True
-
+            
        except ModbusException as e:
            logger.error(f"Modbus通信错误: {e}")
            return False
@@ -372,20 +337,21 @@ class PipetteController:
    def emergency_stop(self) -> bool:
        """
        紧急停止所有运动
-
+        
        Returns:
            停止是否成功
        """
        success = True
-
+        
        # 停止移液器操作
        try:
-            if self.pipette and self.pipette.is_connected:
+            if self.pipette and self.connected:
-                self.pipette.emergency_stop()
+                # 这里可以添加移液器的紧急停止逻辑
                logger.info("移液器紧急停止")
        except Exception as e:
            logger.error(f"移液器紧急停止失败: {e}")
            success = False
-
+            
        # 停止 XYZ 轴运动
        try:
            if self.xyz_controller and self.xyz_connected:
@@ -394,7 +360,7 @@ class PipetteController:
        except Exception as e:
            logger.error(f"XYZ 轴紧急停止失败: {e}")
            success = False
-
+            
        return success
    def pickup_tip(self) -> bool:
@@ -410,7 +376,7 @@ class PipetteController:
            return True
        logger.info("开始装载枪头 - Z轴向下移动10mm")
-
+        
        # 使用相对移动方法，向下移动10mm
        if self.move_z_relative(distance_mm=10.0, speed=2000, acceleration=500):
            # 更新枪头状态
@@ -722,31 +688,31 @@ class PipetteController:
 if __name__ == "__main__":
    # 配置日志
    import logging
-
+    
    # 设置日志级别
    logging.basicConfig(
        level=logging.INFO,
        format='%(asctime)s - %(name)s - %(levelname)s - %(message)s'
    )
-
+    
    def interactive_test():
        """交互式测试模式 - 适用于已连接的设备"""
        print("\n" + "=" * 60)
        print("🧪 移液器交互式测试模式")
        print("=" * 60)
-
+        
        # 获取用户输入的连接参数
        print("\n📡 设备连接配置:")
        port = input("请输入移液器串口端口 (默认: /dev/ttyUSB_CH340): ").strip() or "/dev/ttyUSB_CH340"
        address_input = input("请输入移液器设备地址 (默认: 4): ").strip()
        address = int(address_input) if address_input else 4
-
+        
        # 询问是否连接 XYZ 步进电机控制器
        xyz_enable = input("是否连接 XYZ 步进电机控制器? (y/N): ").strip().lower()
        xyz_port = None
        if xyz_enable not in ['n', 'no']:
            xyz_port = input("请输入 XYZ 控制器串口端口 (默认: /dev/ttyUSB_CH340): ").strip() or "/dev/ttyUSB_CH340"
-
+        
        try:
            # 创建移液控制器实例
            if xyz_port:
@@ -755,21 +721,21 @@ if __name__ == "__main__":
            else:
                print(f"\n🔧 创建移液控制器实例 (端口: {port}, 地址: {address})...")
                pipette = PipetteController(port=port, address=address)
-
+            
            # 连接设备
            print("\n📞 连接移液器设备...")
            if not pipette.connect():
                print("❌ 设备连接失败，请检查连接")
                return
            print("✅ 设备连接成功")
-
+            
            # 初始化设备
            print("\n🚀 初始化设备...")
            if not pipette.initialize():
                print("❌ 设备初始化失败")
                return
            print("✅ 设备初始化成功")
-
+            
            # 交互式菜单
            while True:
                print("\n" + "=" * 50)
@@ -789,9 +755,9 @@ if __name__ == "__main__":
                print("99. 🚨 紧急停止")
                print("0. 🚪 退出程序")
                print("=" * 50)
-
+                
                choice = input("\n请选择操作 (0-12, 99): ").strip()
-
+                
                if choice == "0":
                    print("\n👋 退出程序...")
                    break
@@ -807,7 +773,7 @@ if __name__ == "__main__":
                    # print(f"    🔧 枪头使用次数: {status['statistics']['tip_count']}")
                    print(f"    ⬆️  吸液次数: {status['statistics']['aspirate_count']}")
                    print(f"    ⬇️  排液次数: {status['statistics']['dispense_count']}")
-
+                
                elif choice == "2":
                    # 装载枪头
                    print("\n🔧 装载枪头...")
@@ -815,14 +781,14 @@ if __name__ == "__main__":
                        print("📍 使用 XYZ 控制器进行 Z 轴定位 (下移 10mm)")
                    else:
                        print("⚠️  未连接 XYZ 控制器，仅执行移液器枪头装载")
-
+                    
                    if pipette.pickup_tip():
                        print("✅ 枪头装载成功")
                        if pipette.xyz_connected:
                            print("📍 Z 轴已移动到装载位置")
                    else:
                        print("❌ 枪头装载失败")
-
+                
                elif choice == "3":
                    # 弹出枪头
                    print("\n🗑️ 弹出枪头...")
@@ -830,7 +796,7 @@ if __name__ == "__main__":
                        print("✅ 枪头弹出成功")
                    else:
                        print("❌ 枪头弹出失败")
-
+                
                elif choice == "4":
                    # 吸液操作
                    try:
@@ -844,7 +810,7 @@ if __name__ == "__main__":
                            print("❌ 吸液失败")
                    except ValueError:
                        print("❌ 请输入有效的数字")
-
+                
                elif choice == "5":
                    # 排液操作
                    try:
@@ -858,7 +824,7 @@ if __name__ == "__main__":
                            print("❌ 排液失败")
                    except ValueError:
                        print("❌ 请输入有效的数字")
-
+                
                elif choice == "6":
                    # 混合操作
                    try:
@@ -872,7 +838,7 @@ if __name__ == "__main__":
                            print("❌ 混合失败")
                    except ValueError:
                        print("❌ 请输入有效的数字")
-
+                
                elif choice == "7":
                    # 液体转移
                    try:
@@ -880,7 +846,7 @@ if __name__ == "__main__":
                        source = input("源孔位 (可选, 如A1): ").strip() or None
                        dest = input("目标孔位 (可选, 如B1): ").strip() or None
                        new_tip = input("是否使用新枪头? (y/n, 默认y): ").strip().lower() != 'n'
-
+                        
                        print(f"\n🔄 执行液体转移 ({volume}ul)...")
                        if pipette.transfer(volume=volume, source_well=source, dest_well=dest, new_tip=new_tip):
                            print("✅ 液体转移完成")
@@ -888,7 +854,7 @@ if __name__ == "__main__":
                            print("❌ 液体转移失败")
                    except ValueError:
                        print("❌ 请输入有效的数字")
-
+                
                elif choice == "8":
                    # 设置液体类型
                    print("\n🧪 可用液体类型:")
@@ -898,16 +864,16 @@ if __name__ == "__main__":
                        "3": (LiquidClass.VISCOUS, "粘稠液体"),
                        "4": (LiquidClass.VOLATILE, "挥发性液体")
                    }
-
+                    
                    for key, (liquid_class, description) in liquid_options.items():
                        print(f"  {key}. {description}")
-
+                    
                    liquid_choice = input("请选择液体类型 (1-4): ").strip()
                    if liquid_choice in liquid_options:
                        liquid_class, description = liquid_options[liquid_choice]
                        pipette.set_liquid_class(liquid_class)
                        print(f"✅ 液体类型设置为: {description}")
-
+                        
                        # 显示参数
                        params = pipette.liquid_params
                        print(f"📋 参数设置:")
@@ -917,7 +883,7 @@ if __name__ == "__main__":
                        print(f"  💧 预润湿: {'是' if params.pre_wet else '否'}")
                    else:
                        print("❌ 无效选择")
-
+                
                elif choice == "9":
                    # 自定义参数
                    try:
@@ -926,19 +892,19 @@ if __name__ == "__main__":
                        dispense_speed = input("排液速度 (默认800): ").strip()
                        air_gap = input("空气间隙 (ul, 默认10.0): ").strip()
                        pre_wet = input("预润湿 (y/n, 默认n): ").strip().lower() == 'y'
-
+                        
                        custom_params = LiquidParameters(
                            aspirate_speed=int(aspirate_speed) if aspirate_speed else 500,
                            dispense_speed=int(dispense_speed) if dispense_speed else 800,
                            air_gap=float(air_gap) if air_gap else 10.0,
                            pre_wet=pre_wet
                        )
-
+                        
                        pipette.set_custom_parameters(custom_params)
                        print("✅ 自定义参数设置完成")
                    except ValueError:
                        print("❌ 请输入有效的数字")
-
+                
                elif choice == "10":
                    # 校准体积
                    try:
@@ -948,12 +914,12 @@ if __name__ == "__main__":
                        print(f"✅ 校准完成，校准系数: {actual/expected:.3f}")
                    except ValueError:
                        print("❌ 请输入有效的数字")
-
+                
                elif choice == "11":
                    # 重置统计
                    pipette.reset_statistics()
                    print("✅ 统计信息已重置")
-
+                
                elif choice == "12":
                    # 液体类型测试
                    print("\n🧪 液体类型参数对比:")
@@ -963,7 +929,7 @@ if __name__ == "__main__":
                        (LiquidClass.VISCOUS, "粘稠液体"),
                        (LiquidClass.VOLATILE, "挥发性液体")
                    ]
-
+                    
                    for liquid_class, description in liquid_tests:
                        params = pipette.LIQUID_PARAMS[liquid_class]
                        print(f"\n📋 {description} ({liquid_class.value}):")
@@ -972,7 +938,7 @@ if __name__ == "__main__":
                        print(f"  💨 空气间隙: {params.air_gap}ul")
                        print(f"  💧 预润湿: {'是' if params.pre_wet else '否'}")
                        print(f"  ⏱️ 吸液后延时: {params.delay_after_aspirate}s")
-
+                
                elif choice == "99":
                    # 紧急停止
                    print("\n🚨 执行紧急停止...")
@@ -983,19 +949,19 @@ if __name__ == "__main__":
                    else:
                        print("❌ 紧急停止执行失败")
                        print("⚠️ 请手动检查设备状态并采取必要措施")
-
+                    
                    # 紧急停止后询问是否继续
                    continue_choice = input("\n是否继续操作？(y/n): ").strip().lower()
                    if continue_choice != 'y':
                        print("🚪 退出程序")
                        break
-
+                
                else:
                    print("❌ 无效选择，请重新输入")
-
+                
                # 等待用户确认继续
                input("\n按回车键继续...")
-
+            
        except KeyboardInterrupt:
            print("\n\n⚠️ 用户中断操作")
        except Exception as e:
@@ -1008,19 +974,19 @@ if __name__ == "__main__":
                print("✅ 连接已断开")
            except:
                print("⚠️ 断开连接时出现问题")
-
+    
    def demo_test():
        """演示测试模式 - 完整功能演示"""
        print("\n" + "=" * 60)
        print("🎬 移液控制器演示测试")
        print("=" * 60)
-
+        
        try:
            # 创建移液控制器实例
            print("1. 🔧 创建移液控制器实例...")
            pipette = PipetteController(port="/dev/ttyUSB0", address=4)
            print("✅ 移液控制器实例创建成功")
-
+            
            # 连接设备
            print("\n2. 📞 连接移液器设备...")
            if pipette.connect():
@@ -1028,7 +994,7 @@ if __name__ == "__main__":
            else:
                print("❌ 设备连接失败")
                return False
-
+            
            # 初始化设备
            print("\n3. 🚀 初始化设备...")
            if pipette.initialize():
@@ -1036,19 +1002,19 @@ if __name__ == "__main__":
            else:
                print("❌ 设备初始化失败")
                return False
-
+            
            # 装载枪头
            print("\n4. 🔧 装载枪头...")
            if pipette.pickup_tip():
                print("✅ 枪头装载成功")
            else:
                print("❌ 枪头装载失败")
-
+            
            # 设置液体类型
            print("\n5. 🧪 设置液体类型为血清...")
            pipette.set_liquid_class(LiquidClass.SERUM)
            print("✅ 液体类型设置完成")
-
+            
            # 吸液操作
            print("\n6. 💧 执行吸液操作...")
            volume_to_aspirate = 100.0
@@ -1057,7 +1023,7 @@ if __name__ == "__main__":
                print(f"📊 当前体积: {pipette.current_volume}ul")
            else:
                print("❌ 吸液失败")
-
+            
            # 排液操作
            print("\n7. 💦 执行排液操作...")
            volume_to_dispense = 50.0
@@ -1066,14 +1032,14 @@ if __name__ == "__main__":
                print(f"📊 剩余体积: {pipette.current_volume}ul")
            else:
                print("❌ 排液失败")
-
+            
            # 混合操作
            print("\n8. 🌀 执行混合操作...")
            if pipette.mix(cycles=3, volume=30.0):
                print("✅ 混合完成")
            else:
                print("❌ 混合失败")
-
+            
            # 获取状态信息
            print("\n9. 📊 获取设备状态...")
            status = pipette.get_status()
@@ -1086,30 +1052,30 @@ if __name__ == "__main__":
            # print(f"    🔧 枪头使用次数: {status['statistics']['tip_count']}")
            print(f"    ⬆️ 吸液次数: {status['statistics']['aspirate_count']}")
            print(f"    ⬇️ 排液次数: {status['statistics']['dispense_count']}")
-
+            
            # 弹出枪头
            print("\n10. 🗑️ 弹出枪头...")
            if pipette.eject_tip():
                print("✅ 枪头弹出成功")
            else:
                print("❌ 枪头弹出失败")
-
+            
            print("\n" + "=" * 60)
            print("✅ 移液控制器演示测试完成")
            print("=" * 60)
-
+            
            return True
-
+            
        except Exception as e:
            print(f"\n❌ 测试过程中发生异常: {e}")
            return False
-
+            
        finally:
            # 断开连接
            print("\n📞 断开连接...")
            pipette.disconnect()
            print("✅ 连接已断开")
-
+    
    # 主程序入口
    print("🧪 移液器控制器测试程序")
    print("=" * 40)
@@ -1117,9 +1083,9 @@ if __name__ == "__main__":
    print("2. 🎬 演示测试")
    print("0. 🚪 退出")
    print("=" * 40)
-
+    
    mode = input("请选择测试模式 (0-2): ").strip()
-
+    
    if mode == "1":
        interactive_test()
    elif mode == "2":
@@ -1128,7 +1094,7 @@ if __name__ == "__main__":
        print("👋 再见！")
    else:
        print("❌ 无效选择")
-
+    
    print("\n🎉 程序结束！")
    print("\n💡 使用说明:")
    print("1. 确保移液器硬件已正确连接")
--- a/unilabos/devices/liquid_handling/laiyu/laiyu.py
+++ b/unilabos/devices/liquid_handling/laiyu/laiyu.py
@@ -13,7 +13,7 @@ from pylabrobot.liquid_handling import (
    SingleChannelDispense,
    PickupTipRack,
    DropTipRack,
-    MultiHeadAspirationPlate,
+    MultiHeadAspirationPlate, ChatterBoxBackend, LiquidHandlerChatterboxBackend,
 )
 from pylabrobot.liquid_handling.standard import (
    MultiHeadAspirationContainer,
@@ -41,6 +41,12 @@ class TransformXYZDeck(Deck):
        super().__init__(name, size_x, size_y, size_z)
        self.name = name
 class TransformXYZBackend(LiquidHandlerBackend):
    def __init__(self, name: str, host: str, port: int, timeout: float):
        super().__init__()
        self.host = host
        self.port = port
        self.timeout = timeout
 class TransformXYZRvizBackend(UniLiquidHandlerRvizBackend):
    def __init__(self, name: str, channel_num: int):
@@ -80,9 +86,7 @@ class TransformXYZContainer(Plate, TipRack):
 class TransformXYZHandler(LiquidHandlerAbstract):
    support_touch_tip = False
-    def __init__(self, deck: Deck, host: str = "127.0.0.1", port: int = 9999, timeout: float = 10.0, channel_num=1, simulator=True,
+    def __init__(self, deck: Deck, host: str = "127.0.0.1", port: int = 9999, timeout: float = 10.0, channel_num=1, simulator=True, **backend_kwargs):
                 serial_port: str = "/dev/ttyUSB0", baudrate: int = 115200, pipette_address: int = 4,
                 total_height: float = 310, **backend_kwargs):
        # Handle case where deck is passed as a dict (from serialization)
        if isinstance(deck, dict):
            # Try to create a TransformXYZDeck from the dict
@@ -98,22 +102,11 @@ class TransformXYZHandler(LiquidHandlerAbstract):
                deck = TransformXYZDeck(name='deck', size_x=100, size_y=100, size_z=100)
        if simulator:
-            self._unilabos_backend = TransformXYZRvizBackend(name="laiyu", channel_num=channel_num)
+            self._unilabos_backend = TransformXYZRvizBackend(name="laiyu",channel_num=channel_num)
        else:
-            self._unilabos_backend = UniLiquidHandlerLaiyuBackend(
+            self._unilabos_backend = TransformXYZBackend(name="laiyu",host=host, port=port, timeout=timeout)
                num_channels=channel_num,
                total_height=total_height,
                port=serial_port,
                baudrate=baudrate,
                pipette_address=pipette_address,
            )
        super().__init__(backend=self._unilabos_backend, deck=deck, simulator=simulator, channel_num=channel_num)
    def post_init(self, ros_node):
        super().post_init(ros_node)
        if hasattr(self._unilabos_backend, 'post_init'):
            self._unilabos_backend.post_init(ros_node)
    async def add_liquid(
        self,
        asp_vols: Union[List[float], float],
@@ -135,25 +128,7 @@ class TransformXYZHandler(LiquidHandlerAbstract):
        mix_liquid_height: Optional[float] = None,
        none_keys: List[str] = [],
    ):
-        return await super().add_liquid(
+        pass
            asp_vols=asp_vols,
            dis_vols=dis_vols,
            reagent_sources=reagent_sources,
            targets=targets,
            use_channels=use_channels,
            flow_rates=flow_rates,
            offsets=offsets,
            liquid_height=liquid_height,
            blow_out_air_volume=blow_out_air_volume,
            spread=spread,
            is_96_well=is_96_well,
            delays=delays,
            mix_time=mix_time,
            mix_vol=mix_vol,
            mix_rate=mix_rate,
            mix_liquid_height=mix_liquid_height,
            none_keys=none_keys,
        )
    async def aspirate(
        self,
@@ -167,17 +142,7 @@ class TransformXYZHandler(LiquidHandlerAbstract):
        spread: Literal["wide", "tight", "custom"] = "wide",
        **backend_kwargs,
    ):
-        return await super().aspirate(
+        pass
            resources=resources,
            vols=vols,
            use_channels=use_channels,
            flow_rates=flow_rates,
            offsets=offsets,
            liquid_height=liquid_height,
            blow_out_air_volume=blow_out_air_volume,
            spread=spread,
            **backend_kwargs,
        )
    async def dispense(
        self,
@@ -191,17 +156,7 @@ class TransformXYZHandler(LiquidHandlerAbstract):
        spread: Literal["wide", "tight", "custom"] = "wide",
        **backend_kwargs,
    ):
-        return await super().dispense(
+        pass
            resources=resources,
            vols=vols,
            use_channels=use_channels,
            flow_rates=flow_rates,
            offsets=offsets,
            liquid_height=liquid_height,
            blow_out_air_volume=blow_out_air_volume,
            spread=spread,
            **backend_kwargs,
        )
    async def drop_tips(
        self,
@@ -211,13 +166,7 @@ class TransformXYZHandler(LiquidHandlerAbstract):
        allow_nonzero_volume: bool = False,
        **backend_kwargs,
    ):
-        return await super().drop_tips(
+        pass
            tip_spots=tip_spots,
            use_channels=use_channels,
            offsets=offsets,
            allow_nonzero_volume=allow_nonzero_volume,
            **backend_kwargs,
        )
    async def mix(
        self,
@@ -229,15 +178,7 @@ class TransformXYZHandler(LiquidHandlerAbstract):
        mix_rate: Optional[float] = None,
        none_keys: List[str] = [],
    ):
-        return await super().mix(
+        pass
            targets=targets,
            mix_time=mix_time,
            mix_vol=mix_vol,
            height_to_bottom=height_to_bottom,
            offsets=offsets,
            mix_rate=mix_rate,
            none_keys=none_keys,
        )
    async def pick_up_tips(
        self,
@@ -246,12 +187,7 @@ class TransformXYZHandler(LiquidHandlerAbstract):
        offsets: Optional[List[Coordinate]] = None,
        **backend_kwargs,
    ):
-        return await super().pick_up_tips(
+        pass
            tip_spots=tip_spots,
            use_channels=use_channels,
            offsets=offsets,
            **backend_kwargs,
        )
    async def transfer_liquid(
        self,
@@ -278,26 +214,5 @@ class TransformXYZHandler(LiquidHandlerAbstract):
        delays: Optional[List[int]] = None,
        none_keys: List[str] = [],
    ):
-        return await super().transfer_liquid(
+        pass
-            sources=sources,
+    
            targets=targets,
            tip_racks=tip_racks,
            use_channels=use_channels,
            asp_vols=asp_vols,
            dis_vols=dis_vols,
            asp_flow_rates=asp_flow_rates,
            dis_flow_rates=dis_flow_rates,
            offsets=offsets,
            touch_tip=touch_tip,
            liquid_height=liquid_height,
            blow_out_air_volume=blow_out_air_volume,
            spread=spread,
            is_96_well=is_96_well,
            mix_stage=mix_stage,
            mix_times=mix_times,
            mix_vol=mix_vol,
            mix_rate=mix_rate,
            mix_liquid_height=mix_liquid_height,
            delays=delays,
            none_keys=none_keys,
        )
--- a/unilabos/devices/liquid_handling/liquid_handler_abstract.py
+++ b/unilabos/devices/liquid_handling/liquid_handler_abstract.py
@@ -57,18 +57,6 @@ class TransferLiquidReturn(TypedDict):
    targets: List[List[ResourceDict]]
 class SetLiquidReturn(TypedDict):
    wells: list
    volumes: list
 class SetLiquidFromPlateReturn(TypedDict):
    plate: list
    wells: list
    volumes: list
 class LiquidHandlerMiddleware(LiquidHandler):
    def __init__(
        self, backend: LiquidHandlerBackend, deck: Deck, simulator: bool = False, channel_num: int = 8, **kwargs
--- a/unilabos/devices/motor/ZDT_X42.py
+++ b/unilabos/devices/motor/ZDT_X42.py
@@ -1,376 +0,0 @@
 # -*- coding: utf-8 -*-
 """
 ZDT X42 Closed-Loop Stepper Motor Driver
 RS485 Serial Communication via USB-Serial Converter
 - Baudrate: 115200
 """
 import serial
 import time
 import threading
 import struct
 import logging
 from typing import Optional, Any
 try:
    from unilabos.device_comms.universal_driver import UniversalDriver
 except ImportError:
    class UniversalDriver:
        def __init__(self, *args, **kwargs):
            self.logger = logging.getLogger(self.__class__.__name__)
        def execute_command_from_outer(self, command: Any): pass
 from serial.rs485 import RS485Settings
 class ZDTX42Driver(UniversalDriver):
    """
    ZDT X42 闭环步进电机驱动器
    支持功能:
    - 速度模式运行
    - 位置模式运行 (相对/绝对)
    - 位置读取和清零
    - 使能/禁用控制
    通信协议:
    - 帧格式: [设备ID] [功能码] [数据...] [校验位=0x6B]
    - 响应长度根据功能码决定
    """
    def __init__(
        self,
        port: str,
        baudrate: int = 115200,
        device_id: int = 1,
        timeout: float = 0.5,
        debug: bool = False
    ):
        """
        初始化 ZDT X42 电机驱动
        Args:
            port: 串口设备路径
            baudrate: 波特率 (默认 115200)
            device_id: 设备地址 (1-255)
            timeout: 通信超时时间(秒)
            debug: 是否启用调试输出
        """
        super().__init__()
        self.id = device_id
        self.debug = debug
        self.lock = threading.RLock()
        self.status = "idle"         # 对应注册表中的 status (str)
        self.position = 0             # 对应注册表中的 position (int)
        try:
            self.ser = serial.Serial(
                port=port,
                baudrate=baudrate,
                timeout=timeout,
                bytesize=serial.EIGHTBITS,
                parity=serial.PARITY_NONE,
                stopbits=serial.STOPBITS_ONE
            )
            # 启用 RS485 模式
            try:
                self.ser.rs485_mode = RS485Settings(
                    rts_level_for_tx=True,
                    rts_level_for_rx=False
                )
            except Exception:
                pass  # RS485 模式是可选的
            self.logger.info(
                f"ZDT X42 Motor connected: {port} "
                f"(Baud: {baudrate}, ID: {device_id})"
            )
            # 自动使能电机，确保初始状态可运动
            self.enable(True)
            # 启动背景轮询线程，确保 position 实时刷新
            self._stop_event = threading.Event()
            self._polling_thread = threading.Thread(
                target=self._update_loop,
                name=f"ZDTPolling_{port}",
                daemon=True
            )
            self._polling_thread.start()
        except Exception as e:
            self.logger.error(f"Failed to open serial port {port}: {e}")
            self.ser = None
    def _update_loop(self):
        """背景循环读取电机位置"""
        while not self._stop_event.is_set():
            try:
                self.get_position()
            except Exception as e:
                if self.debug:
                    self.logger.error(f"Polling error: {e}")
            time.sleep(1.0) # 每1秒刷新一次位置数据
    def _send(self, func_code: int, payload: list) -> bytes:
        """
        发送指令并接收响应
        Args:
            func_code: 功能码
            payload: 数据负载 (list of bytes)
        Returns:
            响应数据 (bytes)
        """
        if not self.ser:
            self.logger.error("Serial port not available")
            return b""
        with self.lock:
            # 清空输入缓冲区
            self.ser.reset_input_buffer()
            # 构建消息: [ID] [功能码] [数据...] [校验位=0x6B]
            message = bytes([self.id, func_code] + payload + [0x6B])
            # 发送
            self.ser.write(message)
            # 根据功能码决定响应长度
            # 查询类指令返回 10 字节，控制类指令返回 4 字节
            read_len = 10 if func_code in [0x31, 0x32, 0x35, 0x24, 0x27] else 4
            response = self.ser.read(read_len)
            # 调试输出
            if self.debug:
                sent_hex = message.hex().upper()
                recv_hex = response.hex().upper() if response else 'TIMEOUT'
                print(f"[ID {self.id}] TX: {sent_hex} → RX: {recv_hex}")
            return response
    def enable(self, on: bool = True) -> bool:
        """
        使能/禁用电机
        Args:
            on: True=使能(锁轴), False=禁用(松轴)
        Returns:
            是否成功
        """
        state = 1 if on else 0
        resp = self._send(0xF3, [0xAB, state, 0])
        return len(resp) >= 4
    def move_speed(
        self,
        speed_rpm: int,
        direction: str = "CW",
        acceleration: int = 10
    ) -> bool:
        """
        速度模式运行
        Args:
            speed_rpm: 转速 (RPM)
            direction: 方向 ("CW"=顺时针, "CCW"=逆时针)
            acceleration: 加速度 (0-255)
        Returns:
            是否成功
        """
        dir_val = 0 if direction.upper() in ["CW", "顺时针"] else 1
        speed_bytes = struct.pack('>H', int(speed_rpm))
        self.status = f"moving@{speed_rpm}rpm"
        resp = self._send(0xF6, [dir_val, speed_bytes[0], speed_bytes[1], acceleration, 0])
        return len(resp) >= 4
    def move_position(
        self,
        pulses: int,
        speed_rpm: int,
        direction: str = "CW",
        acceleration: int = 10,
        absolute: bool = False
    ) -> bool:
        """
        位置模式运行
        Args:
            pulses: 脉冲数
            speed_rpm: 转速 (RPM)
            direction: 方向 ("CW"=顺时针, "CCW"=逆时针)
            acceleration: 加速度 (0-255)
            absolute: True=绝对位置, False=相对位置
        Returns:
            是否成功
        """
        dir_val = 0 if direction.upper() in ["CW", "顺时针"] else 1
        speed_bytes = struct.pack('>H', int(speed_rpm))
        self.status = f"moving_to_{pulses}"
        pulse_bytes = struct.pack('>I', int(pulses))
        abs_flag = 1 if absolute else 0
        payload = [
            dir_val,
            speed_bytes[0], speed_bytes[1],
            acceleration,
            pulse_bytes[0], pulse_bytes[1], pulse_bytes[2], pulse_bytes[3],
            abs_flag,
            0
        ]
        resp = self._send(0xFD, payload)
        return len(resp) >= 4
    def stop(self) -> bool:
        """
        停止电机
        Returns:
            是否成功
        """
        self.status = "idle"
        resp = self._send(0xFE, [0x98, 0])
        return len(resp) >= 4
    def rotate_quarter(self, speed_rpm: int = 60, direction: str = "CW") -> bool:
        """
        电机旋转 1/4 圈 (阻塞式)
        假设电机细分为 3200 脉冲/圈，1/4 圈 = 800 脉冲
        """
        pulses = 800
        success = self.move_position(pulses=pulses, speed_rpm=speed_rpm, direction=direction, absolute=False)
        if success:
            # 计算预估旋转时间并进行阻塞等待 (Time = revolutions / (RPM/60))
            # 1/4 rev / (RPM/60) = 15.0 / RPM
            estimated_time = 15.0 / max(1, speed_rpm)
            time.sleep(estimated_time + 0.5)  # 额外给 0.5 秒缓冲
            self.status = "idle"
        return success
    def wait_time(self, duration_s: float) -> bool:
        """
        等待指定时间 (秒)
        """
        self.logger.info(f"Waiting for {duration_s} seconds...")
        time.sleep(duration_s)
        return True
    def set_zero(self) -> bool:
        """
        清零当前位置
        Returns:
            是否成功
        """
        resp = self._send(0x0A, [])
        return len(resp) >= 4
    def get_position(self) -> Optional[int]:
        """
        读取当前位置 (脉冲数)
        Returns:
            当前位置脉冲数，失败返回 None
        """
        resp = self._send(0x32, [])
        if len(resp) >= 8:
            # 响应格式: [ID] [Func] [符号位] [数值4字节] [校验]
            sign = resp[2]  # 0=正, 1=负
            value = struct.unpack('>I', resp[3:7])[0]
            self.position = -value if sign == 1 else value
            if self.debug:
                print(f"[Position] Raw: {resp.hex().upper()}, Parsed: {self.position}")
            return self.position
        self.logger.warning("Failed to read position")
        return None
    def close(self):
        """关闭串口连接并停止线程"""
        if hasattr(self, '_stop_event'):
            self._stop_event.set()
        if self.ser and self.ser.is_open:
            self.ser.close()
            self.logger.info("Serial port closed")
 # ============================================================
 # 测试和调试代码
 # ============================================================
 def test_motor():
    """基础功能测试"""
    logging.basicConfig(level=logging.INFO)
    print("="*60)
    print("ZDT X42 电机驱动测试")
    print("="*60)
    driver = ZDTX42Driver(
        port="/dev/tty.usbserial-3110",
        baudrate=115200,
        device_id=2,
        debug=True
    )
    if not driver.ser:
        print("❌ 串口打开失败")
        return
    try:
        # 测试 1: 读取位置
        print("\n[1] 读取当前位置")
        pos = driver.get_position()
        print(f"✓ 当前位置: {pos} 脉冲")
        # 测试 2: 使能
        print("\n[2] 使能电机")
        driver.enable(True)
        time.sleep(0.3)
        print("✓ 电机已锁定")
        # 测试 3: 相对位置运动
        print("\n[3] 相对位置运动 (1000脉冲)")
        driver.move_position(pulses=1000, speed_rpm=60, direction="CW")
        time.sleep(2)
        pos = driver.get_position()
        print(f"✓ 新位置: {pos}")
        # 测试 4: 速度运动
        print("\n[4] 速度模式 (30RPM, 3秒)")
        driver.move_speed(speed_rpm=30, direction="CW")
        time.sleep(3)
        driver.stop()
        pos = driver.get_position()
        print(f"✓ 停止后位置: {pos}")
        # 测试 5: 禁用
        print("\n[5] 禁用电机")
        driver.enable(False)
        print("✓ 电机已松开")
        print("\n" + "="*60)
        print("✅ 测试完成")
        print("="*60)
    except Exception as e:
        print(f"\n❌ 测试失败: {e}")
        import traceback
        traceback.print_exc()
    finally:
        driver.close()
 if __name__ == "__main__":
    test_motor()
--- a/unilabos/devices/separator/chinwe.py
+++ b/unilabos/devices/separator/chinwe.py
@@ -623,119 +623,6 @@ class ChinweDevice(UniversalDriver):
        time.sleep(duration)
        return True
    def separation_step(self, motor_id: int = 5, speed: int = 60, pulses: int = 700,
                       max_cycles: int = 0, timeout: int = 300) -> bool:
        """
        分液步骤 - 液位传感器与电机联动
        当液位传感器检测到"有液"时,电机顺时针旋转指定脉冲数
        当液位传感器检测到"无液"时,电机逆时针旋转指定脉冲数
        :param motor_id: 电机ID (必须在初始化时配置的motor_ids中)
        :param speed: 电机转速 (RPM)
        :param pulses: 每次旋转的脉冲数 (默认700约为1/4圈,假设3200脉冲/圈)
        :param max_cycles: 最大执行循环次数 (0=无限制,默认0)
        :param timeout: 整体超时时间 (秒)
        :return: 成功返回True,超时或失败返回False
        """
        motor_id = int(motor_id)
        speed = int(speed)
        pulses = int(pulses)
        max_cycles = int(max_cycles)
        timeout = int(timeout)
        # 检查电机是否存在
        if motor_id not in self.motors:
            self.logger.error(f"Motor {motor_id} not found in configured motors: {list(self.motors.keys())}")
            return False
        # 检查传感器是否可用
        if not self.sensor:
            self.logger.error("Sensor not initialized")
            return False
        motor = self.motors[motor_id]
        # 停止轮询线程，避免与 separation_step 同时读取传感器造成串口冲突
        self.logger.info("Stopping polling thread for separation_step...")
        self._stop_event.set()
        if self._poll_thread and self._poll_thread.is_alive():
            self._poll_thread.join(timeout=2.0)
        # 使能电机
        self.logger.info(f"Enabling motor {motor_id}...")
        motor.enable(True)
        time.sleep(0.2)
        self.logger.info(f"Starting separation step: motor_id={motor_id}, speed={speed} RPM, "
                        f"pulses={pulses}, max_cycles={max_cycles}, timeout={timeout}s")
        # 记录上一次的液位状态
        last_level = None
        cycle_count = 0
        start_time = time.time()
        error_count = 0
        try:
            while True:
                # 检查超时
                if time.time() - start_time > timeout:
                    self.logger.warning(f"Separation step timeout after {timeout} seconds")
                    return False
                # 检查循环次数限制
                if max_cycles > 0 and cycle_count >= max_cycles:
                    self.logger.info(f"Separation step completed: reached max_cycles={max_cycles}")
                    return True
                # 读取传感器数据
                data = self.sensor.read_level()
                if data is None:
                    error_count += 1
                    if error_count > 5:
                        self.logger.warning("Sensor read failed multiple times, retrying...")
                        error_count = 0
                    time.sleep(0.5)
                    continue
                error_count = 0
                current_level = data['level']
                rssi = data['rssi']
                # 检测状态变化 (包括首次检测)
                if current_level != last_level:
                    cycle_count += 1
                    if current_level:
                        # 有液 -> 电机顺时针旋转
                        self.logger.info(f"[Cycle {cycle_count}] Liquid detected (RSSI={rssi}), "
                                       f"rotating motor {motor_id} clockwise {pulses} pulses")
                        motor.run_position(pulses=pulses, speed_rpm=speed, direction=0, absolute=False)
                        # 等待电机完成 (预估时间)
                        estimated_time = 15.0 / max(1, speed)
                        time.sleep(estimated_time + 0.5)
                    else:
                        # 无液 -> 电机逆时针旋转
                        self.logger.info(f"[Cycle {cycle_count}] No liquid detected (RSSI={rssi}), "
                                       f"rotating motor {motor_id} counter-clockwise {pulses} pulses")
                        motor.run_position(pulses=pulses, speed_rpm=speed, direction=1, absolute=False)
                        # 等待电机完成 (预估时间)
                        estimated_time = 15.0 / max(1, speed)
                        time.sleep(estimated_time + 0.5)
                # 更新状态
                last_level = current_level
                # 轮询间隔
                time.sleep(0.1)
        finally:
            # 恢复轮询线程
            self.logger.info("Restarting polling thread...")
            self._start_polling()
    def execute_command_from_outer(self, command_dict: Dict[str, Any]) -> bool:
        """支持标准 JSON 指令调用"""
        return super().execute_command_from_outer(command_dict)
--- a/unilabos/devices/separator/xkc_sensor.py
+++ b/unilabos/devices/separator/xkc_sensor.py
@@ -1,379 +0,0 @@
 # -*- coding: utf-8 -*-
 """
 XKC RS485 液位传感器 (Modbus RTU)
 说明:
    1. 遵循 Modbus-RTU 协议。
    2. 数据寄存器: 0x0001 (液位状态, 1=有液, 0=无液), 0x0002 (RSSI 信号强度)。
    3. 地址寄存器: 0x0004 (可读写, 范围 1-254)。
    4. 波特率寄存器: 0x0005 (可写, 代码表见 change_baudrate 方法)。
 """
 import struct
 import threading
 import time
 import logging
 import serial
 from typing import Optional, Dict, Any, List
 from unilabos.device_comms.universal_driver import UniversalDriver
 class TransportManager:
    """
    统一通信管理类。
    仅支持 串口 (Serial/有线) 连接。
    """
    def __init__(self, port: str, baudrate: int = 9600, timeout: float = 3.0, logger=None):
        self.port = port
        self.baudrate = baudrate
        self.timeout = timeout
        self.logger = logger
        self.lock = threading.RLock() # 线程锁，确保多设备共用一个连接时不冲突
        self.serial = None
        self._connect_serial()
    def _connect_serial(self):
        try:
            self.serial = serial.Serial(
                port=self.port,
                baudrate=self.baudrate,
                timeout=self.timeout
            )
        except Exception as e:
            raise ConnectionError(f"Serial open failed: {e}")
    def close(self):
        """关闭连接"""
        if self.serial and self.serial.is_open:
            self.serial.close()
    def clear_buffer(self):
        """清空缓冲区 (Thread-safe)"""
        with self.lock:
            if self.serial:
                self.serial.reset_input_buffer()
    def write(self, data: bytes):
        """发送原始字节"""
        with self.lock:
            if self.serial:
                self.serial.write(data)
    def read(self, size: int) -> bytes:
        """读取指定长度字节"""
        if self.serial:
            return self.serial.read(size)
        return b''
 class XKCSensorDriver(UniversalDriver):
    """XKC RS485 液位传感器 (Modbus RTU)"""
    def __init__(self, port: str, baudrate: int = 9600, device_id: int = 6,
                 threshold: int = 300, timeout: float = 3.0, debug: bool = False):
        super().__init__()
        self.port = port
        self.baudrate = baudrate
        self.device_id = device_id
        self.threshold = threshold
        self.timeout = timeout
        self.debug = debug
        self.level = False
        self.rssi = 0
        self.status = {"level": self.level, "rssi": self.rssi}
        try:
            self.transport = TransportManager(port, baudrate, timeout, logger=self.logger)
            self.logger.info(f"XKCSensorDriver connected to {port} (ID: {device_id})")
        except Exception as e:
            self.logger.error(f"Failed to connect XKCSensorDriver: {e}")
            self.transport = None
        # 启动背景轮询线程，确保 status 实时刷新
        self._stop_event = threading.Event()
        self._polling_thread = threading.Thread(
            target=self._update_loop,
            name=f"XKCPolling_{port}",
            daemon=True
        )
        if self.transport:
            self._polling_thread.start()
    def _update_loop(self):
        """背景循环读取传感器数据"""
        while not self._stop_event.is_set():
            try:
                self.read_level()
            except Exception as e:
                if self.debug:
                    self.logger.error(f"Polling error: {e}")
            time.sleep(2.0) # 每2秒刷新一次数据
    def _crc(self, data: bytes) -> bytes:
        crc = 0xFFFF
        for byte in data:
            crc ^= byte
            for _ in range(8):
                if crc & 0x0001: crc = (crc >> 1) ^ 0xA001
                else: crc >>= 1
        return struct.pack('<H', crc)
    def read_level(self) -> Optional[Dict[str, Any]]:
        """
        读取液位。
        返回: {'level': bool, 'rssi': int}
        """
        if not self.transport:
            return None
        with self.transport.lock:
            self.transport.clear_buffer()
            # Modbus Read Registers: 01 03 00 01 00 02 CRC
            payload = struct.pack('>HH', 0x0001, 0x0002)
            msg = struct.pack('BB', self.device_id, 0x03) + payload
            msg += self._crc(msg)
            if self.debug:
                self.logger.info(f"TX (ID {self.device_id}): {msg.hex().upper()}")
            self.transport.write(msg)
            # Read header
            h = self.transport.read(3) # Addr, Func, Len
            if self.debug:
                self.logger.info(f"RX Header: {h.hex().upper()}")
            if len(h) < 3: return None
            length = h[2]
            # Read body + CRC
            body = self.transport.read(length + 2)
            if self.debug:
                self.logger.info(f"RX Body+CRC: {body.hex().upper()}")
            if len(body) < length + 2:
                # Firmware bug fix specific to some modules
                if len(body) == 4 and length == 4:
                    pass
                else:
                    return None
            data = body[:-2]
            # 根据手册说明:
            # 寄存器 0x0001 (data[0:2]): 液位状态 (00 01 为有液, 00 00 为无液)
            # 寄存器 0x0002 (data[2:4]): 信号强度 RSSI
            hw_level = False
            rssi = 0
            if len(data) >= 4:
                hw_level = ((data[0] << 8) | data[1]) == 1
                rssi = (data[2] << 8) | data[3]
            elif len(data) == 2:
                # 兼容模式: 某些老固件可能只返回 1 个寄存器
                rssi = (data[0] << 8) | data[1]
                hw_level = rssi > self.threshold
            else:
                return None
            # 最终判定: 优先使用硬件层级的 level 判定，但 RSSI 阈值逻辑作为补充/校验
            # 注意: 如果用户显式设置了 THRESHOLD，我们可以在逻辑中做权衡
            self.level = hw_level or (rssi > self.threshold)
            self.rssi = rssi
            result = {
                'level': self.level,
                'rssi': self.rssi
            }
            self.status = result
            return result
    def wait_level(self, target_state: bool, timeout: float = 60.0) -> bool:
        """
        等待液位达到目标状态 (阻塞式)
        """
        self.logger.info(f"Waiting for level: {target_state}")
        start_time = time.time()
        while (time.time() - start_time) < timeout:
            res = self.read_level()
            if res and res.get('level') == target_state:
                return True
            time.sleep(0.5)
        self.logger.warning(f"Wait level timeout ({timeout}s)")
        return False
    def wait_for_liquid(self, target_state: bool, timeout: float = 120.0) -> bool:
        """
        实时检测电导率(RSSI)并等待用户指定的“有液”或“无液”状态。
        一旦检测到符合目标状态，立即返回。
        Args:
            target_state: True 为“有液”, False 为“无液”
            timeout: 最大等待时间(秒)
        """
        state_str = "有液" if target_state else "无液"
        self.logger.info(f"开始实时检测电导率，等待状态: {state_str} (超时: {timeout}s)")
        start_time = time.time()
        while (time.time() - start_time) < timeout:
            res = self.read_level() # 内部已更新 self.level 和 self.rssi
            if res:
                current_level = res.get('level')
                current_rssi = res.get('rssi')
                if current_level == target_state:
                    self.logger.info(f"✅ 检测到目标状态: {state_str} (当前电导率/RSSI: {current_rssi})")
                    return True
                if self.debug:
                    self.logger.debug(f"当前状态: {'有液' if current_level else '无液'}, RSSI: {current_rssi}")
            time.sleep(0.2) # 高频采样
        self.logger.warning(f"❌ 等待 {state_str} 状态超时 ({timeout}s)")
        return False
    def set_threshold(self, threshold: int):
        """设置液位判定阈值"""
        self.threshold = int(threshold)
        self.logger.info(f"Threshold updated to: {self.threshold}")
    def change_device_id(self, new_id: int) -> bool:
        """
        修改设备的 Modbus 从站地址。
        寄存器: 0x0004, 功能码: 0x06
        """
        if not (1 <= new_id <= 254):
            self.logger.error(f"Invalid device ID: {new_id}. Must be 1-254.")
            return False
        self.logger.info(f"Changing device ID from {self.device_id} to {new_id}")
        success = self._write_single_register(0x0004, new_id)
        if success:
            self.device_id = new_id # 更新内存中的地址
            self.logger.info(f"Device ID update command sent successfully (target {new_id}).")
        return success
    def change_baudrate(self, baud_code: int) -> bool:
        """
        更改通讯波特率 (寄存器: 0x0005)。
        设置成功后传感器 LED 会闪烁，通常无数据返回。
        波特率代码对照表 (16进制):
        05: 2400
        06: 4800
        07: 9600 (默认)
        08: 14400
        09: 19200
        0A: 28800
        0C: 57600
        0D: 115200
        0E: 128000
        0F: 256000
        """
        self.logger.info(f"Sending baudrate change command (Code: {baud_code:02X})")
        # 写入寄存器 0x0005
        self._write_single_register(0x0005, baud_code)
        self.logger.info("Baudrate change command executed. Device LED should flash. Please update connection settings.")
        return True
    def factory_reset(self) -> bool:
        """
        恢复出厂设置 (通过广播地址 FF)。
        设置地址为 01，逻辑为向 0x0004 写入 0x0002
        """
        self.logger.info("Sending factory reset command via broadcast address FF...")
        # 广播指令通常无回显
        self._write_single_register(0x0004, 0x0002, slave_id=0xFF)
        self.logger.info("Factory reset command sent. Device address should be 01 now.")
        return True
    def _write_single_register(self, reg_addr: int, value: int, slave_id: Optional[int] = None) -> bool:
        """内部辅助函数: Modbus 功能码 06 写单个寄存器"""
        if not self.transport: return False
        target_id = slave_id if slave_id is not None else self.device_id
        msg = struct.pack('BBHH', target_id, 0x06, reg_addr, value)
        msg += self._crc(msg)
        with self.transport.lock:
            self.transport.clear_buffer()
            if self.debug:
                self.logger.info(f"TX Write (Reg {reg_addr:#06x}): {msg.hex().upper()}")
            self.transport.write(msg)
            # 广播地址、波特率修改或厂家特定指令可能无回显
            if target_id == 0xFF or reg_addr == 0x0005:
                time.sleep(0.5)
                return True
            # 等待返回 (正常应返回相同报文)
            resp = self.transport.read(len(msg))
            if self.debug:
                self.logger.info(f"RX Write Response: {resp.hex().upper()}")
            return resp == msg
    def close(self):
        if self.transport:
            self.transport.close()
 if __name__ == "__main__":
    # 快速实例化测试
    import logging
    # 减少冗余日志，仅显示重要信息
    logging.basicConfig(level=logging.INFO, format='%(levelname)s: %(message)s')
    # 硬件配置 (根据实际情况修改)
    TEST_PORT = "/dev/tty.usbserial-3110"
    SLAVE_ID = 1
    THRESHOLD = 300
    print("\n" + "="*50)
    print(f"  XKC RS485 传感器独立测试程序")
    print(f"  端口: {TEST_PORT} | 地址: {SLAVE_ID} | 阈值: {THRESHOLD}")
    print("="*50)
    sensor = XKCSensorDriver(port=TEST_PORT, device_id=SLAVE_ID, threshold=THRESHOLD, debug=False)
    try:
        if sensor.transport:
            print(f"\n开始实时连续采样测试 (持续 15 秒)...")
            print(f"按 Ctrl+C 可提前停止\n")
            start_time = time.time()
            duration = 15
            count = 0
            while time.time() - start_time < duration:
                count += 1
                res = sensor.read_level()
                if res:
                    rssi = res['rssi']
                    level = res['level']
                    status_str = "【有液】" if level else "【无液】"
                    # 使用 \r 实现单行刷新显示 (或者不刷，直接打印历史)
                    # 为了方便查看变化，我们直接打印
                    elapsed = time.time() - start_time
                    print(f" [{elapsed:4.1f}s] 采样 {count:<3}: 电导率/RSSI = {rssi:<5} | 判定结果: {status_str}")
                else:
                    print(f" [{time.time()-start_time:4.1f}s] 采样 {count:<3}: 通信失败 (无响应)")
                time.sleep(0.5) # 每秒采样 2 次
            print(f"\n--- 15 秒采样测试完成 (总计 {count} 次) ---")
            # [3] 测试动态修改阈值
            print(f"\n[3] 动态修改阈值演示...")
            new_threshold = 400
            sensor.set_threshold(new_threshold)
            res = sensor.read_level()
            if res:
                print(f"  采样 (当前阈值={new_threshold}): 电导率/RSSI = {res['rssi']:<5} | 判定结果: {'【有液】' if res['level'] else '【无液】'}")
            sensor.set_threshold(THRESHOLD) # 还原
    except KeyboardInterrupt:
        print("\n[!] 用户中断测试")
    except Exception as e:
        print(f"\n[!] 测试运行出错: {e}")
    finally:
        sensor.close()
        print("\n--- 测试程序已退出 ---\n")
--- a/unilabos/devices/virtual/workbench.py
+++ b/unilabos/devices/virtual/workbench.py
@@ -14,20 +14,30 @@ Virtual Workbench Device - 模拟工作台设备
 import logging
 import time
 from typing import Dict, Any, Optional, List
 from dataclasses import dataclass
 from enum import Enum
 from threading import Lock, RLock
 from typing import Any, Dict, List, Optional, cast
 from typing_extensions import TypedDict
 from unilabos.registry.decorators import (
-    device, action, ActionInputHandle, ActionOutputHandle, DataSource, topic_config, not_action, NodeType
+    ActionInputHandle,
    ActionOutputHandle,
    DataSource,
    NodeType,
    action,
    device,
    not_action,
    topic_config,
 )
 from unilabos.registry.placeholder_type import ResourceSlot, DeviceSlot
 from unilabos.ros.nodes.base_device_node import BaseROS2DeviceNode, ROS2DeviceNode
-from unilabos.resources.resource_tracker import SampleUUIDsType, LabSample, ResourceTreeSet
+from unilabos.resources.resource_tracker import (
-
+    SampleUUIDsType,
    LabSample,
    ResourceTreeSet,
 )
 # ============ TypedDict 返回类型定义 ============
@@ -112,6 +122,7 @@ class HeatingStation:
@device(
    id="virtual_workbench",
    display_name="虚拟工作台",
    category=["virtual_device"],
    description="Virtual Workbench with 1 robotic arm and 3 heating stations for concurrent material processing",
 )
@@ -137,7 +148,19 @@ class VirtualWorkbench:
    HEATING_TIME: float = 60.0  # 加热时间(秒)
    NUM_HEATING_STATIONS: int = 3  # 加热台数量
-    def __init__(self, device_id: Optional[str] = None, config: Optional[Dict[str, Any]] = None, **kwargs):
+    def __init__(
        self,
        device_id: Optional[str] = None,
        config: Optional[Dict[str, Any]] = None,
        **kwargs,
    ):
        """
        初始化虚拟工作台。
        Args:
            device_id[设备ID]: 工作台设备实例 ID，默认使用 virtual_workbench。
            config[设备配置]: 可包含 arm_operation_time、heating_time、num_heating_stations。
        """
        # 处理可能的不同调用方式
        if device_id is None and "id" in kwargs:
            device_id = kwargs.pop("id")
@@ -151,9 +174,13 @@ class VirtualWorkbench:
        self.data: Dict[str, Any] = {}
        # 从config中获取可配置参数
-        self.ARM_OPERATION_TIME = float(self.config.get("arm_operation_time", self.ARM_OPERATION_TIME))
+        self.ARM_OPERATION_TIME = float(
            self.config.get("arm_operation_time", self.ARM_OPERATION_TIME)
        )
        self.HEATING_TIME = float(self.config.get("heating_time", self.HEATING_TIME))
-        self.NUM_HEATING_STATIONS = int(self.config.get("num_heating_stations", self.NUM_HEATING_STATIONS))
+        self.NUM_HEATING_STATIONS = int(
            self.config.get("num_heating_stations", self.NUM_HEATING_STATIONS)
        )
        # 机械臂状态和锁
        self._arm_lock = Lock()
@@ -162,7 +189,8 @@ class VirtualWorkbench:
        # 加热台状态
        self._heating_stations: Dict[int, HeatingStation] = {
-            i: HeatingStation(station_id=i) for i in range(1, self.NUM_HEATING_STATIONS + 1)
+            i: HeatingStation(station_id=i)
            for i in range(1, self.NUM_HEATING_STATIONS + 1)
        }
        self._stations_lock = RLock()
@@ -292,45 +320,113 @@ class VirtualWorkbench:
        self.logger.info(f"机械臂已释放 (完成: {task})")
    @action(
-        always_free=True, node_type=NodeType.MANUAL_CONFIRM, placeholder_keys={
+        always_free=True,
-            "assignee_user_ids": "unilabos_manual_confirm"
+        node_type=NodeType.MANUAL_CONFIRM,
-        }, goal_default={
+        placeholder_keys={"assignee_user_ids": "unilabos_manual_confirm"},
-            "timeout_seconds": 3600,
+        goal_default={"timeout_seconds": 3600, "assignee_user_ids": []},
-            "assignee_user_ids": []
+        feedback_interval=300,
        }, feedback_interval=300,
        handles=[
-            ActionInputHandle(key="target_device", data_type="device_id",
+            ActionInputHandle(
-                              label="目标设备", data_key="target_device", data_source=DataSource.HANDLE),
+                key="target_device",
-            ActionInputHandle(key="resource", data_type="resource",
+                data_type="device_id",
-                              label="待转移资源", data_key="resource", data_source=DataSource.HANDLE),
+                label="目标设备",
-            ActionInputHandle(key="mount_resource", data_type="resource",
+                data_key="target_device",
-                              label="目标孔位", data_key="mount_resource", data_source=DataSource.HANDLE),
+                data_source=DataSource.HANDLE,
-
+            ),
-            ActionInputHandle(key="collector_mass", data_type="collector_mass",
+            ActionInputHandle(
-                              label="极流体质量", data_key="collector_mass", data_source=DataSource.HANDLE),
+                key="resource",
-            ActionInputHandle(key="active_material", data_type="active_material",
+                data_type="resource",
-                              label="活性物质含量", data_key="active_material", data_source=DataSource.HANDLE),
+                label="待转移资源",
-            ActionInputHandle(key="capacity", data_type="capacity",
+                data_key="resource",
-                              label="克容量", data_key="capacity", data_source=DataSource.HANDLE),
+                data_source=DataSource.HANDLE,
-            ActionInputHandle(key="battery_system", data_type="battery_system",
+            ),
-                              label="电池体系", data_key="battery_system", data_source=DataSource.HANDLE),
+            ActionInputHandle(
                key="mount_resource",
                data_type="resource",
                label="目标孔位",
                data_key="mount_resource",
                data_source=DataSource.HANDLE,
            ),
            ActionInputHandle(
                key="collector_mass",
                data_type="collector_mass",
                label="极流体质量",
                data_key="collector_mass",
                data_source=DataSource.HANDLE,
            ),
            ActionInputHandle(
                key="active_material",
                data_type="active_material",
                label="活性物质含量",
                data_key="active_material",
                data_source=DataSource.HANDLE,
            ),
            ActionInputHandle(
                key="capacity",
                data_type="capacity",
                label="克容量",
                data_key="capacity",
                data_source=DataSource.HANDLE,
            ),
            ActionInputHandle(
                key="battery_system",
                data_type="battery_system",
                label="电池体系",
                data_key="battery_system",
                data_source=DataSource.HANDLE,
            ),
            # transfer使用
-            ActionOutputHandle(key="target_device", data_type="device_id",
+            ActionOutputHandle(
-                               label="目标设备", data_key="target_device", data_source=DataSource.EXECUTOR),
+                key="target_device",
-            ActionOutputHandle(key="resource", data_type="resource",
+                data_type="device_id",
-                              label="待转移资源", data_key="resource.@flatten", data_source=DataSource.EXECUTOR),
+                label="目标设备",
-            ActionOutputHandle(key="mount_resource", data_type="resource",
+                data_key="target_device",
-                              label="目标孔位", data_key="mount_resource.@flatten", data_source=DataSource.EXECUTOR),
+                data_source=DataSource.EXECUTOR,
            ),
            ActionOutputHandle(
                key="resource",
                data_type="resource",
                label="待转移资源",
                data_key="resource.@flatten",
                data_source=DataSource.EXECUTOR,
            ),
            ActionOutputHandle(
                key="mount_resource",
                data_type="resource",
                label="目标孔位",
                data_key="mount_resource.@flatten",
                data_source=DataSource.EXECUTOR,
            ),
            # test使用
-            ActionOutputHandle(key="collector_mass", data_type="collector_mass",
+            ActionOutputHandle(
-                              label="极流体质量", data_key="collector_mass", data_source=DataSource.EXECUTOR),
+                key="collector_mass",
-            ActionOutputHandle(key="active_material", data_type="active_material",
+                data_type="collector_mass",
-                              label="活性物质含量", data_key="active_material", data_source=DataSource.EXECUTOR),
+                label="极流体质量",
-            ActionOutputHandle(key="capacity", data_type="capacity",
+                data_key="collector_mass",
-                              label="克容量", data_key="capacity", data_source=DataSource.EXECUTOR),
+                data_source=DataSource.EXECUTOR,
-            ActionOutputHandle(key="battery_system", data_type="battery_system",
+            ),
-                              label="电池体系", data_key="battery_system", data_source=DataSource.EXECUTOR),
+            ActionOutputHandle(
-        ]
+                key="active_material",
                data_type="active_material",
                label="活性物质含量",
                data_key="active_material",
                data_source=DataSource.EXECUTOR,
            ),
            ActionOutputHandle(
                key="capacity",
                data_type="capacity",
                label="克容量",
                data_key="capacity",
                data_source=DataSource.EXECUTOR,
            ),
            ActionOutputHandle(
                key="battery_system",
                data_type="battery_system",
                label="电池体系",
                data_key="battery_system",
                data_source=DataSource.EXECUTOR,
            ),
        ],
    )
    def manual_confirm(
        self,
@@ -343,67 +439,156 @@ class VirtualWorkbench:
        battery_system: List[str],
        timeout_seconds: int,
        assignee_user_ids: list[str],
-        **kwargs
+        **kwargs,
    ) -> dict:
        """
-        timeout_seconds: 超时时间（秒），默认3600秒
+        人工确认资源转移和扣电测试参数。
-        collector_mass: 极流体质量
+
-        active_material: 活性物质含量
+        Args:
-        capacity: 克容量（mAh/g）
+            resource[待转移资源]: 需要人工确认的资源列表。
-        battery_system: 电池体系
+            target_device[目标设备]: 资源要转移到的目标设备 ID。
-        修改的结果无效，是只读的
+            mount_resource[目标孔位]: 资源要挂载到的目标孔位列表。
            collector_mass[极流体质量]: 每个样品对应的极流体质量。
            active_material[活性物质含量]: 每个样品对应的活性物质含量。
            capacity[克容量]: 每个样品对应的克容量，单位 mAh/g。
            battery_system[电池体系]: 每个样品对应的电池体系名称。
            timeout_seconds[超时时间]: 人工确认超时时间，单位秒。
            assignee_user_ids[确认人]: 指定处理人工确认任务的用户 ID 列表。
        Note:
            修改的结果无效，是只读的。
        """
-        resource = ResourceTreeSet.from_plr_resources(resource).dump()
+        resource_tree = ResourceTreeSet.from_plr_resources(cast(Any, resource)).dump()
-        mount_resource = ResourceTreeSet.from_plr_resources(mount_resource).dump()
+        mount_resource_tree = ResourceTreeSet.from_plr_resources(cast(Any, mount_resource)).dump()
        kwargs.update(locals())
        kwargs.pop("kwargs")
        kwargs.pop("self")
        kwargs["resource"] = resource_tree
        kwargs["mount_resource"] = mount_resource_tree
        kwargs.pop("resource_tree")
        kwargs.pop("mount_resource_tree")
        return kwargs
    @action(
        description="转移物料",
        handles=[
-            ActionInputHandle(key="target_device", data_type="device_id",
+            ActionInputHandle(
-                              label="目标设备", data_key="target_device", data_source=DataSource.HANDLE),
+                key="target_device",
-            ActionInputHandle(key="resource", data_type="resource",
+                data_type="device_id",
-                               label="待转移资源", data_key="resource", data_source=DataSource.HANDLE),
+                label="目标设备",
-            ActionInputHandle(key="mount_resource", data_type="resource",
+                data_key="target_device",
-                               label="目标孔位", data_key="mount_resource", data_source=DataSource.HANDLE),
+                data_source=DataSource.HANDLE,
-        ]
+            ),
            ActionInputHandle(
                key="resource",
                data_type="resource",
                label="待转移资源",
                data_key="resource",
                data_source=DataSource.HANDLE,
            ),
            ActionInputHandle(
                key="mount_resource",
                data_type="resource",
                label="目标孔位",
                data_key="mount_resource",
                data_source=DataSource.HANDLE,
            ),
        ],
    )
-    async def transfer(self, resource: List[ResourceSlot], target_device: DeviceSlot, mount_resource: List[ResourceSlot]):
+    async def transfer(
-        future = ROS2DeviceNode.run_async_func(self._ros_node.transfer_resource_to_another, True,
+        self,
        resource: List[ResourceSlot],
        target_device: DeviceSlot,
        mount_resource: List[ResourceSlot],
    ):
        """
        转移资源到目标设备。
        Args:
            resource[待转移资源]: 待转移的资源列表。
            target_device[目标设备]: 接收资源的目标设备 ID。
            mount_resource[目标孔位]: 目标设备上的挂载孔位列表。
        """
        future = ROS2DeviceNode.run_async_func(
            self._ros_node.transfer_resource_to_another,
            True,
            **{
                "plr_resources": resource,
                "target_device_id": target_device,
                "target_resources": mount_resource,
                "sites": [None] * len(mount_resource),
-            })
+            },
        )
        result = await future
        return result
    @action(
        description="扣电测试启动",
        handles=[
-            ActionInputHandle(key="resource", data_type="resource",
+            ActionInputHandle(
-                              label="待转移资源", data_key="resource", data_source=DataSource.HANDLE),
+                key="resource",
-            ActionInputHandle(key="mount_resource", data_type="resource",
+                data_type="resource",
-                              label="目标孔位", data_key="mount_resource", data_source=DataSource.HANDLE),
+                label="待转移资源",
-
+                data_key="resource",
-            ActionInputHandle(key="collector_mass", data_type="collector_mass",
+                data_source=DataSource.HANDLE,
-                              label="极流体质量", data_key="collector_mass", data_source=DataSource.HANDLE),
+            ),
-            ActionInputHandle(key="active_material", data_type="active_material",
+            ActionInputHandle(
-                              label="活性物质含量", data_key="active_material", data_source=DataSource.HANDLE),
+                key="mount_resource",
-            ActionInputHandle(key="capacity", data_type="capacity",
+                data_type="resource",
-                              label="克容量", data_key="capacity", data_source=DataSource.HANDLE),
+                label="目标孔位",
-            ActionInputHandle(key="battery_system", data_type="battery_system",
+                data_key="mount_resource",
-                              label="电池体系", data_key="battery_system", data_source=DataSource.HANDLE),
+                data_source=DataSource.HANDLE,
-        ]
+            ),
            ActionInputHandle(
                key="collector_mass",
                data_type="collector_mass",
                label="极流体质量",
                data_key="collector_mass",
                data_source=DataSource.HANDLE,
            ),
            ActionInputHandle(
                key="active_material",
                data_type="active_material",
                label="活性物质含量",
                data_key="active_material",
                data_source=DataSource.HANDLE,
            ),
            ActionInputHandle(
                key="capacity",
                data_type="capacity",
                label="克容量",
                data_key="capacity",
                data_source=DataSource.HANDLE,
            ),
            ActionInputHandle(
                key="battery_system",
                data_type="battery_system",
                label="电池体系",
                data_key="battery_system",
                data_source=DataSource.HANDLE,
            ),
        ],
    )
    async def test(
-        self, resource: List[ResourceSlot], mount_resource: List[ResourceSlot],  collector_mass: List[float], active_material: List[float], capacity: List[float], battery_system: list[str]
+        self,
        resource: List[ResourceSlot],
        mount_resource: List[ResourceSlot],
        collector_mass: List[float],
        active_material: List[float],
        capacity: List[float],
        battery_system: list[str],
    ):
        """
        启动扣电测试。
        Args:
            resource[待测试资源]: 需要进行扣电测试的资源列表。
            mount_resource[测试孔位]: 扣电测试使用的目标孔位列表。
            collector_mass[极流体质量]: 每个样品对应的极流体质量。
            active_material[活性物质含量]: 每个样品对应的活性物质含量。
            capacity[克容量]: 每个样品对应的克容量，单位 mAh/g。
            battery_system[电池体系]: 每个样品对应的电池体系名称。
        """
        print(resource)
        print(mount_resource)
        print(collector_mass)
@@ -415,16 +600,11 @@ class VirtualWorkbench:
        auto_prefix=True,
        description="批量准备物料 - 虚拟起始节点, 生成A1-A5物料, 输出5个handle供后续节点使用",
        handles=[
-            ActionOutputHandle(key="channel_1", data_type="workbench_material",
+            ActionOutputHandle(key="channel_1", data_type="workbench_material", label="实验1", data_key="material_1", data_source=DataSource.EXECUTOR),  # noqa: E501
-                         label="实验1", data_key="material_1", data_source=DataSource.EXECUTOR),
+            ActionOutputHandle(key="channel_2", data_type="workbench_material", label="实验2", data_key="material_2", data_source=DataSource.EXECUTOR),  # noqa: E501
-            ActionOutputHandle(key="channel_2", data_type="workbench_material",
+            ActionOutputHandle(key="channel_3", data_type="workbench_material", label="实验3", data_key="material_3", data_source=DataSource.EXECUTOR),  # noqa: E501
-                         label="实验2", data_key="material_2", data_source=DataSource.EXECUTOR),
+            ActionOutputHandle(key="channel_4", data_type="workbench_material", label="实验4", data_key="material_4", data_source=DataSource.EXECUTOR),  # noqa: E501
-            ActionOutputHandle(key="channel_3", data_type="workbench_material",
+            ActionOutputHandle(key="channel_5", data_type="workbench_material", label="实验5", data_key="material_5", data_source=DataSource.EXECUTOR),  # noqa: E501
                         label="实验3", data_key="material_3", data_source=DataSource.EXECUTOR),
            ActionOutputHandle(key="channel_4", data_type="workbench_material",
                         label="实验4", data_key="material_4", data_source=DataSource.EXECUTOR),
            ActionOutputHandle(key="channel_5", data_type="workbench_material",
                         label="实验5", data_key="material_5", data_source=DataSource.EXECUTOR),
        ],
    )
    def prepare_materials(
@@ -437,6 +617,9 @@ class VirtualWorkbench:
        作为工作流的起始节点, 生成指定数量的物料编号供后续节点使用。
        输出5个handle (material_1 ~ material_5), 分别对应实验1~5。
        Args:
            count[物料数量]: 要生成的物料数量，默认生成 5 个。
        """
        materials = [i for i in range(1, count + 1)]
@@ -457,7 +640,11 @@ class VirtualWorkbench:
                LabSample(
                    sample_uuid=sample_uuid,
                    oss_path="",
-                    extra={"material_uuid": content} if isinstance(content, str) else (content.serialize() if content else {}),
+                    extra=(
                        {"material_uuid": content}
                        if isinstance(content, str)
                        else (content.serialize() if content else {})
                    ),
                )
                for sample_uuid, content in sample_uuids.items()
            ],
@@ -467,12 +654,27 @@ class VirtualWorkbench:
        auto_prefix=True,
        description="将物料从An位置移动到空闲加热台, 返回分配的加热台ID",
        handles=[
-            ActionInputHandle(key="material_input", data_type="workbench_material",
+            ActionInputHandle(
-                        label="物料编号", data_key="material_number", data_source=DataSource.HANDLE),
+                key="material_input",
-            ActionOutputHandle(key="heating_station_output", data_type="workbench_station",
+                data_type="workbench_material",
-                         label="加热台ID", data_key="station_id", data_source=DataSource.EXECUTOR),
+                label="物料编号",
-            ActionOutputHandle(key="material_number_output", data_type="workbench_material",
+                data_key="material_number",
-                         label="物料编号", data_key="material_number", data_source=DataSource.EXECUTOR),
+                data_source=DataSource.HANDLE,
            ),
            ActionOutputHandle(
                key="heating_station_output",
                data_type="workbench_station",
                label="加热台ID",
                data_key="station_id",
                data_source=DataSource.EXECUTOR,
            ),
            ActionOutputHandle(
                key="material_number_output",
                data_type="workbench_material",
                label="物料编号",
                data_key="material_number",
                data_source=DataSource.EXECUTOR,
            ),
        ],
    )
    def move_to_heating_station(
@@ -484,6 +686,9 @@ class VirtualWorkbench:
        将物料从An位置移动到加热台
        多线程并发调用时, 会竞争机械臂使用权, 并自动查找空闲加热台
        Args:
            material_number[物料编号]: 要移动的物料编号，对应 A1、A2 等起始位置。
        """
        material_id = f"A{material_number}"
        task_desc = f"移动{material_id}到加热台"
@@ -546,7 +751,8 @@ class VirtualWorkbench:
                        oss_path="",
                        extra=(
                            {"material_uuid": content}
-                            if isinstance(content, str) else (content.serialize() if content else {})
+                            if isinstance(content, str)
                            else (content.serialize() if content else {})
                        ),
                    )
                    for sample_uuid, content in sample_uuids.items()
@@ -569,7 +775,8 @@ class VirtualWorkbench:
                        oss_path="",
                        extra=(
                            {"material_uuid": content}
-                            if isinstance(content, str) else (content.serialize() if content else {})
+                            if isinstance(content, str)
                            else (content.serialize() if content else {})
                        ),
                    )
                    for sample_uuid, content in sample_uuids.items()
@@ -581,14 +788,34 @@ class VirtualWorkbench:
        always_free=True,
        description="启动指定加热台的加热程序",
        handles=[
-            ActionInputHandle(key="station_id_input", data_type="workbench_station",
+            ActionInputHandle(
-                        label="加热台ID", data_key="station_id", data_source=DataSource.HANDLE),
+                key="station_id_input",
-            ActionInputHandle(key="material_number_input", data_type="workbench_material",
+                data_type="workbench_station",
-                        label="物料编号", data_key="material_number", data_source=DataSource.HANDLE),
+                label="加热台ID",
-            ActionOutputHandle(key="heating_done_station", data_type="workbench_station",
+                data_key="station_id",
-                         label="加热完成-加热台ID", data_key="station_id", data_source=DataSource.EXECUTOR),
+                data_source=DataSource.HANDLE,
-            ActionOutputHandle(key="heating_done_material", data_type="workbench_material",
+            ),
-                         label="加热完成-物料编号", data_key="material_number", data_source=DataSource.EXECUTOR),
+            ActionInputHandle(
                key="material_number_input",
                data_type="workbench_material",
                label="物料编号",
                data_key="material_number",
                data_source=DataSource.HANDLE,
            ),
            ActionOutputHandle(
                key="heating_done_station",
                data_type="workbench_station",
                label="加热完成-加热台ID",
                data_key="station_id",
                data_source=DataSource.EXECUTOR,
            ),
            ActionOutputHandle(
                key="heating_done_material",
                data_type="workbench_material",
                label="加热完成-物料编号",
                data_key="material_number",
                data_source=DataSource.EXECUTOR,
            ),
        ],
    )
    def start_heating(
@@ -599,6 +826,10 @@ class VirtualWorkbench:
    ) -> StartHeatingResult:
        """
        启动指定加热台的加热程序
        Args:
            station_id[加热台ID]: 要启动加热的加热台编号。
            material_number[物料编号]: 当前加热台上的物料编号。
        """
        self.logger.info(f"[加热台{station_id}] 开始加热")
@@ -615,7 +846,8 @@ class VirtualWorkbench:
                        oss_path="",
                        extra=(
                            {"material_uuid": content}
-                            if isinstance(content, str) else (content.serialize() if content else {})
+                            if isinstance(content, str)
                            else (content.serialize() if content else {})
                        ),
                    )
                    for sample_uuid, content in sample_uuids.items()
@@ -638,7 +870,8 @@ class VirtualWorkbench:
                            oss_path="",
                            extra=(
                                {"material_uuid": content}
-                                if isinstance(content, str) else (content.serialize() if content else {})
+                                if isinstance(content, str)
                                else (content.serialize() if content else {})
                            ),
                        )
                        for sample_uuid, content in sample_uuids.items()
@@ -658,7 +891,8 @@ class VirtualWorkbench:
                            oss_path="",
                            extra=(
                                {"material_uuid": content}
-                                if isinstance(content, str) else (content.serialize() if content else {})
+                                if isinstance(content, str)
                                else (content.serialize() if content else {})
                            ),
                        )
                        for sample_uuid, content in sample_uuids.items()
@@ -698,7 +932,9 @@ class VirtualWorkbench:
            self._update_data_status(f"加热台{station_id}加热中: {progress:.1f}%")
            if time.time() - last_countdown_log >= 5.0:
-                self.logger.info(f"[加热台{station_id}] {material_id} 剩余 {remaining:.1f}s")
+                self.logger.info(
                    f"[加热台{station_id}] {material_id} 剩余 {remaining:.1f}s"
                )
                last_countdown_log = time.time()
            if elapsed >= self.HEATING_TIME:
@@ -715,7 +951,9 @@ class VirtualWorkbench:
                self._active_tasks[material_id]["status"] = "heating_completed"
        self._update_data_status(f"加热台{station_id}加热完成")
-        self.logger.info(f"[加热台{station_id}] {material_id}加热完成 (用时{self.HEATING_TIME}s)")
+        self.logger.info(
            f"[加热台{station_id}] {material_id}加热完成 (用时{self.HEATING_TIME}s)"
        )
        return {
            "success": True,
@@ -729,7 +967,8 @@ class VirtualWorkbench:
                    oss_path="",
                    extra=(
                        {"material_uuid": content}
-                        if isinstance(content, str) else (content.serialize() if content else {})
+                        if isinstance(content, str)
                        else (content.serialize() if content else {})
                    ),
                )
                for sample_uuid, content in sample_uuids.items()
@@ -740,10 +979,20 @@ class VirtualWorkbench:
        auto_prefix=True,
        description="将物料从加热台移动到输出位置Cn",
        handles=[
-            ActionInputHandle(key="output_station_input", data_type="workbench_station",
+            ActionInputHandle(
-                        label="加热台ID", data_key="station_id", data_source=DataSource.HANDLE),
+                key="output_station_input",
-            ActionInputHandle(key="output_material_input", data_type="workbench_material",
+                data_type="workbench_station",
-                        label="物料编号", data_key="material_number", data_source=DataSource.HANDLE),
+                label="加热台ID",
                data_key="station_id",
                data_source=DataSource.HANDLE,
            ),
            ActionInputHandle(
                key="output_material_input",
                data_type="workbench_material",
                label="物料编号",
                data_key="material_number",
                data_source=DataSource.HANDLE,
            ),
        ],
    )
    def move_to_output(
@@ -754,6 +1003,10 @@ class VirtualWorkbench:
    ) -> MoveToOutputResult:
        """
        将物料从加热台移动到输出位置Cn
        Args:
            station_id[加热台ID]: 已完成加热的加热台编号。
            material_number[物料编号]: 要移动到输出位置的物料编号，对应 Cn。
        """
        output_number = material_number
@@ -770,7 +1023,8 @@ class VirtualWorkbench:
                        oss_path="",
                        extra=(
                            {"material_uuid": content}
-                            if isinstance(content, str) else (content.serialize() if content else {})
+                            if isinstance(content, str)
                            else (content.serialize() if content else {})
                        ),
                    )
                    for sample_uuid, content in sample_uuids.items()
@@ -794,7 +1048,8 @@ class VirtualWorkbench:
                            oss_path="",
                            extra=(
                                {"material_uuid": content}
-                                if isinstance(content, str) else (content.serialize() if content else {})
+                                if isinstance(content, str)
                                else (content.serialize() if content else {})
                            ),
                        )
                        for sample_uuid, content in sample_uuids.items()
@@ -814,7 +1069,8 @@ class VirtualWorkbench:
                            oss_path="",
                            extra=(
                                {"material_uuid": content}
-                                if isinstance(content, str) else (content.serialize() if content else {})
+                                if isinstance(content, str)
                                else (content.serialize() if content else {})
                            ),
                        )
                        for sample_uuid, content in sample_uuids.items()
@@ -896,7 +1152,8 @@ class VirtualWorkbench:
                        oss_path="",
                        extra=(
                            {"material_uuid": content}
-                            if isinstance(content, str) else (content.serialize() if content else {})
+                            if isinstance(content, str)
                            else (content.serialize() if content else {})
                        ),
                    )
                    for sample_uuid, content in sample_uuids.items()
--- a/unilabos/devices/workstation/bioyond_studio/station.py
+++ b/unilabos/devices/workstation/bioyond_studio/station.py
@@ -258,7 +258,7 @@ class BioyondResourceSynchronizer(ResourceSynchronizer):
                logger.info(f"[同步→Bioyond] ➕ 物料不存在于 Bioyond，将创建新物料并入库")
            # 第1步：从配置中获取仓库配置
-            warehouse_mapping = self.workstation.bioyond_config.get("warehouse_mapping", {})
+            warehouse_mapping = self.bioyond_config.get("warehouse_mapping", {})
            # 确定目标仓库名称
            parent_name = None
--- a/unilabos/registry/ast_registry_scanner.py
+++ b/unilabos/registry/ast_registry_scanner.py
@@ -32,7 +32,7 @@ from typing import Any, Dict, List, Optional, Tuple, Union
 MAX_SCAN_DEPTH = 10      # 最大目录递归深度
 MAX_SCAN_FILES = 1000    # 最大扫描文件数量
-_CACHE_VERSION = 1       # 缓存格式版本号，格式变更时递增
+_CACHE_VERSION = 2       # 缓存格式版本号，格式变更时递增
 # 合法的装饰器来源模块
 _REGISTRY_DECORATOR_MODULE = "unilabos.registry.decorators"
@@ -258,8 +258,6 @@ def scan_directory(
    }
 # ---------------------------------------------------------------------------
 # File-level parsing
 # ---------------------------------------------------------------------------
@@ -361,6 +359,7 @@ def _parse_file(
                    "actions": class_body.get("actions", {}),
                    "status_properties": class_body.get("status_properties", {}),
                    "init_params": class_body.get("init_params", []),
                    "init_docstring": class_body.get("init_docstring"),
                    "auto_methods": class_body.get("auto_methods", {}),
                    "import_map": import_map,
                }
@@ -497,7 +496,6 @@ def _collect_imports(tree: ast.Module, module_path: str = "") -> Dict[str, str]:
    return import_map
 # ---------------------------------------------------------------------------
 # Decorator finding & argument extraction
 # ---------------------------------------------------------------------------
@@ -768,6 +766,7 @@ def _extract_class_body(
        "actions": {},          # method_name -> action_info
        "status_properties": {},  # prop_name -> status_info
        "init_params": [],      # [{"name": ..., "type": ..., "default": ...}, ...]
        "init_docstring": None,
        "auto_methods": {},     # method_name -> method_info (no @action decorator)
    }
@@ -780,6 +779,7 @@ def _extract_class_body(
        # --- __init__ ---
        if method_name == "__init__":
            result["init_params"] = _extract_method_params(item, import_map)
            result["init_docstring"] = ast.get_docstring(item)
            continue
        # --- Skip private/dunder ---
--- a/unilabos/registry/devices/Qone_nmr.yaml
+++ b/unilabos/registry/devices/Qone_nmr.yaml
@@ -51,14 +51,18 @@ Qone_nmr:
              properties:
                check_interval:
                  default: 60
                  description: 检查间隔时间（秒），默认60秒
                  type: string
                expected_count:
                  default: 1
                  description: 期望生成的.nmr文件数量，默认1个
                  type: string
                monitor_dir:
                  description: 要监督的目录路径，如果未指定则使用self.monitor_directory
                  type: string
                stability_checks:
                  default: 3
                  description: 文件大小稳定性检查次数，默认3次
                  type: string
              required: []
              type: object
@@ -85,11 +89,14 @@ Qone_nmr:
            goal:
              properties:
                output_dir:
                  description: 输出目录（如果未指定，使用self.output_directory）
                  type: string
                string_list:
                  description: 字符串列表
                  type: string
                txt_encoding:
                  default: utf-8
                  description: 文件编码
                  type: string
              required:
              - string_list
@@ -151,6 +158,13 @@ Qone_nmr:
              additionalProperties: false
              properties:
                string:
                  description: '包含多个字符串的输入数据，支持两种格式：
                    1. 逗号分隔：如 "A 1 B 2 C 3, X 10 Y 20 Z 30"
                    2. 换行分隔：如 "A 1 B 2 C 3
                    X 10 Y 20 Z 30"'
                  type: string
              title: StrSingleInput_Goal
              type: object
--- a/unilabos/registry/devices/bioyond_cell.yaml
+++ b/unilabos/registry/devices/bioyond_cell.yaml
@@ -491,14 +491,17 @@ bioyond_cell:
            goal:
              properties:
                material_names:
                  description: 物料名称列表；默认使用 [LiPF6, LiDFOB, DTD, LiFSI, LiPO2F2]
                  items:
                    type: string
                  type: array
                type_id:
                  default: 3a190ca0-b2f6-9aeb-8067-547e72c11469
                  description: 物料类型ID
                  type: string
                warehouse_name:
                  default: 粉末加样头堆栈
                  description: 目标仓库名（用于取位置信息）
                  type: string
              required: []
              type: object
@@ -527,12 +530,16 @@ bioyond_cell:
            goal:
              properties:
                location_name_or_id:
                  description: 具体库位名称（如 A01）或库位 UUID，由用户指定。
                  type: string
                material_name:
                  description: 物料名称（会优先匹配配置模板）。
                  type: string
                type_id:
                  description: 物料类型 ID（若为空则尝试从配置推断）。
                  type: string
                warehouse_name:
                  description: 需要入库的仓库名称；若为空则仅创建不入库。
                  type: string
              required:
              - material_name
@@ -661,15 +668,20 @@ bioyond_cell:
            goal:
              properties:
                board_type:
                  description: 板类型，如 "5ml分液瓶板"、"配液瓶(小)板"
                  type: string
                bottle_type:
                  description: 瓶类型，如 "5ml分液瓶"、"配液瓶(小)"
                  type: string
                location_code:
                  description: 库位编号，例如 "A01"
                  type: string
                name:
                  description: 物料名称
                  type: string
                warehouse_name:
                  default: 手动堆栈
                  description: 仓库名称，默认为 "手动堆栈"，支持 "自动堆栈-左"、"自动堆栈-右" 等
                  type: string
              required:
              - name
@@ -1956,19 +1968,19 @@ bioyond_cell:
              properties:
                source_wh_id:
                  default: 3a19debc-84b4-0359-e2d4-b3beea49348b
-                  description: 来源仓库ID
+                  description: 来源仓库 Id (默认为3号仓库)
                  type: string
                source_x:
                  default: 1
-                  description: 来源位置X坐标
+                  description: 来源位置 X 坐标
                  type: integer
                source_y:
                  default: 1
-                  description: 来源位置Y坐标
+                  description: 来源位置 Y 坐标
                  type: integer
                source_z:
                  default: 1
-                  description: 来源位置Z坐标
+                  description: 来源位置 Z 坐标
                  type: integer
              required: []
              type: object
@@ -2061,9 +2073,11 @@ bioyond_cell:
            goal:
              properties:
                order_code:
                  description: 任务编号
                  type: string
                timeout:
                  default: 36000
                  description: 超时时间（秒）
                  type: integer
              required:
              - order_code
@@ -2092,12 +2106,15 @@ bioyond_cell:
            goal:
              properties:
                order_code:
                  description: 任务编号
                  type: string
                poll_interval:
                  default: 0.5
                  description: 轮询间隔（秒），默认 0.5 秒
                  type: number
                timeout:
                  default: 36000
                  description: 超时时间（秒）
                  type: integer
              required:
              - order_code
@@ -2154,10 +2171,15 @@ bioyond_cell:
    config:
      properties:
        bioyond_config:
          description: '从 JSON 文件加载的 bioyond 配置字典
            包含 api_host, api_key, HTTP_host, HTTP_port 等配置'
          type: object
        deck:
          description: Deck 配置（可选，会从 JSON 中自动处理）
          type: string
        protocol_type:
          description: 协议类型（可选）
          type: string
      required: []
      type: object
--- a/unilabos/registry/devices/bioyond_dispensing_station.yaml
+++ b/unilabos/registry/devices/bioyond_dispensing_station.yaml
@@ -47,8 +47,10 @@ bioyond_dispensing_station:
            goal:
              properties:
                report_request:
                  description: WorkstationReportRequest 对象，包含任务完成信息
                  type: string
                used_materials:
                  description: 物料使用记录列表
                  type: string
              required:
              - report_request
@@ -102,6 +104,7 @@ bioyond_dispensing_station:
            goal:
              properties:
                material_name:
                  description: 物料名称
                  type: string
              required:
              - material_name
@@ -611,10 +614,10 @@ bioyond_dispensing_station:
            goal:
              properties:
                target_device_id:
-                  description: 目标反应站设备ID（从设备列表中选择，所有转移组都使用同一个目标设备）
+                  description: 目标反应站设备ID(所有转移组使用同一个设备)
                  type: string
                transfer_groups:
-                  description: 转移任务组列表，每组包含物料名称、目标堆栈和目标库位，可以添加多组
+                  description: '转移任务组列表,每组包含:'
                  type: array
              required:
              - target_device_id
@@ -694,10 +697,13 @@ bioyond_dispensing_station:
    config:
      properties:
        config:
          description: 配置字典,应包含material_type_mappings等配置
          type: object
        deck:
          description: Deck对象
          type: string
        protocol_type:
          description: 协议类型(由ROS系统传递,此处忽略)
          type: string
      required: []
      type: object
--- a/unilabos/registry/devices/chinwe.yaml
+++ b/unilabos/registry/devices/chinwe.yaml
@@ -336,47 +336,6 @@ separator.chinwe:
          title: pump_valve参数
          type: object
        type: UniLabJsonCommand
      separation_step:
        goal:
          max_cycles: 0
          motor_id: 5
          pulses: 700
          speed: 60
          timeout: 300
        handles: {}
        schema:
          description: 分液步骤 - 液位传感器与电机联动 (有液→顺时针, 无液→逆时针)
          properties:
            goal:
              properties:
                max_cycles:
                  default: 0
                  description: 最大循环次数 (0=无限制)
                  type: integer
                motor_id:
                  default: '5'
                  description: 选择电机
                  enum:
                  - '4'
                  - '5'
                  title: '注: 4=搅拌, 5=旋钮'
                  type: string
                pulses:
                  default: 700
                  description: 每次旋转脉冲数 (约1/4圈)
                  type: integer
                speed:
                  default: 60
                  description: 电机转速 (RPM)
                  type: integer
                timeout:
                  default: 300
                  description: 超时时间 (秒)
                  type: integer
              required:
              - motor_id
              type: object
        type: UniLabJsonCommand
      wait_sensor_level:
        feedback: {}
        goal:
--- a/unilabos/registry/devices/coin_cell_workstation.yaml
+++ b/unilabos/registry/devices/coin_cell_workstation.yaml
@@ -150,15 +150,15 @@ coincellassemblyworkstation_device:
              properties:
                assembly_pressure:
                  default: 4200
-                  description: 电池压制力(N)
+                  description: 电池压制力 (N)
                  type: integer
                assembly_type:
                  default: 7
-                  description: 组装类型(7=不用铝箔垫, 8=使用铝箔垫)
+                  description: 组装类型 (7=不用铝箔垫, 8=使用铝箔垫)
                  type: integer
                battery_clean_ignore:
                  default: false
-                  description: 是否忽略电池清洁步骤
+                  description: 是否忽略电池清洁
                  type: boolean
                battery_pressure_mode:
                  default: true
@@ -166,29 +166,29 @@ coincellassemblyworkstation_device:
                  type: boolean
                dual_drop_first_volume:
                  default: 25
-                  description: 二次滴液第一次排液体积(μL)
+                  description: 二次滴液第一次排液体积 (μL)
                  type: integer
                dual_drop_mode:
                  default: false
-                  description: 电解液添加模式(false=单次滴液, true=二次滴液)
+                  description: 电解液添加模式 (False=单次滴液, True=二次滴液)
                  type: boolean
                dual_drop_start_timing:
                  default: false
-                  description: 二次滴液开始滴液时机(false=正极片前, true=正极片后)
+                  description: 二次滴液开始滴液时机 (False=正极片前, True=正极片后)
                  type: boolean
                dual_drop_suction_timing:
                  default: false
-                  description: 二次滴液吸液时机(false=正常吸液, true=先吸液)
+                  description: 二次滴液吸液时机 (False=正常吸液, True=先吸液)
                  type: boolean
                elec_num:
                  description: 电解液瓶数
                  type: string
                elec_use_num:
-                  description: 每瓶电解液组装电池数
+                  description: 每瓶电解液组装的电池数
                  type: string
                elec_vol:
                  default: 50
-                  description: 电解液吸液量(μL)
+                  description: 电解液吸液量 (μL)
                  type: integer
                file_path:
                  default: /Users/sml/work
@@ -196,7 +196,7 @@ coincellassemblyworkstation_device:
                  type: string
                fujipian_juzhendianwei:
                  default: 0
-                  description: 负极片矩阵点位。盘位置从1开始计数，有效范围：1-8, 13-20 (写入值比实际位置少1，例如：写0取盘位1，写1取盘位2)
+                  description: 负极片矩阵点位
                  type: integer
                fujipian_panshu:
                  default: 0
@@ -204,7 +204,7 @@ coincellassemblyworkstation_device:
                  type: integer
                gemo_juzhendianwei:
                  default: 0
-                  description: 隔膜矩阵点位。盘位置从1开始计数，有效范围：1-8, 13-20 (写入值比实际位置少1，例如：写0取盘位1，写1取盘位2)
+                  description: 隔膜矩阵点位
                  type: integer
                gemopanshu:
                  default: 0
@@ -216,7 +216,7 @@ coincellassemblyworkstation_device:
                  type: boolean
                qiangtou_juzhendianwei:
                  default: 0
-                  description: 枪头盒矩阵点位。盘位置从1开始计数，有效范围：1-32, 64-96 (写入值比实际位置少1，例如：写0取盘位1，写1取盘位2)
+                  description: 枪头盒矩阵点位
                  type: integer
              required:
              - elec_num
@@ -308,7 +308,13 @@ coincellassemblyworkstation_device:
              properties:
                material_search_enable:
                  default: false
-                  description: 是否启用物料搜寻功能。设备初始化后会弹出物料搜寻确认弹窗，此参数控制自动点击"是"(启用)或"否"(不启用)。默认为false(不启用物料搜寻)
+                  description: '是否启用物料搜寻功能。
                    设备初始化后会弹出物料搜寻确认弹窗，
                    此参数控制自动点击''是''（启用）或''否''（不启用）。
                    默认为False（不启用物料搜寻）。'
                  type: boolean
              required: []
              type: object
@@ -547,15 +553,15 @@ coincellassemblyworkstation_device:
              properties:
                assembly_pressure:
                  default: 4200
-                  description: 电池压制力(N)
+                  description: 电池压制力 (N)
                  type: integer
                assembly_type:
                  default: 7
-                  description: 组装类型(7=不用铝箔垫, 8=使用铝箔垫)
+                  description: 组装类型 (7=不用铝箔垫, 8=使用铝箔垫)
                  type: integer
                battery_clean_ignore:
                  default: false
-                  description: 是否忽略电池清洁步骤
+                  description: 是否忽略电池清洁
                  type: boolean
                battery_pressure_mode:
                  default: true
@@ -563,29 +569,29 @@ coincellassemblyworkstation_device:
                  type: boolean
                dual_drop_first_volume:
                  default: 25
-                  description: 二次滴液第一次排液体积(μL)
+                  description: 二次滴液第一次排液体积 (μL)
                  type: integer
                dual_drop_mode:
                  default: false
-                  description: 电解液添加模式(false=单次滴液, true=二次滴液)
+                  description: 电解液添加模式 (False=单次滴液, True=二次滴液)
                  type: boolean
                dual_drop_start_timing:
                  default: false
-                  description: 二次滴液开始滴液时机(false=正极片前, true=正极片后)
+                  description: 二次滴液开始滴液时机 (False=正极片前, True=正极片后)
                  type: boolean
                dual_drop_suction_timing:
                  default: false
-                  description: 二次滴液吸液时机(false=正常吸液, true=先吸液)
+                  description: 二次滴液吸液时机 (False=正常吸液, True=先吸液)
                  type: boolean
                elec_num:
-                  description: 电解液瓶数，如果在workflow中已通过handles连接上游(create_orders的bottle_count输出)，则此参数会自动从上游获取，无需手动填写；如果单独使用此函数(没有上游连接)，则必须手动填写电解液瓶数
+                  description: 电解液瓶数
                  type: string
                elec_use_num:
-                  description: 每瓶电解液组装电池数
+                  description: 每瓶电解液组装的电池数
                  type: string
                elec_vol:
                  default: 50
-                  description: 电解液吸液量(μL)
+                  description: 电解液吸液量 (μL)
                  type: integer
                file_path:
                  default: /Users/sml/work
@@ -593,7 +599,7 @@ coincellassemblyworkstation_device:
                  type: string
                fujipian_juzhendianwei:
                  default: 0
-                  description: 负极片矩阵点位。盘位置从1开始计数，有效范围：1-8, 13-20 (写入值比实际位置少1，例如：写0取盘位1，写1取盘位2)
+                  description: 负极片矩阵点位
                  type: integer
                fujipian_panshu:
                  default: 0
@@ -601,7 +607,7 @@ coincellassemblyworkstation_device:
                  type: integer
                gemo_juzhendianwei:
                  default: 0
-                  description: 隔膜矩阵点位。盘位置从1开始计数，有效范围：1-8, 13-20 (写入值比实际位置少1，例如：写0取盘位1，写1取盘位2)
+                  description: 隔膜矩阵点位
                  type: integer
                gemopanshu:
                  default: 0
@@ -613,7 +619,7 @@ coincellassemblyworkstation_device:
                  type: boolean
                qiangtou_juzhendianwei:
                  default: 0
-                  description: 枪头盒矩阵点位。盘位置从1开始计数，有效范围：1-32, 64-96 (写入值比实际位置少1，例如：写0取盘位1，写1取盘位2)
+                  description: 枪头盒矩阵点位
                  type: integer
              required:
              - elec_num
--- a/unilabos/registry/devices/laiyu_liquid_test.yaml
+++ b/unilabos/registry/devices/laiyu_liquid_test.yaml
@@ -18,6 +18,7 @@ xyz_stepper_controller:
            goal:
              properties:
                degrees:
                  description: 角度值
                  type: number
              required:
              - degrees
@@ -44,6 +45,7 @@ xyz_stepper_controller:
            goal:
              properties:
                axis:
                  description: 电机轴
                  type: object
              required:
              - axis
@@ -71,6 +73,7 @@ xyz_stepper_controller:
              properties:
                enable:
                  default: true
                  description: True为使能，False为失能
                  type: boolean
              required: []
              type: object
@@ -99,9 +102,11 @@ xyz_stepper_controller:
            goal:
              properties:
                axis:
                  description: 电机轴
                  type: object
                enable:
                  default: true
                  description: True为使能，False为失能
                  type: boolean
              required:
              - axis
@@ -152,6 +157,7 @@ xyz_stepper_controller:
            goal:
              properties:
                axis:
                  description: 电机轴
                  type: object
              required:
              - axis
@@ -183,16 +189,21 @@ xyz_stepper_controller:
              properties:
                acceleration:
                  default: 1000
                  description: 加速度(rpm/s)
                  type: integer
                axis:
                  description: 电机轴
                  type: object
                position:
                  description: 目标位置(步数)
                  type: integer
                precision:
                  default: 100
                  description: 到位精度
                  type: integer
                speed:
                  default: 5000
                  description: 运行速度(rpm)
                  type: integer
              required:
              - axis
@@ -225,16 +236,21 @@ xyz_stepper_controller:
              properties:
                acceleration:
                  default: 1000
                  description: 加速度
                  type: integer
                axis:
                  description: 电机轴
                  type: object
                degrees:
                  description: 目标角度（度）
                  type: number
                precision:
                  default: 100
                  description: 精度
                  type: integer
                speed:
                  default: 5000
                  description: 移动速度
                  type: integer
              required:
              - axis
@@ -267,16 +283,21 @@ xyz_stepper_controller:
              properties:
                acceleration:
                  default: 1000
                  description: 加速度
                  type: integer
                axis:
                  description: 电机轴
                  type: object
                precision:
                  default: 100
                  description: 精度
                  type: integer
                revolutions:
                  description: 目标圈数
                  type: number
                speed:
                  default: 5000
                  description: 移动速度
                  type: integer
              required:
              - axis
@@ -309,15 +330,20 @@ xyz_stepper_controller:
              properties:
                acceleration:
                  default: 1000
                  description: 加速度
                  type: integer
                speed:
                  default: 5000
                  description: 运行速度
                  type: integer
                x:
                  description: X轴目标位置
                  type: integer
                y:
                  description: Y轴目标位置
                  type: integer
                z:
                  description: Z轴目标位置
                  type: integer
              required: []
              type: object
@@ -350,15 +376,20 @@ xyz_stepper_controller:
              properties:
                acceleration:
                  default: 1000
                  description: 加速度
                  type: integer
                speed:
                  default: 5000
                  description: 移动速度
                  type: integer
                x_deg:
                  description: X轴目标角度（度）
                  type: number
                y_deg:
                  description: Y轴目标角度（度）
                  type: number
                z_deg:
                  description: Z轴目标角度（度）
                  type: number
              required: []
              type: object
@@ -391,15 +422,20 @@ xyz_stepper_controller:
              properties:
                acceleration:
                  default: 1000
                  description: 加速度
                  type: integer
                speed:
                  default: 5000
                  description: 移动速度
                  type: integer
                x_rev:
                  description: X轴目标圈数
                  type: number
                y_rev:
                  description: Y轴目标圈数
                  type: number
                z_rev:
                  description: Z轴目标圈数
                  type: number
              required: []
              type: object
@@ -427,6 +463,7 @@ xyz_stepper_controller:
            goal:
              properties:
                revolutions:
                  description: 圈数
                  type: number
              required:
              - revolutions
@@ -456,10 +493,13 @@ xyz_stepper_controller:
              properties:
                acceleration:
                  default: 1000
                  description: 加速度(rpm/s)
                  type: integer
                axis:
                  description: 电机轴
                  type: object
                speed:
                  description: 运行速度(rpm)，正值正转，负值反转
                  type: integer
              required:
              - axis
@@ -487,6 +527,7 @@ xyz_stepper_controller:
            goal:
              properties:
                steps:
                  description: 步数
                  type: integer
              required:
              - steps
@@ -513,6 +554,7 @@ xyz_stepper_controller:
            goal:
              properties:
                steps:
                  description: 步数
                  type: integer
              required:
              - steps
@@ -564,9 +606,11 @@ xyz_stepper_controller:
            goal:
              properties:
                axis:
                  description: 电机轴
                  type: object
                timeout:
                  default: 30.0
                  description: 超时时间(秒)
                  type: number
              required:
              - axis
@@ -591,11 +635,14 @@ xyz_stepper_controller:
      properties:
        baudrate:
          default: 115200
          description: 波特率
          type: integer
        port:
          description: 串口端口名
          type: string
        timeout:
          default: 1.0
          description: 通信超时时间
          type: number
      required:
      - port
--- a/unilabos/registry/devices/liquid_handler.yaml
+++ b/unilabos/registry/devices/liquid_handler.yaml
@@ -510,9 +510,11 @@ liquid_handler:
            goal:
              properties:
                msg:
                  description: information to be printed
                  type: string
                seconds:
                  default: 0
                  description: seconds to wait
                  type: string
              required: []
              type: object
@@ -2963,15 +2965,22 @@ liquid_handler:
              additionalProperties: false
              properties:
                channel:
                  description: int
                  maximum: 2147483647
                  minimum: -2147483648
                  type: integer
                dis_to_top:
                  description: 'float
                    Height in mm to move to relative to the well top.'
                  maximum: 1.7976931348623157e+308
                  minimum: -1.7976931348623157e+308
                  type: number
                well:
                  additionalProperties: false
                  description: 'Well
                    The target well.'
                  properties:
                    category:
                      type: string
@@ -4829,11 +4838,13 @@ liquid_handler:
    config:
      properties:
        backend:
          description: Backend to use.
          type: object
        channel_num:
          default: 8
          type: integer
        deck:
          description: Deck to use.
          type: object
        simulator:
          default: false
@@ -4883,14 +4894,17 @@ liquid_handler.biomek:
                bind_parent_id:
                  type: string
                liquid_input_slot:
                  description: 液体输入槽列表
                  items:
                    type: integer
                  type: array
                liquid_type:
                  description: 液体类型列表
                  items:
                    type: string
                  type: array
                liquid_volume:
                  description: 液体体积列表
                  items:
                    type: integer
                  type: array
@@ -4901,6 +4915,7 @@ liquid_handler.biomek:
                    type: object
                  type: array
                slot_on_deck:
                  description: 甲板上的槽位
                  type: integer
              required:
              - resource_tracker
@@ -5036,20 +5051,27 @@ liquid_handler.biomek:
              additionalProperties: false
              properties:
                none_keys:
                  description: 需要设置为None的键列表
                  items:
                    type: string
                  type: array
                protocol_author:
                  description: 协议作者
                  type: string
                protocol_date:
                  description: 协议日期
                  type: string
                protocol_description:
                  description: 协议描述
                  type: string
                protocol_name:
                  description: 协议名称
                  type: string
                protocol_type:
                  description: 协议类型
                  type: string
                protocol_version:
                  description: 协议版本
                  type: string
              title: LiquidHandlerProtocolCreation_Goal
              type: object
@@ -6973,7 +6995,7 @@ liquid_handler.laiyu:
      properties:
        channel_num:
          default: 1
-          type: integer
+          type: string
        deck:
          type: object
        host:
@@ -6984,25 +7006,10 @@ liquid_handler.laiyu:
          type: integer
        simulator:
          default: true
-          type: boolean
+          type: string
        timeout:
          default: 10.0
          type: number
        serial_port:
          default: /dev/ttyUSB0
          description: 硬件串口端口（非 simulator 模式下使用）
          type: string
        baudrate:
          default: 115200
          type: integer
        pipette_address:
          default: 4
          description: SOPA 移液器 RS485 地址
          type: integer
        total_height:
          default: 310
          description: 龙门架总高度 (mm)，用于坐标转换
          type: number
      required:
      - deck
      type: object
--- a/unilabos/registry/devices/motor.yaml
+++ b/unilabos/registry/devices/motor.yaml
@@ -1,286 +0,0 @@
 motor.zdt_x42:
  category:
  - motor
  class:
    action_value_mappings:
      auto-enable:
        feedback: {}
        goal: {}
        goal_default:
          'on': true
        handles: {}
        placeholder_keys: {}
        result: {}
        schema:
          description: 使能或禁用电机。使能后电机进入锁轴状态，可接收运动指令；禁用后电机进入松轴状态。
          properties:
            feedback: {}
            goal:
              properties:
                'on':
                  default: true
                  type: boolean
              required: []
              type: object
            result: {}
          required:
          - goal
          title: enable参数
          type: object
        type: UniLabJsonCommand
      auto-get_position:
        feedback: {}
        goal: {}
        goal_default: {}
        handles: {}
        placeholder_keys: {}
        result: {}
        schema:
          description: 获取当前电机脉冲位置。
          properties:
            feedback: {}
            goal:
              properties: {}
              required: []
              type: object
            result:
              properties:
                position:
                  type: integer
              type: object
          required:
          - goal
          title: get_position参数
          type: object
        type: UniLabJsonCommand
      auto-move_position:
        feedback: {}
        goal: {}
        goal_default:
          absolute: false
          acceleration: 10
          direction: CW
          pulses: 1000
          speed_rpm: 60
        handles: {}
        placeholder_keys: {}
        result: {}
        schema:
          description: 位置模式运行。控制电机移动到指定脉冲位置或相对于当前位置移动指定脉冲数。
          properties:
            feedback: {}
            goal:
              properties:
                absolute:
                  default: false
                  type: boolean
                acceleration:
                  default: 10
                  maximum: 255
                  minimum: 0
                  type: integer
                direction:
                  default: CW
                  enum:
                  - CW
                  - CCW
                  type: string
                pulses:
                  default: 1000
                  type: integer
                speed_rpm:
                  default: 60
                  minimum: 0
                  type: integer
              required:
              - pulses
              - speed_rpm
              type: object
            result: {}
          required:
          - goal
          title: move_position参数
          type: object
        type: UniLabJsonCommand
      auto-move_speed:
        feedback: {}
        goal: {}
        goal_default:
          acceleration: 10
          direction: CW
          speed_rpm: 60
        handles: {}
        placeholder_keys: {}
        result: {}
        schema:
          description: 速度模式运行。控制电机以指定转速和方向持续转动。
          properties:
            feedback: {}
            goal:
              properties:
                acceleration:
                  default: 10
                  maximum: 255
                  minimum: 0
                  type: integer
                direction:
                  default: CW
                  enum:
                  - CW
                  - CCW
                  type: string
                speed_rpm:
                  default: 60
                  minimum: 0
                  type: integer
              required:
              - speed_rpm
              type: object
            result: {}
          required:
          - goal
          title: move_speed参数
          type: object
        type: UniLabJsonCommand
      auto-rotate_quarter:
        feedback: {}
        goal: {}
        goal_default:
          direction: CW
          speed_rpm: 60
        handles: {}
        placeholder_keys: {}
        result: {}
        schema:
          description: 电机旋转 1/4 圈 (阻塞式)。
          properties:
            feedback: {}
            goal:
              properties:
                direction:
                  default: CW
                  enum:
                  - CW
                  - CCW
                  type: string
                speed_rpm:
                  default: 60
                  minimum: 1
                  type: integer
              required: []
              type: object
            result: {}
          required:
          - goal
          title: rotate_quarter参数
          type: object
        type: UniLabJsonCommand
      auto-set_zero:
        feedback: {}
        goal: {}
        goal_default: {}
        handles: {}
        placeholder_keys: {}
        result: {}
        schema:
          description: 将当前电机位置设为零点。
          properties:
            feedback: {}
            goal:
              properties: {}
              required: []
              type: object
            result: {}
          required:
          - goal
          title: set_zero参数
          type: object
        type: UniLabJsonCommand
      auto-stop:
        feedback: {}
        goal: {}
        goal_default: {}
        handles: {}
        placeholder_keys: {}
        result: {}
        schema:
          description: 立即停止电机运动。
          properties:
            feedback: {}
            goal:
              properties: {}
              required: []
              type: object
            result: {}
          required:
          - goal
          title: stop参数
          type: object
        type: UniLabJsonCommand
      auto-wait_time:
        feedback: {}
        goal: {}
        goal_default:
          duration_s: 1.0
        handles: {}
        placeholder_keys: {}
        result: {}
        schema:
          description: 等待指定时间 (秒)。
          properties:
            feedback: {}
            goal:
              properties:
                duration_s:
                  default: 1.0
                  minimum: 0
                  type: number
              required:
              - duration_s
              type: object
            result: {}
          required:
          - goal
          title: wait_time参数
          type: object
        type: UniLabJsonCommand
    module: unilabos.devices.motor.ZDT_X42:ZDTX42Driver
    status_types:
      position: int
      status: str
    type: python
  config_info: []
  description: ZDT X42 闭环步进电机驱动。支持速度运行、精确位置控制、位置查询和清零功能。适用于各种需要精确运动控制的实验室自动化场景。
  handles: []
  icon: ''
  init_param_schema:
    config:
      properties:
        baudrate:
          default: 115200
          type: integer
        debug:
          default: false
          type: boolean
        device_id:
          default: 1
          type: integer
        port:
          type: string
        timeout:
          default: 0.5
          type: number
      required:
      - port
      type: object
    data:
      properties:
        position:
          type: integer
        status:
          type: string
      required:
      - status
      - position
      type: object
  version: 1.0.0
--- a/unilabos/registry/devices/neware_battery_test_system.yaml
+++ b/unilabos/registry/devices/neware_battery_test_system.yaml
@@ -87,7 +87,7 @@ neware_battery_test_system:
              properties:
                filepath:
                  default: bts_status.json
-                  description: 输出JSON文件路径
+                  description: 输出文件路径
                  type: string
              required: []
              type: object
@@ -146,7 +146,7 @@ neware_battery_test_system:
            goal:
              properties:
                plate_num:
-                  description: 盘号 (1 或 2)，如果为null则返回所有盘的状态
+                  description: 盘号 (1 或 2)，如果为None则返回所有盘的状态
                  type: integer
              required: []
              type: object
@@ -237,11 +237,11 @@ neware_battery_test_system:
            goal:
              properties:
                csv_path:
-                  description: 输入CSV文件的绝对路径
+                  description: 输入CSV文件路径
                  type: string
                output_dir:
                  default: .
-                  description: 输出目录（用于存储XML和备份文件），默认当前目录
+                  description: 输出目录，用于存储XML文件和备份，默认当前目录
                  type: string
              required:
              - csv_path
@@ -302,14 +302,14 @@ neware_battery_test_system:
            goal:
              properties:
                backup_dir:
-                  description: 备份目录路径（默认使用最近一次submit_from_csv的backup_dir）
+                  description: 备份目录路径，默认使用最近一次 submit_from_csv 的 backup_dir
                  type: string
                file_pattern:
                  default: '*'
-                  description: 文件通配符模式，例如 *.csv 或 Battery_*.nda
+                  description: 文件通配符模式，默认 "*" 上传所有文件（例如 "*.csv" 仅上传 CSV 文件）
                  type: string
                oss_prefix:
-                  description: OSS对象路径前缀（默认使用self.oss_prefix）
+                  description: OSS 对象前缀，默认使用类初始化时的配置
                  type: string
              required: []
              type: object
@@ -336,19 +336,25 @@ neware_battery_test_system:
    config:
      properties:
        devtype:
          description: 设备类型标识
          type: string
        ip:
          description: TCP服务器IP地址
          type: string
        machine_id:
          default: 1
          description: 机器ID
          type: integer
        oss_prefix:
          default: neware_backup
          description: OSS对象路径前缀，默认"neware_backup"
          type: string
        oss_upload_enabled:
          default: false
          description: 是否启用OSS上传功能，默认False
          type: boolean
        port:
          description: TCP端口
          type: integer
        size_x:
          default: 50
@@ -360,6 +366,7 @@ neware_battery_test_system:
          default: 20
          type: number
        timeout:
          description: 通信超时时间（秒）
          type: integer
      required: []
      type: object
--- a/unilabos/registry/devices/organic_miscellaneous.yaml
+++ b/unilabos/registry/devices/organic_miscellaneous.yaml
@@ -207,8 +207,12 @@ separator.homemade:
            goal:
              properties:
                condition:
                  description: The condition to be monitored, either 'delta' or 'time'.
                  type: string
                value:
                  description: 'The threshold value for the condition.
                    `delta > 0.05`, `time > 60`'
                  type: string
              required:
              - condition
@@ -305,12 +309,17 @@ separator.homemade:
                event:
                  type: string
                settling_time:
                  description: The duration for which to settle after stirring, in
                    seconds. Defaults to 10.
                  type: string
                stir_speed:
                  description: The speed of stirring, in RPM. Defaults to 300.
                  maximum: 1.7976931348623157e+308
                  minimum: -1.7976931348623157e+308
                  type: number
                stir_time:
                  description: The duration for which to stir, in seconds. Defaults
                    to 10.
                  maximum: 1.7976931348623157e+308
                  minimum: -1.7976931348623157e+308
                  type: number
--- a/unilabos/registry/devices/pump_and_valve.yaml
+++ b/unilabos/registry/devices/pump_and_valve.yaml
@@ -456,6 +456,7 @@ syringe_pump_with_valve.runze.SY03B-T06:
            goal:
              properties:
                volume:
                  description: 'absolute position of the plunger, unit: mL'
                  type: number
              required:
              - volume
@@ -481,6 +482,7 @@ syringe_pump_with_valve.runze.SY03B-T06:
            goal:
              properties:
                volume:
                  description: 'absolute position of the plunger, unit: mL'
                  type: number
              required:
              - volume
@@ -687,8 +689,10 @@ syringe_pump_with_valve.runze.SY03B-T06:
            goal:
              properties:
                max_velocity:
                  description: 'maximum velocity of the plunger, unit: ml/s'
                  type: number
                position:
                  description: 'absolute position of the plunger, unit: ml'
                  type: number
              required:
              - position
@@ -1003,6 +1007,7 @@ syringe_pump_with_valve.runze.SY03B-T08:
            goal:
              properties:
                volume:
                  description: 'absolute position of the plunger, unit: mL'
                  type: number
              required:
              - volume
@@ -1028,6 +1033,7 @@ syringe_pump_with_valve.runze.SY03B-T08:
            goal:
              properties:
                volume:
                  description: 'absolute position of the plunger, unit: mL'
                  type: number
              required:
              - volume
@@ -1234,8 +1240,10 @@ syringe_pump_with_valve.runze.SY03B-T08:
            goal:
              properties:
                max_velocity:
                  description: 'maximum velocity of the plunger, unit: ml/s'
                  type: number
                position:
                  description: 'absolute position of the plunger, unit: ml'
                  type: number
              required:
              - position
--- a/unilabos/registry/devices/reaction_station_bioyond.yaml
+++ b/unilabos/registry/devices/reaction_station_bioyond.yaml
@@ -32,7 +32,7 @@ reaction_station.bioyond:
                  type: integer
                end_point:
                  default: 0
-                  description: 终点计时点 (Start=开始前, End=结束后)
+                  description: 终点计时点 (Start=0, End=1)
                  type: integer
                end_step_key:
                  default: ''
@@ -40,11 +40,11 @@ reaction_station.bioyond:
                  type: string
                start_point:
                  default: 0
-                  description: 起点计时点 (Start=开始前, End=结束后)
+                  description: 起点计时点 (Start=0, End=1)
                  type: integer
                start_step_key:
                  default: ''
-                  description: 起点步骤Key (例如 "feeding", "liquid", 可选, 默认为空则自动选择)
+                  description: 起点步骤Key (可选, 默认为空则自动选择)
                  type: string
              required:
              - duration
@@ -91,6 +91,7 @@ reaction_station.bioyond:
            goal:
              properties:
                json_str:
                  description: 订单参数的JSON字符串
                  type: string
              required:
              - json_str
@@ -117,6 +118,7 @@ reaction_station.bioyond:
            goal:
              properties:
                workflow_ids:
                  description: 要删除的工作流ID数组
                  items:
                    type: string
                  type: array
@@ -145,6 +147,7 @@ reaction_station.bioyond:
            goal:
              properties:
                json_str:
                  description: 'JSON格式的字符串,包含:'
                  type: string
              required:
              - json_str
@@ -197,6 +200,7 @@ reaction_station.bioyond:
            goal:
              properties:
                web_workflow_json:
                  description: JSON 格式的网页工作流列表
                  type: string
              required:
              - web_workflow_json
@@ -228,8 +232,10 @@ reaction_station.bioyond:
            goal:
              properties:
                reactor_id:
                  description: 反应器编号 (1-5)
                  type: integer
                temperature:
                  description: 目标温度 (°C)
                  type: number
              required:
              - reactor_id
@@ -257,6 +263,7 @@ reaction_station.bioyond:
            goal:
              properties:
                preintake_id:
                  description: 通量ID
                  type: string
              required:
              - preintake_id
@@ -338,6 +345,7 @@ reaction_station.bioyond:
            goal:
              properties:
                value:
                  description: 工作流 ID 列表
                  items:
                    type: string
                  type: array
@@ -365,6 +373,7 @@ reaction_station.bioyond:
            goal:
              properties:
                workflow_id:
                  description: 工作流ID
                  type: string
              required:
              - workflow_id
@@ -424,11 +433,11 @@ reaction_station.bioyond:
            goal:
              properties:
                assign_material_name:
-                  description: 物料名称（不能为空）
+                  description: 物料名称(液体种类)
                  type: string
                temperature:
                  default: 25.0
-                  description: 温度设定(°C)
+                  description: 温度(C)
                  type: number
                time:
                  default: '90'
@@ -436,14 +445,14 @@ reaction_station.bioyond:
                  type: string
                titration_type:
                  default: '1'
-                  description: 是否滴定(NO=否, YES=是)
+                  description: 是否滴定(NO=1, YES=2)
                  type: string
                torque_variation:
                  default: 2
-                  description: 是否观察 (NO=否, YES=是)
+                  description: 是否观察(NO=1, YES=2)
                  type: integer
                volume:
-                  description: 分液公式(mL)
+                  description: 分液量(μL)
                  type: string
              required:
              - assign_material_name
@@ -525,11 +534,11 @@ reaction_station.bioyond:
              properties:
                assign_material_name:
                  default: BAPP
-                  description: 物料名称
+                  description: 物料名称(试剂瓶位)
                  type: string
                temperature:
                  default: 25.0
-                  description: 温度设定(°C)
+                  description: 温度设定(C)
                  type: number
                time:
                  default: '0'
@@ -537,15 +546,15 @@ reaction_station.bioyond:
                  type: string
                titration_type:
                  default: '1'
-                  description: 是否滴定(NO=否, YES=是)
+                  description: 是否滴定(NO=1, YES=2)
                  type: string
                torque_variation:
                  default: 1
-                  description: 是否观察 (NO=否, YES=是)
+                  description: 是否观察(int类型, 1=否, 2=是)
                  type: integer
                volume:
                  default: '350'
-                  description: 分液公式(mL)
+                  description: 分液质量(g)
                  type: string
              required: []
              type: object
@@ -593,26 +602,28 @@ reaction_station.bioyond:
                  description: 物料名称
                  type: string
                solvents:
-                  description: '溶剂信息对象(可选),包含: additional_solvent(溶剂体积mL), total_liquid_volume(总液体体积mL)。如果提供,将自动计算volume'
+                  description: '溶剂信息的字典或JSON字符串(可选),格式如下:
                    {'
                  type: string
                temperature:
                  default: 25.0
-                  description: 温度设定(°C),默认25.00
+                  description: 温度设定(C)
                  type: number
                time:
                  default: '360'
-                  description: 观察时间(分钟),默认360
+                  description: 观察时间(分钟)
                  type: string
                titration_type:
                  default: '1'
-                  description: 是否滴定(NO=否, YES=是),默认NO
+                  description: 是否滴定(NO=1, YES=2)
                  type: string
                torque_variation:
                  default: 2
-                  description: 是否观察 (NO=否, YES=是),默认YES
+                  description: 是否观察(NO=1, YES=2)
                  type: integer
                volume:
-                  description: 分液量(mL)。可直接提供,或通过solvents参数自动计算
+                  description: 分液量(μL),直接指定体积(可选,如果提供solvents则自动计算)
                  type: string
              required:
              - assign_material_name
@@ -671,33 +682,32 @@ reaction_station.bioyond:
                  description: 物料名称
                  type: string
                extracted_actuals:
-                  description: 从报告提取的实际加料量JSON字符串,包含actualTargetWeigh(m二酐滴定)和actualVolume(V二酐滴定)
+                  description: 从报告提取的实际加料量JSON字符串,包含actualTargetWeigh和actualVolume
                  type: string
                feeding_order_data:
-                  description: 'feeding_order JSON对象,用于获取m二酐值(type为main_anhydride的amount)。示例:
+                  description: feeding_order JSON字符串或对象,用于获取m二酐值
                    {"feeding_order": [{"type": "main_anhydride", "amount": 1.915}]}'
                  type: string
                temperature:
                  default: 25.0
-                  description: 温度设定(°C),默认25.00
+                  description: 温度(C)
                  type: number
                time:
                  default: '90'
-                  description: 观察时间(分钟),默认90
+                  description: 观察时间(分钟)
                  type: string
                titration_type:
                  default: '2'
-                  description: 是否滴定(NO=否, YES=是),默认YES
+                  description: 是否滴定(NO=1, YES=2),默认2
                  type: string
                torque_variation:
                  default: 2
-                  description: 是否观察 (NO=否, YES=是),默认YES
+                  description: 是否观察(NO=1, YES=2)
                  type: integer
                volume_formula:
-                  description: 分液公式(mL)。可直接提供固定公式,或留空由系统根据x_value、feeding_order_data、extracted_actuals自动生成
+                  description: 分液公式(μL),如果提供则直接使用,否则自动计算
                  type: string
                x_value:
-                  description: 公式中的x值,手工输入,格式为"{{1-2-3}}"(包含双花括号)。用于自动公式计算
+                  description: 手工输入的x值,格式如 "1-2-3"
                  type: string
              required:
              - assign_material_name
@@ -738,7 +748,7 @@ reaction_station.bioyond:
                  type: string
                temperature:
                  default: 25.0
-                  description: 温度设定(°C)
+                  description: 温度(C)
                  type: number
                time:
                  default: '0'
@@ -746,14 +756,14 @@ reaction_station.bioyond:
                  type: string
                titration_type:
                  default: '1'
-                  description: 是否滴定(NO=否, YES=是)
+                  description: 是否滴定(NO=1, YES=2)
                  type: string
                torque_variation:
                  default: 1
-                  description: 是否观察 (NO=否, YES=是)
+                  description: 是否观察(NO=1, YES=2)
                  type: integer
                volume_formula:
-                  description: 分液公式(mL)
+                  description: 分液公式(μL)
                  type: string
              required:
              - volume_formula
@@ -786,7 +796,7 @@ reaction_station.bioyond:
                  description: 任务名称
                  type: string
                workflow_name:
-                  description: 工作流名称
+                  description: 合并后的工作流名称
                  type: string
              required:
              - workflow_name
@@ -819,15 +829,15 @@ reaction_station.bioyond:
            goal:
              properties:
                assign_material_name:
-                  description: 物料名称
+                  description: 物料名称(不能为空)
                  type: string
                cutoff:
                  default: '900000'
-                  description: 粘度上限
+                  description: 粘度上限(需为有效数字字符串,默认 "900000")
                  type: string
                temperature:
                  default: -10.0
-                  description: 温度设定(°C)
+                  description: 温度设定(C,范围:-50.00 至 100.00)
                  type: number
              required:
              - assign_material_name
@@ -909,11 +919,11 @@ reaction_station.bioyond:
                  description: 物料名称(用于获取试剂瓶位ID)
                  type: string
                material_id:
-                  description: 粉末类型ID，Salt=盐（21分钟），Flour=面粉（27分钟），BTDA=BTDA（38分钟）
+                  description: 粉末类型ID, Salt=1, Flour=2, BTDA=3
                  type: string
                temperature:
                  default: 25.0
-                  description: 温度设定(°C)
+                  description: 温度设定(C)
                  type: number
                time:
                  default: '0'
@@ -921,7 +931,7 @@ reaction_station.bioyond:
                  type: string
                torque_variation:
                  default: 1
-                  description: 是否观察 (NO=否, YES=是)
+                  description: 是否观察(NO=1, YES=2)
                  type: integer
              required:
              - material_id
@@ -945,10 +955,13 @@ reaction_station.bioyond:
    config:
      properties:
        config:
          description: 配置字典,应包含workflow_mappings等配置
          type: object
        deck:
          description: Deck对象
          type: string
        protocol_type:
          description: 协议类型(由ROS系统传递,此处忽略)
          type: string
      required: []
      type: object
--- a/unilabos/registry/devices/robot_arm.yaml
+++ b/unilabos/registry/devices/robot_arm.yaml
@@ -198,6 +198,8 @@ robotic_arm.SCARA_with_slider.moveit.virtual:
              additionalProperties: false
              properties:
                command:
                  description: A JSON-formatted string that includes option, target,
                    speed, lift_height, mt_height
                  type: string
              title: SendCmd_Goal
              type: object
@@ -241,6 +243,8 @@ robotic_arm.SCARA_with_slider.moveit.virtual:
              additionalProperties: false
              properties:
                command:
                  description: A JSON-formatted string that includes quaternion, speed,
                    position
                  type: string
              title: SendCmd_Goal
              type: object
@@ -284,6 +288,7 @@ robotic_arm.SCARA_with_slider.moveit.virtual:
              additionalProperties: false
              properties:
                command:
                  description: A JSON-formatted string that includes speed
                  type: string
              title: SendCmd_Goal
              type: object
--- a/unilabos/registry/devices/robot_linear_motion.yaml
+++ b/unilabos/registry/devices/robot_linear_motion.yaml
@@ -709,6 +709,8 @@ linear_motion.toyo_xyz.sim:
              additionalProperties: false
              properties:
                command:
                  description: A JSON-formatted string that includes option, target,
                    speed, lift_height, mt_height
                  type: string
              title: SendCmd_Goal
              type: object
@@ -752,6 +754,8 @@ linear_motion.toyo_xyz.sim:
              additionalProperties: false
              properties:
                command:
                  description: A JSON-formatted string that includes quaternion, speed,
                    position
                  type: string
              title: SendCmd_Goal
              type: object
@@ -795,6 +799,7 @@ linear_motion.toyo_xyz.sim:
              additionalProperties: false
              properties:
                command:
                  description: A JSON-formatted string that includes speed
                  type: string
              title: SendCmd_Goal
              type: object
--- a/unilabos/registry/devices/sensor.yaml
+++ b/unilabos/registry/devices/sensor.yaml
@@ -1,148 +0,0 @@
 sensor.xkc_rs485:
  category:
  - sensor
  - separator
  class:
    action_value_mappings:
      auto-change_baudrate:
        goal:
          baud_code: 7
        handles: {}
        schema:
          description: '更改通讯波特率 (设置成功后无返回，且需手动切换波特率重连)。代码表 (16进制): 05=2400, 06=4800,
            07=9600, 08=14400, 09=19200, 0A=28800, 0C=57600, 0D=115200, 0E=128000,
            0F=256000'
          properties:
            goal:
              properties:
                baud_code:
                  description: '波特率代码 (例如: 7 为 9600, 13 即 0x0D 为 115200)'
                  type: integer
              required:
              - baud_code
              type: object
        type: UniLabJsonCommand
      auto-change_device_id:
        goal:
          new_id: 1
        handles: {}
        schema:
          description: 修改传感器的 Modbus 从站地址
          properties:
            goal:
              properties:
                new_id:
                  description: 新的从站地址 (1-254)
                  maximum: 254
                  minimum: 1
                  type: integer
              required:
              - new_id
              type: object
        type: UniLabJsonCommand
      auto-factory_reset:
        goal: {}
        handles: {}
        schema:
          description: 恢复出厂设置 (地址重置为 01)
          properties:
            goal:
              type: object
        type: UniLabJsonCommand
      auto-read_level:
        goal: {}
        handles: {}
        schema:
          description: 直接读取当前液位及信号强度
          properties:
            goal:
              type: object
          type: object
        type: UniLabJsonCommand
      auto-set_threshold:
        goal:
          threshold: 300
        handles: {}
        schema:
          description: 设置液位判定阈值
          properties:
            goal:
              properties:
                threshold:
                  type: integer
              required:
              - threshold
              type: object
        type: UniLabJsonCommand
      auto-wait_for_liquid:
        goal:
          target_state: true
          timeout: 120
        handles: {}
        schema:
          description: 实时检测电导率(RSSI)并等待用户指定的状态
          properties:
            goal:
              properties:
                target_state:
                  default: true
                  description: 目标状态 (True=有液, False=无液)
                  type: boolean
                timeout:
                  default: 120
                  description: 超时时间 (秒)
              required:
              - target_state
              type: object
        type: UniLabJsonCommand
      auto-wait_level:
        goal:
          level: true
          timeout: 10
        handles: {}
        schema:
          description: 等待液位达到目标状态
          properties:
            goal:
              properties:
                level:
                  type: boolean
                timeout:
                  type: number
              required:
              - level
              type: object
        type: UniLabJsonCommand
    module: unilabos.devices.separator.xkc_sensor:XKCSensorDriver
    status_types:
      level: bool
      rssi: int
    type: python
  config_info: []
  description: XKC RS485 非接触式液位传感器 (Modbus RTU)
  handles: []
  icon: ''
  init_param_schema:
    config:
      properties:
        baudrate:
          default: 9600
          type: integer
        debug:
          default: false
          type: boolean
        device_id:
          default: 1
          type: integer
        port:
          type: string
        threshold:
          default: 300
          type: integer
        timeout:
          default: 3.0
          type: number
      required:
      - port
      type: object
  version: 1.0.0
--- a/unilabos/registry/devices/virtual_device.yaml
+++ b/unilabos/registry/devices/virtual_device.yaml
@@ -2179,6 +2179,7 @@ virtual_multiway_valve:
            goal:
              properties:
                port_number:
                  description: 端口号 (1-8)
                  type: integer
              required:
              - port_number
@@ -2225,6 +2226,7 @@ virtual_multiway_valve:
            goal:
              properties:
                port_number:
                  description: 目标端口号 (1-8)
                  type: integer
              required:
              - port_number
@@ -2261,6 +2263,7 @@ virtual_multiway_valve:
              additionalProperties: false
              properties:
                command:
                  description: 目标位置 (0-8) 或位置字符串
                  type: string
              title: SendCmd_Goal
              type: object
@@ -2304,6 +2307,7 @@ virtual_multiway_valve:
              additionalProperties: false
              properties:
                command:
                  description: 目标位置 (0-8) 或位置字符串
                  type: string
              title: SendCmd_Goal
              type: object
@@ -4215,6 +4219,7 @@ virtual_solenoid_valve:
              additionalProperties: false
              properties:
                string:
                  description: '"ON"/"OFF" 或 "OPEN"/"CLOSED"'
                  type: string
              title: StrSingleInput_Goal
              type: object
@@ -4258,6 +4263,7 @@ virtual_solenoid_valve:
              additionalProperties: false
              properties:
                command:
                  description: '"OPEN"/"CLOSED" 或其他控制命令'
                  type: string
              title: SendCmd_Goal
              type: object
@@ -4418,16 +4424,20 @@ virtual_solid_dispenser:
                event:
                  type: string
                mass:
                  description: 质量字符串 (如 "2.9 g")
                  type: string
                mol:
                  description: 摩尔数字符串 (如 "0.12 mol")
                  type: string
                purpose:
                  description: 添加目的
                  type: string
                rate_spec:
                  type: string
                ratio:
                  type: string
                reagent:
                  description: 试剂名称
                  type: string
                stir:
                  type: boolean
@@ -4439,6 +4449,7 @@ virtual_solid_dispenser:
                  type: string
                vessel:
                  additionalProperties: false
                  description: 目标容器
                  properties:
                    category:
                      type: string
@@ -5568,8 +5579,10 @@ virtual_transfer_pump:
            goal:
              properties:
                velocity:
                  description: 拉取速度 (ml/s)
                  type: number
                volume:
                  description: 要拉取的体积 (ml)
                  type: number
              required:
              - volume
@@ -5596,8 +5609,10 @@ virtual_transfer_pump:
            goal:
              properties:
                velocity:
                  description: 推出速度 (ml/s)
                  type: number
                volume:
                  description: 要推出的体积 (ml)
                  type: number
              required:
              - volume
@@ -5693,10 +5708,12 @@ virtual_transfer_pump:
              additionalProperties: false
              properties:
                max_velocity:
                  description: 移动速度 (ml/s)
                  maximum: 1.7976931348623157e+308
                  minimum: -1.7976931348623157e+308
                  type: number
                position:
                  description: 目标位置 (ml)
                  maximum: 1.7976931348623157e+308
                  minimum: -1.7976931348623157e+308
                  type: number
@@ -5845,8 +5862,10 @@ virtual_transfer_pump:
    config:
      properties:
        config:
          description: 配置字典，包含max_volume, port等参数
          type: object
        device_id:
          description: 设备ID
          type: string
      required: []
      type: object
--- a/unilabos/registry/devices/xrd_d7mate.yaml
+++ b/unilabos/registry/devices/xrd_d7mate.yaml
@@ -409,11 +409,11 @@ xrd_d7mate:
              properties:
                end_theta:
                  default: 80.0
-                  description: 结束角度（≥5.5°，且必须大于start_theta）
+                  description: 结束角度（≥5.5°，且必须大于 start_theta）
                  type: number
                exp_time:
                  default: 0.1
-                  description: 曝光时间（0.1-5.0秒）
+                  description: 曝光时间（0.1-5.0 秒）
                  type: number
                increment:
                  default: 0.05
@@ -421,7 +421,7 @@ xrd_d7mate:
                  type: number
                sample_id:
                  default: ''
-                  description: 样品标识符
+                  description: 样品名称
                  type: string
                start_theta:
                  default: 10.0
@@ -433,7 +433,7 @@ xrd_d7mate:
                  type: string
                wait_minutes:
                  default: 3.0
-                  description: 允许上样后等待分钟数
+                  description: 在允许上样后、发送样品准备完成前的等待分钟数（默认 3 分钟）
                  type: number
              required: []
              title: StartWorkflow_Goal
@@ -492,12 +492,15 @@ xrd_d7mate:
      properties:
        host:
          default: 127.0.0.1
          description: 设备IP地址
          type: string
        port:
          default: 6001
          description: 通信端口，默认6001
          type: string
        timeout:
          default: 10.0
          description: 超时时间，单位秒
          type: string
      required: []
      type: object
--- a/unilabos/registry/devices/zhida_gcms.yaml
+++ b/unilabos/registry/devices/zhida_gcms.yaml
@@ -217,6 +217,7 @@ zhida_gcms:
              additionalProperties: false
              properties:
                string:
                  description: Base64编码的CSV数据（ROS2参数名）
                  type: string
              title: StrSingleInput_Goal
              type: object
@@ -257,6 +258,7 @@ zhida_gcms:
              additionalProperties: false
              properties:
                string:
                  description: CSV文件路径（ROS2参数名）
                  type: string
              title: StrSingleInput_Goal
              type: object
@@ -289,12 +291,15 @@ zhida_gcms:
      properties:
        host:
          default: 192.168.3.184
          description: 设备IP地址，本地部署时可使用'127.0.0.1'
          type: string
        port:
          default: 5792
          description: 通信端口，默认5792
          type: string
        timeout:
          default: 10.0
          description: 超时时间，单位秒
          type: string
      required: []
      type: object
--- a/unilabos/registry/registry.py
+++ b/unilabos/registry/registry.py
@@ -271,6 +271,7 @@ class Registry:
        registry_cache.pkl 一个文件中，删除即可完全重置。
        """
        import time as _time
        from unilabos.registry.ast_registry_scanner import _CACHE_VERSION as AST_SCAN_CACHE_VERSION
        from unilabos.registry.ast_registry_scanner import scan_directory
        scan_t0 = _time.perf_counter()
@@ -286,6 +287,10 @@ class Registry:
        # ---- 统一缓存：一个 pkl 包含所有数据 ----
        unified_cache = self._load_config_cache()
        ast_cache = unified_cache.setdefault("_ast_scan", {"files": {}})
        if ast_cache.get("version") != AST_SCAN_CACHE_VERSION:
            ast_cache = {"version": AST_SCAN_CACHE_VERSION, "files": {}}
            unified_cache["_ast_scan"] = ast_cache
            unified_cache.pop("_build_results", None)
        # 默认：扫描 unilabos 包所在的父目录
        pkg_root = Path(__file__).resolve().parent.parent          # .../unilabos
@@ -561,13 +566,47 @@ class Registry:
        return prop_schema
    @staticmethod
    def _apply_docstring_param_metadata(
        schema: Dict[str, Any],
        doc_info: Dict[str, Any],
        field_to_param: Optional[Dict[str, str]] = None,
        apply_defaults: bool = False,
    ) -> None:
        """Apply parsed docstring display names and descriptions to schema properties."""
        if not schema or not doc_info:
            return
        props = schema.get("properties", {})
        if not isinstance(props, dict):
            return
        param_descs = doc_info.get("params", {}) or {}
        param_display_names = doc_info.get("param_display_names", {}) or {}
        for field_name, prop_schema in props.items():
            if not isinstance(prop_schema, dict):
                continue
            param_name = field_to_param.get(field_name, field_name) if field_to_param else field_name
            if not isinstance(param_name, str):
                continue
            param_name = param_name.removesuffix("[]")
            if param_name in param_display_names:
                prop_schema["title"] = param_display_names[param_name]
            elif apply_defaults and not prop_schema.get("title"):
                prop_schema["title"] = field_name
            if param_name in param_descs:
                prop_schema["description"] = param_descs[param_name]
            elif apply_defaults and "description" not in prop_schema:
                prop_schema["description"] = ""
    def _generate_unilab_json_command_schema(
        self, method_args: list, docstring: Optional[str] = None,
        import_map: Optional[Dict[str, str]] = None,
        apply_doc_defaults: bool = False,
    ) -> Dict[str, Any]:
        """根据方法参数和 docstring 生成 UniLabJsonCommand schema"""
        doc_info = parse_docstring(docstring)
        param_descs = doc_info.get("params", {})
        schema = {
            "type": "object",
@@ -598,12 +637,10 @@ class Registry:
                    param_name, param_type, param_default, import_map=import_map
                )
            if param_name in param_descs:
                schema["properties"][param_name]["description"] = param_descs[param_name]
            if param_required:
                schema["required"].append(param_name)
        self._apply_docstring_param_metadata(schema, doc_info, apply_defaults=apply_doc_defaults)
        return schema
    def _generate_status_types_schema(self, status_methods: Dict[str, Any]) -> Dict[str, Any]:
@@ -799,6 +836,7 @@ class Registry:
            type_str = "UniLabJsonCommandAsync" if is_async else "UniLabJsonCommand"
            params = method_info.get("params", [])
            method_doc = method_info.get("docstring")
            method_doc_info = parse_docstring(method_doc)
            goal_schema = self._generate_schema_from_ast_params(params, method_name, method_doc, imap)
            if action_args is not None:
@@ -828,7 +866,11 @@ class Registry:
            # action handles: 从 @action(handles=[...]) 提取并转换为标准格式
            raw_handles = (action_args or {}).get("handles")
-            handles = normalize_ast_action_handles(raw_handles) if isinstance(raw_handles, list) else (raw_handles or {})
+            handles = (
                normalize_ast_action_handles(raw_handles)
                if isinstance(raw_handles, list)
                else (raw_handles or {})
            )
            # placeholder_keys: 先从参数类型自动检测，再用装饰器显式配置覆盖/补充
            pk = detect_placeholder_keys(params)
@@ -847,7 +889,12 @@ class Registry:
                "goal": goal,
                "feedback": (action_args or {}).get("feedback") or {},
                "result": (action_args or {}).get("result") or {},
-                "schema": wrap_action_schema(goal_schema, action_name, result_schema=result_schema),
+                "schema": wrap_action_schema(
                    goal_schema,
                    action_name,
                    description=(action_args or {}).get("description") or method_doc_info.get("description", ""),
                    result_schema=result_schema,
                ),
                "goal_default": goal_default,
                "handles": handles,
                "placeholder_keys": pk,
@@ -886,7 +933,11 @@ class Registry:
                action_name = f"auto-{action_name}"
            raw_handles = action_args.get("handles")
-            handles = normalize_ast_action_handles(raw_handles) if isinstance(raw_handles, list) else (raw_handles or {})
+            handles = (
                normalize_ast_action_handles(raw_handles)
                if isinstance(raw_handles, list)
                else (raw_handles or {})
            )
            method_params = method_info.get("params", [])
@@ -979,7 +1030,10 @@ class Registry:
                "schema": schema,
                "goal_default": goal_default,
                "handles": handles,
-                "placeholder_keys": {**detect_placeholder_keys(method_params), **(action_args.get("placeholder_keys") or {})},
+                "placeholder_keys": {
                    **detect_placeholder_keys(method_params),
                    **(action_args.get("placeholder_keys") or {}),
                },
            }
            if action_args.get("always_free") or method_info.get("always_free"):
                action_entry["always_free"] = True
@@ -988,13 +1042,22 @@ class Registry:
            nt = normalize_enum_value(action_args.get("node_type"), NodeType)
            if nt:
                action_entry["node_type"] = nt
            goal_schema_for_docs = action_entry.get("schema", {}).get("properties", {}).get("goal", {})
            self._apply_docstring_param_metadata(
                goal_schema_for_docs,
                parse_docstring(method_info.get("docstring")),
                goal,
                apply_defaults=True,
            )
            action_value_mappings[action_name] = action_entry
        action_value_mappings = dict(sorted(action_value_mappings.items()))
        # --- init_param_schema = { config: <init_params>, data: <status_types> } ---
        init_params = ast_meta.get("init_params", [])
-        config_schema = self._generate_schema_from_ast_params(init_params, "__init__", import_map=imap)
+        config_schema = self._generate_schema_from_ast_params(
            init_params, "__init__", ast_meta.get("init_docstring"), import_map=imap
        )
        data_schema = self._generate_status_schema_from_ast(
            ast_meta.get("status_properties", {}), imap
        )
@@ -1042,7 +1105,6 @@ class Registry:
    ) -> Dict[str, Any]:
        """Generate JSON Schema from AST-extracted parameter list."""
        doc_info = parse_docstring(docstring)
        param_descs = doc_info.get("params", {})
        schema: Dict[str, Any] = {
            "type": "object",
@@ -1072,12 +1134,10 @@ class Registry:
                    pname, ptype, pdefault, import_map
                )
            if pname in param_descs:
                schema["properties"][pname]["description"] = param_descs[pname]
            if prequired:
                schema["required"].append(pname)
        self._apply_docstring_param_metadata(schema, doc_info, apply_defaults=True)
        return schema
    def _generate_status_schema_from_ast(
@@ -1807,7 +1867,7 @@ class Registry:
                        else:
                            action_key = f"auto-{k}"
                        goal_schema = self._generate_unilab_json_command_schema(
-                            v["args"], import_map=enhanced_import_map
+                            v["args"], docstring=v.get("docstring"), import_map=enhanced_import_map
                        )
                        ret_type = v.get("return_type", "")
                        result_schema = None
@@ -1816,7 +1876,13 @@ class Registry:
                                "result", ret_type, None, import_map=enhanced_import_map
                            )
                        old_cfg = old_action_configs.get(action_key) or old_action_configs.get(f"auto-{k}", {})
-                        new_schema = wrap_action_schema(goal_schema, action_key, result_schema=result_schema)
+                        doc_info = parse_docstring(v.get("docstring"))
                        new_schema = wrap_action_schema(
                            goal_schema,
                            action_key,
                            description=doc_info.get("description", ""),
                            result_schema=result_schema,
                        )
                        old_schema = old_cfg.get("schema", {})
                        if old_schema:
                            preserve_field_descriptions(new_schema, old_schema)
@@ -1882,6 +1948,12 @@ class Registry:
                        merged_pk = dict(old_cfg.get("placeholder_keys", {}))
                        merged_pk.update(detect_placeholder_keys(v["args"]))
                        goal_schema_for_docs = (
                            entry_schema.get("properties", {}).get("goal", {})
                            if isinstance(entry_schema, dict)
                            else {}
                        )
                        self._apply_docstring_param_metadata(goal_schema_for_docs, doc_info, entry_goal)
                        entry = {
                            "type": entry_type,
@@ -1902,7 +1974,8 @@ class Registry:
                    device_config["init_param_schema"] = {}
                    init_schema = self._generate_unilab_json_command_schema(
-                        enhanced_info["init_params"], "__init__",
+                        enhanced_info["init_params"],
                        docstring=enhanced_info.get("init_docstring"),
                        import_map=enhanced_import_map,
                    )
                    device_config["init_param_schema"]["config"] = init_schema
@@ -1949,7 +2022,9 @@ class Registry:
                            action_str_type_mapping[action_type_str] = target_type
                            if target_type is not None:
                                try:
-                                    action_config["goal_default"] = ROS2MessageInstance(target_type.Goal()).get_python_dict()
+                                    action_config["goal_default"] = ROS2MessageInstance(
                                        target_type.Goal()
                                    ).get_python_dict()
                                except Exception:
                                    action_config["goal_default"] = {}
                                prev_schema = action_config.get("schema", {})
@@ -2141,6 +2216,7 @@ class Registry:
                                "unilabos_device_id": {
                                    "type": "string",
                                    "default": "",
                                    "title": "设备ID",
                                    "description": "UniLabOS设备ID，用于指定执行动作的具体设备实例",
                                },
                                **schema["properties"]["goal"]["properties"],
@@ -2212,7 +2288,14 @@ class Registry:
 lab_registry = Registry()
-def build_registry(registry_paths=None, devices_dirs=None, upload_registry=False, check_mode=False, complete_registry=False, external_only=False):
+def build_registry(
    registry_paths=None,
    devices_dirs=None,
    upload_registry=False,
    check_mode=False,
    complete_registry=False,
    external_only=False,
 ):
    """
    构建或获取Registry单例实例
    """
@@ -2226,7 +2309,12 @@ def build_registry(registry_paths=None, devices_dirs=None, upload_registry=False
            if path not in current_paths:
                lab_registry.registry_paths.append(path)
-    lab_registry.setup(devices_dirs=devices_dirs, upload_registry=upload_registry, complete_registry=complete_registry, external_only=external_only)
+    lab_registry.setup(
        devices_dirs=devices_dirs,
        upload_registry=upload_registry,
        complete_registry=complete_registry,
        external_only=external_only,
    )
    # 将 AST 扫描的字符串类型替换为实际 ROS2 消息类（仅查找 ROS2 类型，不 import 设备模块）
    lab_registry.resolve_all_types()
--- a/unilabos/registry/utils.py
+++ b/unilabos/registry/utils.py
@@ -36,16 +36,40 @@ class ROSMsgNotFound(Exception):
 # ---------------------------------------------------------------------------
 _SECTION_RE = re.compile(r"^(\w[\w\s]*):\s*$")
 _PARAM_HEADER_RE = re.compile(
    r"^\s*(?P<name>\w[\w]*)\s*(?:\[(?P<display_name>[^\]]+)\])?(?:\s*\([^)]*\))?\s*$"
 )
 def _parse_docstring_param_header(param_part: str) -> Tuple[str, Optional[str]]:
    """Parse ``name[display_name]`` or Google-style ``name (type)``."""
    match = _PARAM_HEADER_RE.match(param_part.strip())
    if not match:
        return param_part.strip().split("(")[0].strip(), None
    display_name = match.group("display_name")
    if display_name is not None:
        display_name = display_name.strip() or None
    return match.group("name").strip(), display_name
 def parse_docstring(docstring: Optional[str]) -> Dict[str, Any]:
    """
-    解析 Google-style docstring，提取描述和参数说明。
+    解析 docstring，提取描述和参数说明。
    支持:
      - Google-style ``Args:`` / ``Parameters:`` 小节
      - 直接参数行 ``field: desc``
      - 带显示名参数行 ``field[Display Name]: desc``
    Returns:
-        {"description": "短描述", "params": {"param1": "参数1描述", ...}}
+        {
            "description": "短描述",
            "params": {"param1": "参数1描述", ...},
            "param_display_names": {"param1": "显示名", ...},
        }
    """
-    result: Dict[str, Any] = {"description": "", "params": {}}
+    result: Dict[str, Any] = {"description": "", "params": {}, "param_display_names": {}}
    if not docstring:
        return result
@@ -53,33 +77,53 @@ def parse_docstring(docstring: Optional[str]) -> Dict[str, Any]:
    if not lines:
        return result
    result["description"] = lines[0].strip()
    in_args = False
    current_section: Optional[str] = None
    current_param: Optional[str] = None
    current_display_name: Optional[str] = None
    current_desc_parts: list = []
-    for line in lines[1:]:
+    def flush_current_param() -> None:
        nonlocal current_param, current_display_name, current_desc_parts
        if current_param is None:
            return
        result["params"][current_param] = "\n".join(current_desc_parts).strip()
        if current_display_name:
            result["param_display_names"][current_param] = current_display_name
        current_param = None
        current_display_name = None
        current_desc_parts = []
    first_line = lines[0].strip()
    start_index = 0
    if not _SECTION_RE.match(first_line) and ":" not in first_line:
        result["description"] = first_line
        start_index = 1
    for line in lines[start_index:]:
        stripped = line.strip()
        if not stripped:
            if current_param is not None:
                current_desc_parts.append("")
            continue
        section_match = _SECTION_RE.match(stripped)
        if section_match:
-            if current_param is not None:
+            flush_current_param()
-                result["params"][current_param] = "\n".join(current_desc_parts).strip()
+            current_section = section_match.group(1).lower()
-                current_param = None
+            in_args = current_section in ("args", "arguments", "parameters", "params")
                current_desc_parts = []
            section_name = section_match.group(1).lower()
            in_args = section_name in ("args", "arguments", "parameters", "params")
            continue
-        if not in_args:
+        parse_as_param = in_args or current_section is None
        if not parse_as_param:
            continue
-        if ":" in stripped and not stripped.startswith(" "):
+        if ":" in stripped:
-            if current_param is not None:
+            flush_current_param()
                result["params"][current_param] = "\n".join(current_desc_parts).strip()
            param_part, _, desc_part = stripped.partition(":")
-            param_name = param_part.strip().split("(")[0].strip()
+            param_name, display_name = _parse_docstring_param_header(param_part)
            current_param = param_name
            current_display_name = display_name
            current_desc_parts = [desc_part.strip()]
        elif current_param is not None:
            aline = line
@@ -89,8 +133,7 @@ def parse_docstring(docstring: Optional[str]) -> Dict[str, Any]:
                aline = aline[1:]
            current_desc_parts.append(aline.strip())
-    if current_param is not None:
+    flush_current_param()
        result["params"][current_param] = "\n".join(current_desc_parts).strip()
    return result
--- a/unilabos/resources/bioyond/bottle_carriers.py
+++ b/unilabos/resources/bioyond/bottle_carriers.py
@@ -1,4 +1,4 @@
-from pylabrobot.resources import create_homogeneous_resources, Coordinate, ResourceHolder, create_ordered_items_2d, Container
+from pylabrobot.resources import create_homogeneous_resources, Coordinate, ResourceHolder, create_ordered_items_2d
 from unilabos.resources.itemized_carrier import BottleCarrier
 from unilabos.resources.bioyond.bottles import (
@@ -9,28 +9,6 @@ from unilabos.resources.bioyond.bottles import (
    BIOYOND_PolymerStation_Reagent_Bottle,
    BIOYOND_PolymerStation_Flask,
 )
 def BIOYOND_PolymerStation_Tip(name: str, size_x: float = 8.0, size_y: float = 8.0, size_z: float = 50.0) -> Container:
    """创建单个枪头资源
    Args:
        name: 枪头名称
        size_x: 枪头宽度 (mm)
        size_y: 枪头长度 (mm)
        size_z: 枪头高度 (mm)
    Returns:
        Container: 枪头容器
    """
    return Container(
        name=name,
        size_x=size_x,
        size_y=size_y,
        size_z=size_z,
        category="tip",
        model="BIOYOND_PolymerStation_Tip",
    )
 # 命名约定：试剂瓶-Bottle，烧杯-Beaker，烧瓶-Flask,小瓶-Vial
@@ -344,88 +322,3 @@ def BIOYOND_Electrolyte_1BottleCarrier(name: str) -> BottleCarrier:
    carrier.num_items_z = 1
    carrier[0] = BIOYOND_PolymerStation_Solution_Beaker(f"{name}_beaker_1")
    return carrier
 def BIOYOND_PolymerStation_TipBox(
    name: str,
    size_x: float = 127.76,  # 枪头盒宽度
    size_y: float = 85.48,   # 枪头盒长度
    size_z: float = 100.0,   # 枪头盒高度
    barcode: str = None,
 ) -> BottleCarrier:
    """创建4×6枪头盒 (24个枪头) - 使用 BottleCarrier 结构
    Args:
        name: 枪头盒名称
        size_x: 枪头盒宽度 (mm)
        size_y: 枪头盒长度 (mm)
        size_z: 枪头盒高度 (mm)
        barcode: 条形码
    Returns:
        BottleCarrier: 包含24个枪头孔位的枪头盒载架
    布局说明:
        - 4行×6列 (A-D, 1-6)
        - 枪头孔位间距: 18mm (x方向) × 18mm (y方向)
        - 起始位置居中对齐
        - 索引顺序: 列优先 (0=A1, 1=B1, 2=C1, 3=D1, 4=A2, ...)
    """
    # 枪头孔位参数
    num_cols = 6  # 1-6 (x方向)
    num_rows = 4  # A-D (y方向)
    tip_diameter = 8.0  # 枪头孔位直径
    tip_spacing_x = 18.0  # 列间距 (增加到18mm，更宽松)
    tip_spacing_y = 18.0  # 行间距 (增加到18mm，更宽松)
    # 计算起始位置 (居中对齐)
    total_width = (num_cols - 1) * tip_spacing_x + tip_diameter
    total_height = (num_rows - 1) * tip_spacing_y + tip_diameter
    start_x = (size_x - total_width) / 2
    start_y = (size_y - total_height) / 2
    # 使用 create_ordered_items_2d 创建孔位
    # create_ordered_items_2d 返回的 key 是数字索引: 0, 1, 2, ...
    # 顺序是列优先: 先y后x (即 0=A1, 1=B1, 2=C1, 3=D1, 4=A2, 5=B2, ...)
    sites = create_ordered_items_2d(
        klass=ResourceHolder,
        num_items_x=num_cols,
        num_items_y=num_rows,
        dx=start_x,
        dy=start_y,
        dz=5.0,
        item_dx=tip_spacing_x,
        item_dy=tip_spacing_y,
        size_x=tip_diameter,
        size_y=tip_diameter,
        size_z=50.0,  # 枪头深度
    )
    # 更新 sites 中每个 ResourceHolder 的名称
    for k, v in sites.items():
        v.name = f"{name}_{v.name}"
    # 创建枪头盒载架
    # 注意：不设置 category，使用默认的 "bottle_carrier"，这样前端会显示为完整的矩形载架
    tip_box = BottleCarrier(
        name=name,
        size_x=size_x,
        size_y=size_y,
        size_z=size_z,
        sites=sites,  # 直接使用数字索引的 sites
        model="BIOYOND_PolymerStation_TipBox",
    )
    # 设置自定义属性
    tip_box.barcode = barcode
    tip_box.tip_count = 24  # 4行×6列
    tip_box.num_items_x = num_cols
    tip_box.num_items_y = num_rows
    tip_box.num_items_z = 1
    # ⭐ 枪头盒不需要放入子资源
    # 与其他 carrier 不同，枪头盒在 Bioyond 中是一个整体
    # 不需要追踪每个枪头的状态，保持为空的 ResourceHolder 即可
    # 这样前端会显示24个空槽位，可以用于放置枪头
    return tip_box
--- a/unilabos/resources/bioyond/bottles.py
+++ b/unilabos/resources/bioyond/bottles.py
@@ -116,9 +116,7 @@ def BIOYOND_PolymerStation_TipBox(
    size_z: float = 100.0,   # 枪头盒高度
    barcode: str = None,
 ):
-    """创建4×6枪头盒 (24个枪头) - 使用 BottleCarrier 结构
+    """创建4×6枪头盒 (24个枪头)
    注意：此函数已弃用，请使用 bottle_carriers.py 中的版本
    Args:
        name: 枪头盒名称
@@ -128,11 +126,55 @@ def BIOYOND_PolymerStation_TipBox(
        barcode: 条形码
    Returns:
-        BottleCarrier: 包含24个枪头孔位的枪头盒载架
+        TipBoxCarrier: 包含24个枪头孔位的枪头盒
    """
-    # 重定向到 bottle_carriers.py 中的实现
+    from pylabrobot.resources import Container, Coordinate
-    from unilabos.resources.bioyond.bottle_carriers import BIOYOND_PolymerStation_TipBox as TipBox_Carrier
+
-    return TipBox_Carrier(name=name, size_x=size_x, size_y=size_y, size_z=size_z, barcode=barcode)
+    # 创建枪头盒容器
    tip_box = Container(
        name=name,
        size_x=size_x,
        size_y=size_y,
        size_z=size_z,
        category="tip_rack",
        model="BIOYOND_PolymerStation_TipBox_4x6",
    )
    # 设置自定义属性
    tip_box.barcode = barcode
    tip_box.tip_count = 24  # 4行×6列
    tip_box.num_items_x = 6  # 6列
    tip_box.num_items_y = 4  # 4行
    # 创建24个枪头孔位 (4行×6列)
    # 假设孔位间距为 9mm
    tip_spacing_x = 9.0  # 列间距
    tip_spacing_y = 9.0  # 行间距
    start_x = 14.38  # 第一个孔位的x偏移
    start_y = 11.24  # 第一个孔位的y偏移
    for row in range(4):  # A, B, C, D
        for col in range(6):  # 1-6
            spot_name = f"{chr(65 + row)}{col + 1}"  # A1, A2, ..., D6
            x = start_x + col * tip_spacing_x
            y = start_y + row * tip_spacing_y
            # 创建枪头孔位容器
            tip_spot = Container(
                name=spot_name,
                size_x=8.0,  # 单个枪头孔位大小
                size_y=8.0,
                size_z=size_z - 10.0,  # 略低于盒子高度
                category="tip_spot",
            )
            # 添加到枪头盒
            tip_box.assign_child_resource(
                tip_spot,
                location=Coordinate(x=x, y=y, z=0)
            )
    return tip_box
 def BIOYOND_PolymerStation_Flask(
--- a/unilabos/resources/graphio.py
+++ b/unilabos/resources/graphio.py
@@ -42,7 +42,7 @@ def canonicalize_nodes_data(
    Returns:
        ResourceTreeSet: 标准化后的资源树集合
    """
-    print_status(f"{len(nodes)} Resources loaded", "info")
+    print_status(f"{len(nodes)} Resources loaded:", "info")
    # 第一步：基本预处理（处理graphml的label字段）
    outer_host_node_id = None
@@ -797,12 +797,9 @@ def resource_bioyond_to_plr(bioyond_materials: list[dict], type_mapping: Dict[st
                    bottle = plr_material[number] = initialize_resource(
                        {"name": f'{detail["name"]}_{number}', "class": reverse_type_mapping[typeName][0]}, resource_type=ResourcePLR
                    )
-                    # 只有具有 tracker 属性的容器才设置液体信息（如 Bottle, Well）
+                    bottle.tracker.liquids = [
-                    # ResourceHolder 等不支持液体追踪的容器跳过
+                        (detail["name"], float(detail.get("quantity", 0)) if detail.get("quantity") else 0)
-                    if hasattr(bottle, "tracker"):
+                    ]
                        bottle.tracker.liquids = [
                            (detail["name"], float(detail.get("quantity", 0)) if detail.get("quantity") else 0)
                        ]
                    bottle.code = detail.get("code", "")
                    logger.debug(f"  └─ [子物料] {detail['name']} → {plr_material.name}[{number}] (类型:{typeName})")
                else:
@@ -811,11 +808,9 @@ def resource_bioyond_to_plr(bioyond_materials: list[dict], type_mapping: Dict[st
            # 只对有 capacity 属性的容器（液体容器）处理液体追踪
            if hasattr(plr_material, 'capacity'):
                bottle = plr_material[0] if plr_material.capacity > 0 else plr_material
-                # 确保 bottle 有 tracker 属性才设置液体信息
+                bottle.tracker.liquids = [
-                if hasattr(bottle, "tracker"):
+                    (material["name"], float(material.get("quantity", 0)) if material.get("quantity") else 0)
-                    bottle.tracker.liquids = [
+                ]
                        (material["name"], float(material.get("quantity", 0)) if material.get("quantity") else 0)
                    ]
        plr_materials.append(plr_material)
@@ -844,29 +839,24 @@ def resource_bioyond_to_plr(bioyond_materials: list[dict], type_mapping: Dict[st
                wh_name = loc.get("whName")
                logger.debug(f"[物料位置] {unique_name} 尝试放置到 warehouse: {wh_name} (Bioyond坐标: x={loc.get('x')}, y={loc.get('y')}, z={loc.get('z')})")
                # Bioyond坐标映射 (重要！): x→行(1=A,2=B...), y→列(1=01,2=02...), z→层(通常=1)
                # 必须在warehouse映射之前先获取坐标，以便后续调整
                x = loc.get("x", 1)  # 行号 (1-based: 1=A, 2=B, 3=C, 4=D)
                y = loc.get("y", 1)  # 列号 (1-based: 1=01, 2=02, 3=03...)
                z = loc.get("z", 1)  # 层号 (1-based, 通常为1)
                # 特殊处理: Bioyond的"堆栈1"需要映射到"堆栈1左"或"堆栈1右"
-                # 根据列号(y)判断: 1-4映射到左侧, 5-8映射到右侧
+                # 根据列号(x)判断: 1-4映射到左侧, 5-8映射到右侧
                if wh_name == "堆栈1":
-                    if 1 <= y <= 4:
+                    x_val = loc.get("x", 1)
                    if 1 <= x_val <= 4:
                        wh_name = "堆栈1左"
-                    elif 5 <= y <= 8:
+                    elif 5 <= x_val <= 8:
                        wh_name = "堆栈1右"
                        y = y - 4  # 调整列号: 5-8映射到1-4
                    else:
-                        logger.warning(f"物料 {material['name']} 的列号 y={y} 超出范围，无法映射到堆栈1左或堆栈1右")
+                        logger.warning(f"物料 {material['name']} 的列号 x={x_val} 超出范围，无法映射到堆栈1左或堆栈1右")
                        continue
                # 特殊处理: Bioyond的"站内Tip盒堆栈"也需要进行拆分映射
                if wh_name == "站内Tip盒堆栈":
-                    if y == 1:
+                    y_val = loc.get("y", 1)
                    if y_val == 1:
                        wh_name = "站内Tip盒堆栈(右)"
-                    elif y in [2, 3]:
+                    elif y_val in [2, 3]:
                        wh_name = "站内Tip盒堆栈(左)"
                        y = y - 1  # 调整列号，因为左侧仓库对应的 Bioyond y=2 实际上是它的第1列
@@ -874,6 +864,15 @@ def resource_bioyond_to_plr(bioyond_materials: list[dict], type_mapping: Dict[st
                    warehouse = deck.warehouses[wh_name]
                    logger.debug(f"[Warehouse匹配] 找到warehouse: {wh_name} (容量: {warehouse.capacity}, 行×列: {warehouse.num_items_x}×{warehouse.num_items_y})")
                    # Bioyond坐标映射 (重要！): x→行(1=A,2=B...), y→列(1=01,2=02...), z→层(通常=1)
                    x = loc.get("x", 1)  # 行号 (1-based: 1=A, 2=B, 3=C, 4=D)
                    y = loc.get("y", 1)  # 列号 (1-based: 1=01, 2=02, 3=03...)
                    z = loc.get("z", 1)  # 层号 (1-based, 通常为1)
                    # 如果是右侧堆栈，需要调整列号 (5→1, 6→2, 7→3, 8→4)
                    if wh_name == "堆栈1右":
                        y = y - 4  # 将5-8映射到1-4
                    # 特殊处理竖向warehouse（站内试剂存放堆栈、测量小瓶仓库）
                    # 这些warehouse使用 vertical-col-major 布局
                    if wh_name in ["站内试剂存放堆栈", "测量小瓶仓库(测密度)"]:
--- a/unilabos/resources/itemized_carrier.py
+++ b/unilabos/resources/itemized_carrier.py
@@ -179,11 +179,6 @@ class ItemizedCarrier(ResourcePLR):
          idx = i
          break
    if idx is None:
      # 反序列化时无法匹配 site（名称或坐标均不符）。
      # WareHouse 通过 sites 追踪占用，无需将子资源加入 PLR 子树，直接跳过避免命名冲突。
      return
    if not reassign and self.sites[idx] is not None:
      raise ValueError(f"a site with index {idx} already exists")
    location = list(self.child_locations.values())[idx]
--- a/unilabos/resources/plr_additional_res_reg.py
+++ b/unilabos/resources/plr_additional_res_reg.py
@@ -18,9 +18,3 @@ def register():
    from unilabos.devices.liquid_handling.rviz_backend import UniLiquidHandlerRvizBackend
    from unilabos.devices.liquid_handling.laiyu.backend.laiyu_v_backend import UniLiquidHandlerLaiyuBackend
    # noinspection PyUnresolvedReferences
    from unilabos.resources.bioyond.decks import (
        BIOYOND_PolymerReactionStation_Deck,
        BIOYOND_PolymerPreparationStation_Deck,
        BIOYOND_YB_Deck,
    )
--- a/unilabos/resources/resource_tracker.py
+++ b/unilabos/resources/resource_tracker.py
@@ -423,7 +423,6 @@ class ResourceTreeSet(object):
                "deck": "deck",
                "tip_rack": "tip_rack",
                "tip_spot": "tip_spot",
                "tip": "tip",  # 添加 tip 类型支持
                "tube": "tube",
                "bottle_carrier": "bottle_carrier",
                "material_hole": "material_hole",
@@ -606,19 +605,11 @@ class ResourceTreeSet(object):
                },
                "rotation": {"x": 0, "y": 0, "z": 0, "type": "Rotation"},
                "category": res.config.get("category", plr_type),
-                # WareHouse 通过 sites 字符串追踪占位，不依赖 PLR children tree。
+                "children": [node_to_plr_dict(child, has_model) for child in node.children],
                # 将 WareHouse 子节点排除在外，避免同名载架出现在多个 WareHouse 下时
                # PLR _check_naming_conflicts 报命名冲突。
                "children": [] if res.type == "warehouse" else [node_to_plr_dict(child, has_model) for child in node.children],
                "parent_name": res.parent_instance_name,
            }
            if has_model:
                d["model"] = res.config.get("model", None)
            # 仅当 PLR dict 中含有子节点时才禁用 setup()，
            # 防止 setup() 预分配子资源后 PLR deserialize 再次分配同名资源产生命名冲突。
            # 若 children 为空，则保留 setup=True，依赖 setup() 来初始化仓库。
            if "setup" in d and d.get("children"):
                d["setup"] = False
            return d
        plr_resources = []
@@ -871,34 +862,13 @@ class ResourceTreeSet(object):
                                    f"已存在，跳过"
                                )
                        # 移除本地有但远端已不存在的物料（以远端为准）
                        remote_material_names = {m.res_content.name for m in remote_child.children}
                        removed_count = 0
                        for child in list(local_sub_device.children):
                            if child.res_content.name not in remote_material_names:
                                local_sub_device.children.remove(child)
                                removed_count += 1
                                logger.info(
                                    f"移除远端已不存在的物料: '{remote_root_id}/{remote_child_name}/{child.res_content.name}'"
                                )
                        if added_count > 0:
                            logger.info(
                                f"Device '{remote_root_id}/{remote_child_name}': "
                                f"从远端同步了 {added_count} 个物料子树"
                            )
                        if removed_count > 0:
                            logger.info(
                                f"Device '{remote_root_id}/{remote_child_name}': "
                                f"移除了 {removed_count} 个远端已删除的物料"
                            )
                    else:
                        # 二级物料已存在，比较三级子节点是否缺失
                        if remote_child_name not in local_children_map:
                            logger.warning(
                                f"物料 '{remote_root_id}/{remote_child_name}' 在远端存在但本地不存在，跳过"
                            )
                            continue
                        local_material = local_children_map[remote_child_name]
                        local_material_children_map = {child.res_content.name: child for child in
                                                       local_material.children}
@@ -914,28 +884,11 @@ class ResourceTreeSet(object):
                                    f"物料 '{remote_root_id}/{remote_child_name}/{remote_sub_name}' "
                                    f"已存在，跳过"
                                )
                        # 移除本地有但远端已不存在的子物料（以远端为准）
                        remote_sub_names = {s.res_content.name for s in remote_child.children}
                        removed_count = 0
                        for child in list(local_material.children):
                            if child.res_content.name not in remote_sub_names:
                                local_material.children.remove(child)
                                removed_count += 1
                                logger.info(
                                    f"移除远端已不存在的子物料: '{remote_root_id}/{remote_child_name}/{child.res_content.name}'"
                                )
                        if added_count > 0:
                            logger.info(
                                f"物料 '{remote_root_id}/{remote_child_name}': "
                                f"从远端同步了 {added_count} 个子物料"
                            )
                        if removed_count > 0:
                            logger.info(
                                f"物料 '{remote_root_id}/{remote_child_name}': "
                                f"移除了 {removed_count} 个远端已删除的子物料"
                            )
            else:
                # 情况1: 一级节点是物料（不是 device）
                # 检查是否已存在
@@ -1376,16 +1329,6 @@ class DeviceNodeResourceTracker(object):
                else:
                    res_list.extend(self.loop_find_resource(r, type(query_resource), "unilabos_uuid", res_uuid))
            # 同一资源对象可能通过"直接注册"和"作为父资源子节点"被搜索到两次，按对象 id 去重
            seen_ids: set = set()
            deduped = []
            for item in res_list:
                oid = id(item[1])
                if oid not in seen_ids:
                    seen_ids.add(oid)
                    deduped.append(item)
            res_list = deduped
            if not try_mode:
                assert len(res_list) > 0, f"没有找到资源 (uuid={res_uuid})，请检查资源是否存在"
                assert len(res_list) == 1, f"通过uuid={res_uuid} 找到多个资源，请检查资源是否唯一: {res_list}"
@@ -1422,14 +1365,6 @@ class DeviceNodeResourceTracker(object):
                        r, resource_cls_type, identifier_key, getattr(query_resource, identifier_key)
                    )
                )
        seen_ids2: set = set()
        deduped2 = []
        for item in res_list:
            oid = id(item[1])
            if oid not in seen_ids2:
                seen_ids2.add(oid)
                deduped2.append(item)
        res_list = deduped2
        if not try_mode:
            assert len(res_list) > 0, f"没有找到资源 {query_resource}，请检查资源是否存在"
            assert len(res_list) == 1, f"{query_resource} 找到多个资源，请检查资源是否唯一: {res_list}"
--- a/unilabos/test/experiments/dispensing_station_bioyond.json
+++ b/unilabos/test/experiments/dispensing_station_bioyond.json
@@ -15,92 +15,92 @@
                "z": 0
            },
            "config": {
-                "api_key": "<BIOYOND_API_KEY>",
+                "api_key": "YOUR_API_KEY",
-                "api_host": "http://<BIOYOND_HOST>:<BIOYOND_PORT>",
+                "api_host": "http://your-api-host:port",
                "material_type_mappings": {
                    "BIOYOND_PolymerStation_1FlaskCarrier": [
                        "烧杯",
-                        "<UUID_FLASK_CARRIER_TYPE>"
+                        "uuid-placeholder-flask"
                    ],
                    "BIOYOND_PolymerStation_1BottleCarrier": [
                        "试剂瓶",
-                        "<UUID_BOTTLE_CARRIER_TYPE>"
+                        "uuid-placeholder-bottle"
                    ],
                    "BIOYOND_PolymerStation_6StockCarrier": [
                        "分装板",
-                        "<UUID_6STOCK_CARRIER_TYPE>"
+                        "uuid-placeholder-stock-6"
                    ],
                    "BIOYOND_PolymerStation_Liquid_Vial": [
                        "10%分装小瓶",
-                        "<UUID_LIQUID_VIAL_TYPE>"
+                        "uuid-placeholder-liquid-vial"
                    ],
                    "BIOYOND_PolymerStation_Solid_Vial": [
                        "90%分装小瓶",
-                        "<UUID_SOLID_VIAL_TYPE>"
+                        "uuid-placeholder-solid-vial"
                    ],
                    "BIOYOND_PolymerStation_8StockCarrier": [
                        "样品板",
-                        "<UUID_8STOCK_CARRIER_TYPE>"
+                        "uuid-placeholder-stock-8"
                    ],
                    "BIOYOND_PolymerStation_Solid_Stock": [
                        "样品瓶",
-                        "<UUID_SOLID_STOCK_TYPE>"
+                        "uuid-placeholder-solid-stock"
                    ]
                },
                "warehouse_mapping": {
                    "粉末堆栈": {
-                        "uuid": "<UUID_POWDER_WAREHOUSE>",
+                        "uuid": "uuid-placeholder-powder-stack",
                        "site_uuids": {
-                            "A01": "<UUID_POWDER_A01>",
+                            "A01": "uuid-placeholder-powder-A01",
-                            "A02": "<UUID_POWDER_A02>",
+                            "A02": "uuid-placeholder-powder-A02",
-                            "A03": "<UUID_POWDER_A03>",
+                            "A03": "uuid-placeholder-powder-A03",
-                            "A04": "<UUID_POWDER_A04>",
+                            "A04": "uuid-placeholder-powder-A04",
-                            "B01": "<UUID_POWDER_B01>",
+                            "B01": "uuid-placeholder-powder-B01",
-                            "B02": "<UUID_POWDER_B02>",
+                            "B02": "uuid-placeholder-powder-B02",
-                            "B03": "<UUID_POWDER_B03>",
+                            "B03": "uuid-placeholder-powder-B03",
-                            "B04": "<UUID_POWDER_B04>",
+                            "B04": "uuid-placeholder-powder-B04",
-                            "C01": "<UUID_POWDER_C01>",
+                            "C01": "uuid-placeholder-powder-C01",
-                            "C02": "<UUID_POWDER_C02>",
+                            "C02": "uuid-placeholder-powder-C02",
-                            "C03": "<UUID_POWDER_C03>",
+                            "C03": "uuid-placeholder-powder-C03",
-                            "C04": "<UUID_POWDER_C04>",
+                            "C04": "uuid-placeholder-powder-C04",
-                            "D01": "<UUID_POWDER_D01>",
+                            "D01": "uuid-placeholder-powder-D01",
-                            "D02": "<UUID_POWDER_D02>",
+                            "D02": "uuid-placeholder-powder-D02",
-                            "D03": "<UUID_POWDER_D03>",
+                            "D03": "uuid-placeholder-powder-D03",
-                            "D04": "<UUID_POWDER_D04>"
+                            "D04": "uuid-placeholder-powder-D04"
                        }
                    },
                    "溶液堆栈": {
-                        "uuid": "<UUID_SOLUTION_WAREHOUSE>",
+                        "uuid": "uuid-placeholder-liquid-stack",
                        "site_uuids": {
-                            "A01": "<UUID_SOLUTION_A01>",
+                            "A01": "uuid-placeholder-liquid-A01",
-                            "A02": "<UUID_SOLUTION_A02>",
+                            "A02": "uuid-placeholder-liquid-A02",
-                            "A03": "<UUID_SOLUTION_A03>",
+                            "A03": "uuid-placeholder-liquid-A03",
-                            "A04": "<UUID_SOLUTION_A04>",
+                            "A04": "uuid-placeholder-liquid-A04",
-                            "B01": "<UUID_SOLUTION_B01>",
+                            "B01": "uuid-placeholder-liquid-B01",
-                            "B02": "<UUID_SOLUTION_B02>",
+                            "B02": "uuid-placeholder-liquid-B02",
-                            "B03": "<UUID_SOLUTION_B03>",
+                            "B03": "uuid-placeholder-liquid-B03",
-                            "B04": "<UUID_SOLUTION_B04>",
+                            "B04": "uuid-placeholder-liquid-B04",
-                            "C01": "<UUID_SOLUTION_C01>",
+                            "C01": "uuid-placeholder-liquid-C01",
-                            "C02": "<UUID_SOLUTION_C02>",
+                            "C02": "uuid-placeholder-liquid-C02",
-                            "C03": "<UUID_SOLUTION_C03>",
+                            "C03": "uuid-placeholder-liquid-C03",
-                            "C04": "<UUID_SOLUTION_C04>",
+                            "C04": "uuid-placeholder-liquid-C04",
-                            "D01": "<UUID_SOLUTION_D01>",
+                            "D01": "uuid-placeholder-liquid-D01",
-                            "D02": "<UUID_SOLUTION_D02>",
+                            "D02": "uuid-placeholder-liquid-D02",
-                            "D03": "<UUID_SOLUTION_D03>",
+                            "D03": "uuid-placeholder-liquid-D03",
-                            "D04": "<UUID_SOLUTION_D04>"
+                            "D04": "uuid-placeholder-liquid-D04"
                        }
                    },
                    "试剂堆栈": {
-                        "uuid": "<UUID_REAGENT_WAREHOUSE>",
+                        "uuid": "uuid-placeholder-reagent-stack",
                        "site_uuids": {
-                            "A01": "<UUID_REAGENT_A01>",
+                            "A01": "uuid-placeholder-reagent-A01",
-                            "A02": "<UUID_REAGENT_A02>",
+                            "A02": "uuid-placeholder-reagent-A02",
-                            "A03": "<UUID_REAGENT_A03>",
+                            "A03": "uuid-placeholder-reagent-A03",
-                            "A04": "<UUID_REAGENT_A04>",
+                            "A04": "uuid-placeholder-reagent-A04",
-                            "B01": "<UUID_REAGENT_B01>",
+                            "B01": "uuid-placeholder-reagent-B01",
-                            "B02": "<UUID_REAGENT_B02>",
+                            "B02": "uuid-placeholder-reagent-B02",
-                            "B03": "<UUID_REAGENT_B03>",
+                            "B03": "uuid-placeholder-reagent-B03",
-                            "B04": "<UUID_REAGENT_B04>"
+                            "B04": "uuid-placeholder-reagent-B04"
                        }
                    }
                },
@@ -156,4 +156,4 @@
            "data": {}
        }
    ]
-}
+}
--- a/unilabos/test/experiments/xkc_sensor_test.json
+++ b/unilabos/test/experiments/xkc_sensor_test.json
@@ -1,29 +0,0 @@
 {
    "nodes": [
        {
            "id": "Liquid_Sensor_1",
            "name": "XKC Sensor",
            "children": [],
            "parent": null,
            "type": "device",
            "class": "sensor.xkc_rs485",
            "position": {
                "x": 0,
                "y": 0,
                "z": 0
            },
            "config": {
                "port": "/dev/tty.usbserial-3110",
                "baudrate": 9600,
                "device_id": 1,
                "threshold": 300,
                "timeout": 3.0
            },
            "data": {
                "level": false,
                "rssi": 0
            }
        }
    ],
    "links": []
 }
--- a/unilabos/test/experiments/zdt_motor_test.json
+++ b/unilabos/test/experiments/zdt_motor_test.json
@@ -1,28 +0,0 @@
 {
    "nodes": [
        {
            "id": "ZDT_Motor",
            "name": "ZDT Motor",
            "children": [],
            "parent": null,
            "type": "device",
            "class": "motor.zdt_x42",
            "position": {
                "x": 0,
                "y": 0,
                "z": 0
            },
            "config": {
                "port": "/dev/tty.usbserial-3110",
                "baudrate": 115200,
                "device_id": 1,
                "debug": true
            },
            "data": {
                "position": 0,
                "status": "idle"
            }
        }
    ],
    "links": []
 }
--- a/unilabos/utils/environment_check.py
+++ b/unilabos/utils/environment_check.py
@@ -33,10 +33,83 @@ _USE_UV: Optional[bool] = None
 def _has_uv() -> bool:
    global _USE_UV
    if _USE_UV is None:
-        _USE_UV = shutil.which("uv") is not None
+        uv_path = shutil.which("uv")
        if not uv_path:
            _USE_UV = False
        else:
            try:
                result = subprocess.run([uv_path, "--version"], capture_output=True, text=True, timeout=10)
                _USE_UV = result.returncode == 0
            except Exception:
                _USE_UV = False
    return _USE_UV
 def _install_command(installer: str, package: str, upgrade: bool, is_chinese: bool) -> List[str]:
    if installer == "uv":
        # uv >= 0.5 默认要求虚拟环境，对 conda env 会报 "No virtual environment found"。
        # 显式 --python sys.executable 让 uv 把当前解释器（conda/venv/system 都行）
        # 视为目标环境，绕开 venv 检测。
        cmd = ["uv", "pip", "install", "--python", sys.executable]
        if upgrade:
            cmd.append("--upgrade")
        cmd.append(package)
        if is_chinese:
            cmd.extend(["--index-url", "https://mirrors.tuna.tsinghua.edu.cn/pypi/web/simple"])
        return cmd
    cmd = [sys.executable, "-m", "pip", "install", "--disable-pip-version-check"]
    if upgrade:
        cmd.append("--upgrade")
    cmd.append(package)
    if is_chinese:
        cmd.extend(["-i", "https://mirrors.tuna.tsinghua.edu.cn/pypi/web/simple"])
    return cmd
 def _installer_candidates() -> List[str]:
    installers: List[str] = []
    if _has_uv():
        installers.append("uv")
    installers.append("pip")
    return installers
 def _git_url_from_requirement(requirement: str) -> Optional[str]:
    if not requirement.startswith("git+"):
        return None
    return requirement[4:].split("#", 1)[0]
 def _repo_dir_name(git_url: str) -> str:
    repo_name = git_url.rstrip("/").rsplit("/", 1)[-1]
    return repo_name[:-4] if repo_name.endswith(".git") else repo_name
 def _print_manual_git_install_hint(requirement: str) -> None:
    git_url = _git_url_from_requirement(requirement)
    if not git_url:
        return
    repo_dir = _repo_dir_name(git_url)
    install_cmd = (
        f'uv pip install --python "{sys.executable}" -e .'
        if _has_uv()
        else f"{sys.executable} -m pip install -e ."
    )
    if _is_chinese_locale() and not _has_uv():
        install_cmd += " -i https://mirrors.tuna.tsinghua.edu.cn/pypi/web/simple"
    print_status("Git 依赖自动安装失败，通常是网络连接被重置或代码托管站点暂时不可达。", "warning")
    print_status("可以手动拉取代码后在本地安装:", "warning")
    print_status(f"  git clone {git_url}", "warning")
    print_status(f"  cd {repo_dir}", "warning")
    print_status("  git pull", "warning")
    print_status(f"  {install_cmd}", "warning")
    print_status(f"如果目录 {repo_dir} 已存在，直接进入该目录执行 git pull 后再安装。", "warning")
    print_status("如果 git clone 仍失败，请切换网络/代理，或从浏览器下载源码后进入源码目录执行本地安装命令。", "warning")
 def _install_packages(
    packages: List[str],
    upgrade: bool = False,
@@ -53,7 +126,7 @@ def _install_packages(
        return True
    is_chinese = _is_chinese_locale()
-    use_uv = _has_uv()
+    installers = _installer_candidates()
    failed: List[str] = []
    for pkg in packages:
@@ -63,35 +136,30 @@ def _install_packages(
        else:
            print_status(f"正在{action_word} {pkg}...", "info")
-        if use_uv:
+        pkg_installed = False
-            cmd = ["uv", "pip", "install"]
+        last_error = "unknown error"
            if upgrade:
                cmd.append("--upgrade")
            cmd.append(pkg)
            if is_chinese:
                cmd.extend(["--index-url", "https://mirrors.tuna.tsinghua.edu.cn/pypi/web/simple"])
        else:
            cmd = [sys.executable, "-m", "pip", "install"]
            if upgrade:
                cmd.append("--upgrade")
            cmd.append(pkg)
            if is_chinese:
                cmd.extend(["-i", "https://mirrors.tuna.tsinghua.edu.cn/pypi/web/simple"])
-        try:
+        for installer in installers:
-            result = subprocess.run(cmd, capture_output=True, text=True, timeout=300)
+            cmd = _install_command(installer, pkg, upgrade, is_chinese)
-            if result.returncode == 0:
+            try:
-                installer = "uv" if use_uv else "pip"
+                result = subprocess.run(cmd, capture_output=True, text=True, timeout=300)
-                print_status(f"✓ {pkg} {action_word}成功 (via {installer})", "success")
+                if result.returncode == 0:
-            else:
+                    print_status(f"✓ {pkg} {action_word}成功 (via {installer})", "success")
-                stderr_short = result.stderr.strip().split("\n")[-1] if result.stderr else "unknown error"
+                    pkg_installed = True
-                print_status(f"× {pkg} {action_word}失败: {stderr_short}", "error")
+                    break
-                failed.append(pkg)
+
-        except subprocess.TimeoutExpired:
+                last_error = result.stderr.strip().split("\n")[-1] if result.stderr else "unknown error"
-            print_status(f"× {pkg} {action_word}超时 (300s)", "error")
+                print_status(f"× {pkg} {action_word}失败 (via {installer}): {last_error}", "warning")
-            failed.append(pkg)
+            except subprocess.TimeoutExpired:
-        except Exception as e:
+                last_error = "timeout after 300s"
-            print_status(f"× {pkg} {action_word}异常: {e}", "error")
+                print_status(f"× {pkg} {action_word}超时 (via {installer}, 300s)", "warning")
            except Exception as e:
                last_error = str(e)
                print_status(f"× {pkg} {action_word}异常 (via {installer}): {e}", "warning")
        if not pkg_installed:
            print_status(f"× {pkg} {action_word}失败: {last_error}", "error")
            _print_manual_git_install_hint(pkg)
            failed.append(pkg)
    if failed:
--- a/unilabos/utils/import_manager.py
+++ b/unilabos/utils/import_manager.py
@@ -206,6 +206,7 @@ class ImportManager:
            "ast_analysis_success": False,
            "import_map": {},
            "init_params": [],
            "init_docstring": None,
            "status_methods": {},
            "action_methods": {},
        }
@@ -251,6 +252,7 @@ class ImportManager:
        # 映射到统一字段名（与 registry.py complete_registry 消费端一致）
        result["init_params"] = body.get("init_params", [])
        result["init_docstring"] = body.get("init_docstring")
        result["status_methods"] = body.get("status_properties", {})
        result["action_methods"] = {
            k: {
--- a/unilabos/workflow/init.py
+++ b/unilabos/workflow/init.py
--- a/unilabos/workflow/from_python_script.py
+++ b/unilabos/workflow/from_python_script.py
@@ -1,241 +0,0 @@
 import ast
 import json
 from typing import Dict, List, Any, Tuple, Optional
 from .common import WorkflowGraph, RegistryAdapter
 Json = Dict[str, Any]
 # ---------------- Converter ----------------
 class DeviceMethodConverter:
    """
    - 字段统一：resource_name（原 device_class）、template_name（原 action_key）
    - params 单层；inputs 使用 'params.' 前缀
    - SimpleGraph.add_workflow_node 负责变量连线与边
    """
    def __init__(self, device_registry: Optional[Dict[str, Any]] = None):
        self.graph = WorkflowGraph()
        self.variable_sources: Dict[str, Dict[str, Any]] = {}        # var -> {node_id, output_name}
        self.instance_to_resource: Dict[str, Optional[str]] = {}     # 实例名 -> resource_name
        self.node_id_counter: int = 0
        self.registry = RegistryAdapter(device_registry or {})
    # ---- helpers ----
    def _new_node_id(self) -> int:
        nid = self.node_id_counter
        self.node_id_counter += 1
        return nid
    def _assign_targets(self, targets) -> List[str]:
        names: List[str] = []
        import ast
        if isinstance(targets, ast.Tuple):
            for elt in targets.elts:
                if isinstance(elt, ast.Name):
                    names.append(elt.id)
        elif isinstance(targets, ast.Name):
            names.append(targets.id)
        return names
    def _extract_device_instantiation(self, node) -> Optional[Tuple[str, str]]:
        import ast
        if not isinstance(node.value, ast.Call):
            return None
        callee = node.value.func
        if isinstance(callee, ast.Name):
            class_name = callee.id
        elif isinstance(callee, ast.Attribute) and isinstance(callee.value, ast.Name):
            class_name = callee.attr
        else:
            return None
        if isinstance(node.targets[0], ast.Name):
            instance = node.targets[0].id
            return instance, class_name
        return None
    def _extract_call(self, call) -> Tuple[str, str, Dict[str, Any], str]:
        import ast
        owner_name, method_name, call_kind = "", "", "func"
        if isinstance(call.func, ast.Attribute):
            method_name = call.func.attr
            if isinstance(call.func.value, ast.Name):
                owner_name = call.func.value.id
                call_kind = "instance" if owner_name in self.instance_to_resource else "class_or_module"
            elif isinstance(call.func.value, ast.Attribute) and isinstance(call.func.value.value, ast.Name):
                owner_name = call.func.value.attr
                call_kind = "class_or_module"
        elif isinstance(call.func, ast.Name):
            method_name = call.func.id
            call_kind = "func"
        def pack(node):
            if isinstance(node, ast.Name):
                return {"type": "variable", "value": node.id}
            if isinstance(node, ast.Constant):
                return {"type": "constant", "value": node.value}
            if isinstance(node, ast.Dict):
                return {"type": "dict", "value": self._parse_dict(node)}
            if isinstance(node, ast.List):
                return {"type": "list", "value": self._parse_list(node)}
            return {"type": "raw", "value": ast.unparse(node) if hasattr(ast, "unparse") else str(node)}
        args: Dict[str, Any] = {}
        pos: List[Any] = []
        for a in call.args:
            pos.append(pack(a))
        for kw in call.keywords:
            args[kw.arg] = pack(kw.value)
        if pos:
            args["_positional"] = pos
        return owner_name, method_name, args, call_kind
    def _parse_dict(self, node) -> Dict[str, Any]:
        import ast
        out: Dict[str, Any] = {}
        for k, v in zip(node.keys, node.values):
            if isinstance(k, ast.Constant):
                key = str(k.value)
                if isinstance(v, ast.Name):
                    out[key] = f"var:{v.id}"
                elif isinstance(v, ast.Constant):
                    out[key] = v.value
                elif isinstance(v, ast.Dict):
                    out[key] = self._parse_dict(v)
                elif isinstance(v, ast.List):
                    out[key] = self._parse_list(v)
        return out
    def _parse_list(self, node) -> List[Any]:
        import ast
        out: List[Any] = []
        for elt in node.elts:
            if isinstance(elt, ast.Name):
                out.append(f"var:{elt.id}")
            elif isinstance(elt, ast.Constant):
                out.append(elt.value)
            elif isinstance(elt, ast.Dict):
                out.append(self._parse_dict(elt))
            elif isinstance(elt, ast.List):
                out.append(self._parse_list(elt))
        return out
    def _normalize_var_tokens(self, x: Any) -> Any:
        if isinstance(x, str) and x.startswith("var:"):
            return {"__var__": x[4:]}
        if isinstance(x, list):
            return [self._normalize_var_tokens(i) for i in x]
        if isinstance(x, dict):
            return {k: self._normalize_var_tokens(v) for k, v in x.items()}
        return x
    def _make_params_payload(self, resource_name: Optional[str], template_name: str, call_args: Dict[str, Any]) -> Dict[str, Any]:
        input_keys = self.registry.get_action_input_keys(resource_name, template_name) if resource_name else []
        defaults = self.registry.get_action_goal_default(resource_name, template_name) if resource_name else {}
        params: Dict[str, Any] = dict(defaults)
        def unpack(p):
            t, v = p.get("type"), p.get("value")
            if t == "variable":
                return {"__var__": v}
            if t == "dict":
                return self._normalize_var_tokens(v)
            if t == "list":
                return self._normalize_var_tokens(v)
            return v
        for k, p in call_args.items():
            if k == "_positional":
                continue
            params[k] = unpack(p)
        pos = call_args.get("_positional", [])
        if pos:
            if input_keys:
                for i, p in enumerate(pos):
                    if i >= len(input_keys):
                        break
                    name = input_keys[i]
                    if name in params:
                        continue
                    params[name] = unpack(p)
            else:
                for i, p in enumerate(pos):
                    params[f"arg_{i}"] = unpack(p)
        return params
    # ---- handlers ----
    def _on_assign(self, stmt):
        import ast
        inst = self._extract_device_instantiation(stmt)
        if inst:
            instance, code_class = inst
            resource_name = self.registry.resolve_resource_by_classname(code_class)
            self.instance_to_resource[instance] = resource_name
            return
        if isinstance(stmt.value, ast.Call):
            owner, method, call_args, kind = self._extract_call(stmt.value)
            if kind == "instance":
                device_key = owner
                resource_name = self.instance_to_resource.get(owner)
            else:
                device_key = owner
                resource_name = self.registry.resolve_resource_by_classname(owner)
            module = self.registry.get_device_module(resource_name)
            params = self._make_params_payload(resource_name, method, call_args)
            nid = self._new_node_id()
            self.graph.add_workflow_node(
                nid,
                device_key=device_key,
                resource_name=resource_name,      # ✅
                module=module,
                template_name=method,             # ✅
                params=params,
                variable_sources=self.variable_sources,
                add_ready_if_no_vars=True,
                prev_node_id=(nid - 1) if nid > 0 else None,
            )
            out_vars = self._assign_targets(stmt.targets[0])
            for var in out_vars:
                self.variable_sources[var] = {"node_id": nid, "output_name": "result"}
    def _on_expr(self, stmt):
        import ast
        if not isinstance(stmt.value, ast.Call):
            return
        owner, method, call_args, kind = self._extract_call(stmt.value)
        if kind == "instance":
            device_key = owner
            resource_name = self.instance_to_resource.get(owner)
        else:
            device_key = owner
            resource_name = self.registry.resolve_resource_by_classname(owner)
        module = self.registry.get_device_module(resource_name)
        params = self._make_params_payload(resource_name, method, call_args)
        nid = self._new_node_id()
        self.graph.add_workflow_node(
            nid,
            device_key=device_key,
            resource_name=resource_name,      # ✅
            module=module,
            template_name=method,             # ✅
            params=params,
            variable_sources=self.variable_sources,
            add_ready_if_no_vars=True,
            prev_node_id=(nid - 1) if nid > 0 else None,
        )
    def convert(self, python_code: str):
        tree = ast.parse(python_code)
        for stmt in tree.body:
            if isinstance(stmt, ast.Assign):
                self._on_assign(stmt)
            elif isinstance(stmt, ast.Expr):
                self._on_expr(stmt)
        return self
--- a/unilabos/workflow/from_xdl.py
+++ b/unilabos/workflow/from_xdl.py
@@ -1,131 +0,0 @@
 from typing import List, Any, Dict
 import xml.etree.ElementTree as ET
 def convert_to_type(val: str) -> Any:
    """将字符串值转换为适当的数据类型"""
    if val == "True":
        return True
    if val == "False":
        return False
    if val == "?":
        return None
    if val.endswith(" g"):
        return float(val.split(" ")[0])
    if val.endswith("mg"):
        return float(val.split("mg")[0])
    elif val.endswith("mmol"):
        return float(val.split("mmol")[0]) / 1000
    elif val.endswith("mol"):
        return float(val.split("mol")[0])
    elif val.endswith("ml"):
        return float(val.split("ml")[0])
    elif val.endswith("RPM"):
        return float(val.split("RPM")[0])
    elif val.endswith(" °C"):
        return float(val.split(" ")[0])
    elif val.endswith(" %"):
        return float(val.split(" ")[0])
    return val
 def flatten_xdl_procedure(procedure_elem: ET.Element) -> List[ET.Element]:
    """展平嵌套的XDL程序结构"""
    flattened_operations = []
    TEMP_UNSUPPORTED_PROTOCOL = ["Purge", "Wait", "Stir", "ResetHandling"]
    def extract_operations(element: ET.Element):
        if element.tag not in ["Prep", "Reaction", "Workup", "Purification", "Procedure"]:
            if element.tag not in TEMP_UNSUPPORTED_PROTOCOL:
                flattened_operations.append(element)
        for child in element:
            extract_operations(child)
    for child in procedure_elem:
        extract_operations(child)
    return flattened_operations
 def parse_xdl_content(xdl_content: str) -> tuple:
    """解析XDL内容"""
    try:
        xdl_content_cleaned = "".join(c for c in xdl_content if c.isprintable())
        root = ET.fromstring(xdl_content_cleaned)
        synthesis_elem = root.find("Synthesis")
        if synthesis_elem is None:
            return None, None, None
        # 解析硬件组件
        hardware_elem = synthesis_elem.find("Hardware")
        hardware = []
        if hardware_elem is not None:
            hardware = [{"id": c.get("id"), "type": c.get("type")} for c in hardware_elem.findall("Component")]
        # 解析试剂
        reagents_elem = synthesis_elem.find("Reagents")
        reagents = []
        if reagents_elem is not None:
            reagents = [{"name": r.get("name"), "role": r.get("role", "")} for r in reagents_elem.findall("Reagent")]
        # 解析程序
        procedure_elem = synthesis_elem.find("Procedure")
        if procedure_elem is None:
            return None, None, None
        flattened_operations = flatten_xdl_procedure(procedure_elem)
        return hardware, reagents, flattened_operations
    except ET.ParseError as e:
        raise ValueError(f"Invalid XDL format: {e}")
 def convert_xdl_to_dict(xdl_content: str) -> Dict[str, Any]:
    """
    将XDL XML格式转换为标准的字典格式
    Args:
        xdl_content: XDL XML内容
    Returns:
        转换结果，包含步骤和器材信息
    """
    try:
        hardware, reagents, flattened_operations = parse_xdl_content(xdl_content)
        if hardware is None:
            return {"error": "Failed to parse XDL content", "success": False}
        # 将XDL元素转换为字典格式
        steps_data = []
        for elem in flattened_operations:
            # 转换参数类型
            parameters = {}
            for key, val in elem.attrib.items():
                converted_val = convert_to_type(val)
                if converted_val is not None:
                    parameters[key] = converted_val
            step_dict = {
                "operation": elem.tag,
                "parameters": parameters,
                "description": elem.get("purpose", f"Operation: {elem.tag}"),
            }
            steps_data.append(step_dict)
        # 合并硬件和试剂为统一的labware_info格式
        labware_data = []
        labware_data.extend({"id": hw["id"], "type": "hardware", **hw} for hw in hardware)
        labware_data.extend({"name": reagent["name"], "type": "reagent", **reagent} for reagent in reagents)
        return {
            "success": True,
            "steps": steps_data,
            "labware": labware_data,
            "message": f"Successfully converted XDL to dict format. Found {len(steps_data)} steps and {len(labware_data)} labware items.",
        }
    except Exception as e:
        error_msg = f"XDL conversion failed: {str(e)}"
        return {"error": error_msg, "success": False}
--- a/unilabos_msgs/package.xml
+++ b/unilabos_msgs/package.xml
@@ -2,7 +2,7 @@
 <?xml-model href="http://download.ros.org/schema/package_format3.xsd" schematypens="http://www.w3.org/2001/XMLSchema"?>
 <package format="3">
  <name>unilabos_msgs</name>
-  <version>0.11.1</version>
+  <version>0.11.2</version>
  <description>ROS2 Messages package for unilabos devices</description>
  <maintainer email="changjh@pku.edu.cn">Junhan Chang</maintainer>
  <maintainer email="18435084+Xuwznln@users.noreply.github.com">Xuwznln</maintainer>
`@@ -1 +1 @@`
	`__version__ = "0.11.1"`	`__version__ = "0.11.2"`