Update docs

update "laiyu" missing init file.
fix "laiyu" missing init file.
2025-12-17 04:51:10 +00:00 · 2025-12-14 13:12:19 +08:00 · 2025-12-14 13:08:27 +08:00 · 2025-12-14 12:55:25 +08:00 · 2025-12-14 01:17:24 +08:00 · 2025-12-12 23:55:38 +08:00
55 changed files with 1772 additions and 752 deletions
--- a/.conda/recipe.yaml
+++ b/.conda/recipe.yaml
@@ -1,6 +1,6 @@
 package:
  name: unilabos
-  version: 0.10.11
+  version: 0.10.12
 source:
  path: ../unilabos
--- a/README.md
+++ b/README.md
@@ -39,7 +39,9 @@ Uni-Lab-OS recommends using `mamba` for environment management. Choose the appro
 ```bash
 # Create new environment
-mamba create -n unilab uni-lab::unilabos -c robostack-staging -c conda-forge
+mamba create -n unilab python=3.11.11
 mamba activate unilab
 mamba install -n unilab uni-lab::unilabos -c robostack-staging -c conda-forge
 ```
 ## Install Dev Uni-Lab-OS
--- a/README_zh.md
+++ b/README_zh.md
@@ -41,7 +41,9 @@ Uni-Lab-OS 建议使用 `mamba` 管理环境。根据您的操作系统选择适
 ```bash
 # 创建新环境
-mamba create -n unilab uni-lab::unilabos -c robostack-staging -c conda-forge
+mamba create -n unilab python=3.11.11
 mamba activate unilab
 mamba install -n unilab uni-lab::unilabos -c robostack-staging -c conda-forge
 ```
 2. 安装开发版 Uni-Lab-OS:
--- a/docs/user_guide/installation.md
+++ b/docs/user_guide/installation.md
@@ -317,45 +317,6 @@ unilab --help
 如果所有命令都正常输出，说明开发环境配置成功！
 ### 开发工具推荐
 #### IDE
 - **PyCharm Professional**: 强大的 Python IDE，支持远程调试
 - **VS Code**: 轻量级，配合 Python 扩展使用
 - **Vim/Emacs**: 适合终端开发
 #### 推荐的 VS Code 扩展
 - Python
 - Pylance
 - ROS
 - URDF
 - YAML
 #### 调试工具
 ```bash
 # 安装调试工具
 pip install ipdb pytest pytest-cov -i https://mirrors.tuna.tsinghua.edu.cn/pypi/web/simple
 # 代码质量检查
 pip install black flake8 mypy -i https://mirrors.tuna.tsinghua.edu.cn/pypi/web/simple
 ```
 ### 设置 pre-commit 钩子（可选）
 ```bash
 # 安装 pre-commit
 pip install pre-commit -i https://mirrors.tuna.tsinghua.edu.cn/pypi/web/simple
 # 设置钩子
 pre-commit install
 # 手动运行检查
 pre-commit run --all-files
 ```
 ---
 ## 验证安装
--- a/recipes/msgs/recipe.yaml
+++ b/recipes/msgs/recipe.yaml
@@ -1,6 +1,6 @@
 package:
  name: ros-humble-unilabos-msgs
-  version: 0.10.11
+  version: 0.10.12
 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: "0.10.11"
+  version: "0.10.12"
 source:
  path: ../..
--- a/scripts/workflow.py
+++ b/scripts/workflow.py
@@ -2,7 +2,6 @@ import json
 import logging
 import traceback
 import uuid
 import xml.etree.ElementTree as ET
 from typing import Any, Dict, List
 import networkx as nx
@@ -25,7 +24,15 @@ 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):
@@ -42,6 +49,7 @@ class SimpleGraph:
            "multigraph": False,
            "graph": {},
            "nodes": nodes_list,
            "edges": self.edges,
            "links": self.edges,
        }
@@ -58,495 +66,8 @@ 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='0.10.11',
+    version='0.10.12',
    packages=find_packages(),
    include_package_data=True,
    install_requires=['setuptools'],
--- a/unilabos/test/resources/init.py
+++ b/unilabos/test/resources/init.py
--- a/unilabos/test/resources/bioyond_materials_liquidhandling_1.json
+++ b/unilabos/test/resources/bioyond_materials_liquidhandling_1.json
--- a/unilabos/test/resources/bioyond_materials_liquidhandling_2.json
+++ b/unilabos/test/resources/bioyond_materials_liquidhandling_2.json
--- a/unilabos/test/resources/bioyond_materials_reaction.json
+++ b/unilabos/test/resources/bioyond_materials_reaction.json
--- a/unilabos/test/resources/test_bottle_carrier.py
+++ b/unilabos/test/resources/test_bottle_carrier.py
--- a/unilabos/test/resources/test_converter_bioyond.py
+++ b/unilabos/test/resources/test_converter_bioyond.py
--- a/unilabos/test/resources/test_itemized_carrier.py
+++ b/unilabos/test/resources/test_itemized_carrier.py
--- a/unilabos/test/resources/test_resourcetreeset.py
+++ b/unilabos/test/resources/test_resourcetreeset.py
--- a/unilabos/test/ros/init.py
+++ b/unilabos/test/ros/init.py
--- a/unilabos/test/ros/msgs/init.py
+++ b/unilabos/test/ros/msgs/init.py
--- a/unilabos/test/ros/msgs/test_basic.py
+++ b/unilabos/test/ros/msgs/test_basic.py
--- a/unilabos/test/ros/msgs/test_conversion.py
+++ b/unilabos/test/ros/msgs/test_conversion.py
--- a/unilabos/test/ros/msgs/test_mapping.py
+++ b/unilabos/test/ros/msgs/test_mapping.py
--- a/unilabos/test/ros/msgs/test_runner.py
+++ b/unilabos/test/ros/msgs/test_runner.py
--- a/unilabos/test/workflow/init.py
+++ b/unilabos/test/workflow/init.py
--- a/unilabos/test/workflow/example_bio.json
+++ b/unilabos/test/workflow/example_bio.json
--- a/unilabos/test/workflow/example_bio_graph.png
+++ b/unilabos/test/workflow/example_bio_graph.png
--- a/unilabos/test/workflow/example_prcxi.json
+++ b/unilabos/test/workflow/example_prcxi.json
--- a/unilabos/test/workflow/example_prcxi_graph.png
+++ b/unilabos/test/workflow/example_prcxi_graph.png
--- a/unilabos/test/workflow/example_prcxi_graph_20251022_1359.png
+++ b/unilabos/test/workflow/example_prcxi_graph_20251022_1359.png
--- a/test/workflow/merge_workflow.py
+++ b/test/workflow/merge_workflow.py
@@ -0,0 +1,35 @@
 import sys
 from datetime import datetime
 from pathlib import Path
 ROOT_DIR = Path(__file__).resolve().parents[2]
 if str(ROOT_DIR) not in sys.path:
    sys.path.insert(0, str(ROOT_DIR))
 import pytest
 from unilabos.workflow.convert_from_json import (
    convert_from_json,
    normalize_steps as _normalize_steps,
    normalize_labware as _normalize_labware,
 )
 from unilabos.workflow.common import draw_protocol_graph_with_ports
@pytest.mark.parametrize(
    "protocol_name",
    [
        "example_bio",
        # "bioyond_materials_liquidhandling_1",
        "example_prcxi",
    ],
 )
 def test_build_protocol_graph(protocol_name):
    data_path = Path(__file__).with_name(f"{protocol_name}.json")
    graph = convert_from_json(data_path, workstation_name="PRCXi")
    timestamp = datetime.now().strftime("%Y%m%d_%H%M")
    output_path = data_path.with_name(f"{protocol_name}_graph_{timestamp}.png")
    draw_protocol_graph_with_ports(graph, str(output_path))
    print(graph)
--- a/unilabos/init.py
+++ b/unilabos/init.py
@@ -1 +1 @@
-__version__ = "0.10.11"
+__version__ = "0.10.12"
--- a/unilabos/app/communication.py
+++ b/unilabos/app/communication.py
@@ -141,7 +141,7 @@ class CommunicationClientFactory:
        """
        if cls._client_cache is None:
            cls._client_cache = cls.create_client(protocol)
-            logger.info(f"[CommunicationFactory] Created {type(cls._client_cache).__name__} client")
+            logger.trace(f"[CommunicationFactory] Created {type(cls._client_cache).__name__} client")
        return cls._client_cache
--- a/unilabos/app/main.py
+++ b/unilabos/app/main.py
@@ -20,6 +20,7 @@ if unilabos_dir not in sys.path:
 from unilabos.utils.banner_print import print_status, print_unilab_banner
 from unilabos.config.config import load_config, BasicConfig, HTTPConfig
 def load_config_from_file(config_path):
    if config_path is None:
        config_path = os.environ.get("UNILABOS_BASICCONFIG_CONFIG_PATH", None)
@@ -41,7 +42,7 @@ def convert_argv_dashes_to_underscores(args: argparse.ArgumentParser):
    for i, arg in enumerate(sys.argv):
        for option_string in option_strings:
            if arg.startswith(option_string):
-                new_arg = arg[:2] + arg[2:len(option_string)].replace("-", "_") + arg[len(option_string):]
+                new_arg = arg[:2] + arg[2 : len(option_string)].replace("-", "_") + arg[len(option_string) :]
                sys.argv[i] = new_arg
                break
@@ -49,6 +50,8 @@ def convert_argv_dashes_to_underscores(args: argparse.ArgumentParser):
 def parse_args():
    """解析命令行参数"""
    parser = argparse.ArgumentParser(description="Start Uni-Lab Edge server.")
    subparsers = parser.add_subparsers(title="Valid subcommands", dest="command")
    parser.add_argument("-g", "--graph", help="Physical setup graph file path.")
    parser.add_argument("-c", "--controllers", default=None, help="Controllers config file path.")
    parser.add_argument(
@@ -153,21 +156,54 @@ def parse_args():
        default=False,
        help="Complete registry information",
    )
    # workflow upload subcommand
    workflow_parser = subparsers.add_parser(
        "workflow_upload",
        aliases=["wf"],
        help="Upload workflow from xdl/json/python files",
    )
    workflow_parser.add_argument(
        "-f",
        "--workflow_file",
        type=str,
        required=True,
        help="Path to the workflow file (JSON format)",
    )
    workflow_parser.add_argument(
        "-n",
        "--workflow_name",
        type=str,
        default=None,
        help="Workflow name, if not provided will use the name from file or filename",
    )
    workflow_parser.add_argument(
        "--tags",
        type=str,
        nargs="*",
        default=[],
        help="Tags for the workflow (space-separated)",
    )
    workflow_parser.add_argument(
        "--published",
        action="store_true",
        default=False,
        help="Whether to publish the workflow (default: False)",
    )
    return parser
 def main():
    """主函数"""
    # 解析命令行参数
-    args = parse_args()
+    parser = parse_args()
-    convert_argv_dashes_to_underscores(args)
+    convert_argv_dashes_to_underscores(parser)
-    args_dict = vars(args.parse_args())
+    args = parser.parse_args()
    args_dict = vars(args)
    # 环境检查 - 检查并自动安装必需的包 (可选)
    if not args_dict.get("skip_env_check", False):
        from unilabos.utils.environment_check import check_environment
        print_status("正在进行环境依赖检查...", "info")
        if not check_environment(auto_install=True):
            print_status("环境检查失败，程序退出", "error")
            os._exit(1)
@@ -220,17 +256,18 @@ def main():
        logger.info(f"Log level set to '{BasicConfig.log_level}' from config file.")
    configure_logger(loglevel=BasicConfig.log_level, working_dir=working_dir)
-    if args_dict["addr"] == "test":
+    if args.addr != parser.get_default("addr"):
-        print_status("使用测试环境地址", "info")
+        if args.addr == "test":
-        HTTPConfig.remote_addr = "https://uni-lab.test.bohrium.com/api/v1"
+            print_status("使用测试环境地址", "info")
-    elif args_dict["addr"] == "uat":
+            HTTPConfig.remote_addr = "https://uni-lab.test.bohrium.com/api/v1"
-        print_status("使用uat环境地址", "info")
+        elif args.addr == "uat":
-        HTTPConfig.remote_addr = "https://uni-lab.uat.bohrium.com/api/v1"
+            print_status("使用uat环境地址", "info")
-    elif args_dict["addr"] == "local":
+            HTTPConfig.remote_addr = "https://uni-lab.uat.bohrium.com/api/v1"
-        print_status("使用本地环境地址", "info")
+        elif args.addr == "local":
-        HTTPConfig.remote_addr = "http://127.0.0.1:48197/api/v1"
+            print_status("使用本地环境地址", "info")
-    else:
+            HTTPConfig.remote_addr = "http://127.0.0.1:48197/api/v1"
-        HTTPConfig.remote_addr = args_dict.get("addr", "")
+        else:
            HTTPConfig.remote_addr = args.addr
    # 设置BasicConfig参数
    if args_dict.get("ak", ""):
@@ -239,9 +276,12 @@ def main():
    if args_dict.get("sk", ""):
        BasicConfig.sk = args_dict.get("sk", "")
        print_status("传入了sk参数，优先采用传入参数！", "info")
    BasicConfig.working_dir = working_dir
    workflow_upload = args_dict.get("command") in ("workflow_upload", "wf")
    # 使用远程资源启动
-    if args_dict["use_remote_resource"]:
+    if not workflow_upload and args_dict["use_remote_resource"]:
        print_status("使用远程资源启动", "info")
        from unilabos.app.web import http_client
@@ -254,7 +294,6 @@ def main():
    BasicConfig.port = args_dict["port"] if args_dict["port"] else BasicConfig.port
    BasicConfig.disable_browser = args_dict["disable_browser"] or BasicConfig.disable_browser
    BasicConfig.working_dir = working_dir
    BasicConfig.is_host_mode = not args_dict.get("is_slave", False)
    BasicConfig.slave_no_host = args_dict.get("slave_no_host", False)
    BasicConfig.upload_registry = args_dict.get("upload_registry", False)
@@ -283,9 +322,31 @@ def main():
    # 注册表
    lab_registry = build_registry(
-        args_dict["registry_path"], args_dict.get("complete_registry", False), args_dict["upload_registry"]
+        args_dict["registry_path"], args_dict.get("complete_registry", False), BasicConfig.upload_registry
    )
    if BasicConfig.upload_registry:
        # 设备注册到服务端 - 需要 ak 和 sk
        if BasicConfig.ak and BasicConfig.sk:
            print_status("开始注册设备到服务端...", "info")
            try:
                register_devices_and_resources(lab_registry)
                print_status("设备注册完成", "info")
            except Exception as e:
                print_status(f"设备注册失败: {e}", "error")
        else:
            print_status("未提供 ak 和 sk，跳过设备注册", "info")
    else:
        print_status("本次启动注册表不报送云端，如果您需要联网调试，请在启动命令增加--upload_registry", "warning")
    # 处理 workflow_upload 子命令
    if workflow_upload:
        from unilabos.workflow.wf_utils import handle_workflow_upload_command
        handle_workflow_upload_command(args_dict)
        print_status("工作流上传完成，程序退出", "info")
        os._exit(0)
    if not BasicConfig.ak or not BasicConfig.sk:
        print_status("后续运行必须拥有一个实验室，请前往 https://uni-lab.bohrium.com 注册实验室！", "warning")
        os._exit(1)
@@ -362,20 +423,6 @@ def main():
    args_dict["devices_config"] = resource_tree_set
    args_dict["graph"] = graph_res.physical_setup_graph
    if BasicConfig.upload_registry:
        # 设备注册到服务端 - 需要 ak 和 sk
        if BasicConfig.ak and BasicConfig.sk:
            print_status("开始注册设备到服务端...", "info")
            try:
                register_devices_and_resources(lab_registry)
                print_status("设备注册完成", "info")
            except Exception as e:
                print_status(f"设备注册失败: {e}", "error")
        else:
            print_status("未提供 ak 和 sk，跳过设备注册", "info")
    else:
        print_status("本次启动注册表不报送云端，如果您需要联网调试，请在启动命令增加--upload_registry", "warning")
    if args_dict["controllers"] is not None:
        args_dict["controllers_config"] = yaml.safe_load(open(args_dict["controllers"], encoding="utf-8"))
    else:
@@ -390,6 +437,7 @@ def main():
        comm_client = get_communication_client()
        if "websocket" in args_dict["app_bridges"]:
            args_dict["bridges"].append(comm_client)
            def _exit(signum, frame):
                comm_client.stop()
                sys.exit(0)
@@ -431,16 +479,13 @@ def main():
                resource_visualization.start()
            except OSError as e:
                if "AMENT_PREFIX_PATH" in str(e):
-                    print_status(
+                    print_status(f"ROS 2环境未正确设置，跳过3D可视化启动。错误详情: {e}", "warning")
                        f"ROS 2环境未正确设置，跳过3D可视化启动。错误详情: {e}",
                        "warning"
                    )
                    print_status(
                        "建议解决方案：\n"
                        "1. 激活Conda环境: conda activate unilab\n"
                        "2. 或使用 --backend simple 参数\n"
                        "3. 或使用 --visual disable 参数禁用可视化",
-                        "info"
+                        "info",
                    )
                else:
                    raise
--- a/unilabos/app/web/client.py
+++ b/unilabos/app/web/client.py
@@ -76,7 +76,8 @@ class HTTPClient:
            Dict[str, str]: 旧UUID到新UUID的映射关系 {old_uuid: new_uuid}
        """
        with open(os.path.join(BasicConfig.working_dir, "req_resource_tree_add.json"), "w", encoding="utf-8") as f:
-            f.write(json.dumps({"nodes": [x for xs in resources.dump() for x in xs], "mount_uuid": mount_uuid}, indent=4))
+            payload = {"nodes": [x for xs in resources.dump() for x in xs], "mount_uuid": mount_uuid}
            f.write(json.dumps(payload, indent=4))
        # 从序列化数据中提取所有节点的UUID（保存旧UUID）
        old_uuids = {n.res_content.uuid: n for n in resources.all_nodes}
        if not self.initialized or first_add:
@@ -331,6 +332,67 @@ class HTTPClient:
                logger.error(f"响应内容: {response.text}")
        return None
    def workflow_import(
        self,
        name: str,
        workflow_uuid: str,
        workflow_name: str,
        nodes: List[Dict[str, Any]],
        edges: List[Dict[str, Any]],
        tags: Optional[List[str]] = None,
        published: bool = False,
    ) -> Dict[str, Any]:
        """
        导入工作流到服务器
        Args:
            name: 工作流名称（顶层）
            workflow_uuid: 工作流UUID
            workflow_name: 工作流名称（data内部）
            nodes: 工作流节点列表
            edges: 工作流边列表
            tags: 工作流标签列表，默认为空列表
            published: 是否发布工作流，默认为False
        Returns:
            Dict: API响应数据，包含 code 和 data (uuid, name)
        """
        # target_lab_uuid 暂时使用默认值，后续由后端根据 ak/sk 获取
        payload = {
            "target_lab_uuid": "28c38bb0-63f6-4352-b0d8-b5b8eb1766d5",
            "name": name,
            "data": {
                "workflow_uuid": workflow_uuid,
                "workflow_name": workflow_name,
                "nodes": nodes,
                "edges": edges,
                "tags": tags if tags is not None else [],
                "published": published,
            },
        }
        # 保存请求到文件
        with open(os.path.join(BasicConfig.working_dir, "req_workflow_upload.json"), "w", encoding="utf-8") as f:
            f.write(json.dumps(payload, indent=4, ensure_ascii=False))
        response = requests.post(
            f"{self.remote_addr}/lab/workflow/owner/import",
            json=payload,
            headers={"Authorization": f"Lab {self.auth}"},
            timeout=60,
        )
        # 保存响应到文件
        with open(os.path.join(BasicConfig.working_dir, "res_workflow_upload.json"), "w", encoding="utf-8") as f:
            f.write(f"{response.status_code}" + "\n" + response.text)
        if response.status_code == 200:
            res = response.json()
            if "code" in res and res["code"] != 0:
                logger.error(f"导入工作流失败: {response.text}")
            return res
        else:
            logger.error(f"导入工作流失败: {response.status_code}, {response.text}")
            return {"code": response.status_code, "message": response.text}
 # 创建默认客户端实例
 http_client = HTTPClient()
--- a/unilabos/app/ws_client.py
+++ b/unilabos/app/ws_client.py
@@ -389,7 +389,7 @@ class MessageProcessor:
        self.is_running = True
        self.thread = threading.Thread(target=self._run, daemon=True, name="MessageProcessor")
        self.thread.start()
-        logger.info("[MessageProcessor] Started")
+        logger.trace("[MessageProcessor] Started")
    def stop(self) -> None:
        """停止消息处理线程"""
@@ -438,7 +438,7 @@ class MessageProcessor:
                    self.connected = True
                    self.reconnect_count = 0
-                    logger.info(f"[MessageProcessor] Connected to {self.websocket_url}")
+                    logger.trace(f"[MessageProcessor] Connected to {self.websocket_url}")
                    # 启动发送协程
                    send_task = asyncio.create_task(self._send_handler())
@@ -503,7 +503,7 @@ class MessageProcessor:
    async def _send_handler(self):
        """处理发送队列中的消息"""
-        logger.debug("[MessageProcessor] Send handler started")
+        logger.trace("[MessageProcessor] Send handler started")
        try:
            while self.connected and self.websocket:
@@ -939,7 +939,7 @@ class QueueProcessor:
        # 事件通知机制
        self.queue_update_event = threading.Event()
-        logger.info("[QueueProcessor] Initialized")
+        logger.trace("[QueueProcessor] Initialized")
    def set_websocket_client(self, websocket_client: "WebSocketClient"):
        """设置WebSocket客户端引用"""
@@ -954,7 +954,7 @@ class QueueProcessor:
        self.is_running = True
        self.thread = threading.Thread(target=self._run, daemon=True, name="QueueProcessor")
        self.thread.start()
-        logger.info("[QueueProcessor] Started")
+        logger.trace("[QueueProcessor] Started")
    def stop(self) -> None:
        """停止队列处理线程"""
@@ -965,7 +965,7 @@ class QueueProcessor:
    def _run(self):
        """运行队列处理主循环"""
-        logger.debug("[QueueProcessor] Queue processor started")
+        logger.trace("[QueueProcessor] Queue processor started")
        while self.is_running:
            try:
@@ -1175,7 +1175,6 @@ class WebSocketClient(BaseCommunicationClient):
        else:
            url = f"{scheme}://{parsed.netloc}/api/v1/ws/schedule"
        logger.debug(f"[WebSocketClient] URL: {url}")
        return url
    def start(self) -> None:
@@ -1188,13 +1187,11 @@ class WebSocketClient(BaseCommunicationClient):
            logger.error("[WebSocketClient] WebSocket URL not configured")
            return
        logger.info(f"[WebSocketClient] Starting connection to {self.websocket_url}")
        # 启动两个核心线程
        self.message_processor.start()
        self.queue_processor.start()
-        logger.info("[WebSocketClient] All threads started")
+        logger.trace("[WebSocketClient] All threads started")
    def stop(self) -> None:
        """停止WebSocket客户端"""
@@ -1314,3 +1311,19 @@ class WebSocketClient(BaseCommunicationClient):
            logger.info(f"[WebSocketClient] Job {job_log} cancelled successfully")
        else:
            logger.warning(f"[WebSocketClient] Failed to cancel job {job_log}")
    def publish_host_ready(self) -> None:
        """发布host_node ready信号"""
        if self.is_disabled or not self.is_connected():
            logger.debug("[WebSocketClient] Not connected, cannot publish host ready signal")
            return
        message = {
            "action": "host_node_ready",
            "data": {
                "status": "ready",
                "timestamp": time.time(),
            },
        }
        self.message_processor.send_message(message)
        logger.info("[WebSocketClient] Host node ready signal published")
--- a/unilabos/config/config.py
+++ b/unilabos/config/config.py
@@ -21,7 +21,8 @@ class BasicConfig:
    startup_json_path = None  # 填写绝对路径
    disable_browser = False  # 禁止浏览器自动打开
    port = 8002  # 本地HTTP服务
-    log_level: Literal['TRACE', 'DEBUG', 'INFO', 'WARNING', 'ERROR', 'CRITICAL'] = "DEBUG"  # 'TRACE', 'DEBUG', 'INFO', 'WARNING', 'ERROR', 'CRITICAL'
+    # 'TRACE', 'DEBUG', 'INFO', 'WARNING', 'ERROR', 'CRITICAL'
    log_level: Literal["TRACE", "DEBUG", "INFO", "WARNING", "ERROR", "CRITICAL"] = "DEBUG"
    @classmethod
    def auth_secret(cls):
@@ -41,7 +42,7 @@ class WSConfig:
 # HTTP配置
 class HTTPConfig:
-    remote_addr = "http://127.0.0.1:48197/api/v1"
+    remote_addr = "https://uni-lab.bohrium.com/api/v1"
 # ROS配置
@@ -65,13 +66,14 @@ def _update_config_from_module(module):
                    if not attr.startswith("_"):
                        setattr(obj, attr, getattr(getattr(module, name), attr))
 def _update_config_from_env():
    prefix = "UNILABOS_"
    for env_key, env_value in os.environ.items():
        if not env_key.startswith(prefix):
            continue
        try:
-            key_path = env_key[len(prefix):]  # Remove UNILAB_ prefix
+            key_path = env_key[len(prefix) :]  # Remove UNILAB_ prefix
            class_field = key_path.upper().split("_", 1)
            if len(class_field) != 2:
                logger.warning(f"[ENV] 环境变量格式不正确：{env_key}")
--- a/unilabos/devices/laiyu_liquid_test/init.py
+++ b/unilabos/devices/laiyu_liquid_test/init.py
--- a/unilabos/devices/liquid_handling/laiyu/init.py
+++ b/unilabos/devices/liquid_handling/laiyu/init.py
--- a/unilabos/devices/liquid_handling/liquid_handler_abstract.py
+++ b/unilabos/devices/liquid_handling/liquid_handler_abstract.py
@@ -988,6 +988,18 @@ class LiquidHandlerAbstract(LiquidHandlerMiddleware):
                dis_vols = [float(dis_vols)]
            else:
                dis_vols = [float(v) for v in dis_vols]
        # 统一混合次数为标量，防止数组/列表与 int 比较时报错
        if mix_times is not None and not isinstance(mix_times, (int, float)):
            try:
                mix_times = mix_times[0] if len(mix_times) > 0 else None
            except Exception:
                try:
                    mix_times = next(iter(mix_times))
                except Exception:
                    pass
        if mix_times is not None:
            mix_times = int(mix_times)
            # 识别传输模式
            num_sources = len(sources)
--- a/unilabos/devices/liquid_handling/prcxi/prcxi.py
+++ b/unilabos/devices/liquid_handling/prcxi/prcxi.py
@@ -5,6 +5,7 @@ import json
 import os
 import socket
 import time
 import uuid
 from typing import Any, List, Dict, Optional, Tuple, TypedDict, Union, Sequence, Iterator, Literal
 from pylabrobot.liquid_handling import (
@@ -856,7 +857,30 @@ class PRCXI9300Api:
    def _raw_request(self, payload: str) -> str:
        if self.debug:
-            return " "
+            # 调试/仿真模式下直接返回可解析的模拟 JSON，避免后续 json.loads 报错
            try:
                req = json.loads(payload)
                method = req.get("MethodName")
            except Exception:
                method = None
            data: Any = True
            if method in {"AddSolution"}:
                data = str(uuid.uuid4())
            elif method in {"AddWorkTabletMatrix", "AddWorkTabletMatrix2"}:
                data = {"Success": True, "Message": "debug mock"}
            elif method in {"GetErrorCode"}:
                data = ""
            elif method in {"RemoveErrorCodet", "Reset", "Start", "LoadSolution", "Pause", "Resume", "Stop"}:
                data = True
            elif method in {"GetStepStateList", "GetStepStatus", "GetStepState"}:
                data = []
            elif method in {"GetLocation"}:
                data = {"X": 0, "Y": 0, "Z": 0}
            elif method in {"GetResetStatus"}:
                data = False
            return json.dumps({"Success": True, "Msg": "debug mock", "Data": data})
        with contextlib.closing(socket.socket()) as sock:
            sock.settimeout(self.timeout)
            sock.connect((self.host, self.port))
--- a/unilabos/registry/devices/bioyond_dispensing_station.yaml
+++ b/unilabos/registry/devices/bioyond_dispensing_station.yaml
@@ -174,35 +174,6 @@ bioyond_dispensing_station:
          title: query_resource_by_name参数
          type: object
        type: UniLabJsonCommand
      auto-transfer_materials_to_reaction_station:
        feedback: {}
        goal: {}
        goal_default:
          target_device_id: null
          transfer_groups: null
        handles: {}
        placeholder_keys: {}
        result: {}
        schema:
          description: ''
          properties:
            feedback: {}
            goal:
              properties:
                target_device_id:
                  type: string
                transfer_groups:
                  type: array
              required:
              - target_device_id
              - transfer_groups
              type: object
            result: {}
          required:
          - goal
          title: transfer_materials_to_reaction_station参数
          type: object
        type: UniLabJsonCommand
      auto-workflow_sample_locations:
        feedback: {}
        goal: {}
--- a/unilabos/registry/devices/liquid_handler.yaml
+++ b/unilabos/registry/devices/liquid_handler.yaml
@@ -9333,7 +9333,34 @@ liquid_handler.prcxi:
          touch_tip: false
          use_channels:
          - 0
-        handles: {}
+        handles:
          input:
          - data_key: liquid
            data_source: handle
            data_type: resource
            handler_key: sources
            label: sources
          - data_key: liquid
            data_source: executor
            data_type: resource
            handler_key: targets
            label: targets
          - data_key: liquid
            data_source: executor
            data_type: resource
            handler_key: tip_rack
            label: tip_rack
          output:
          - data_key: liquid
            data_source: handle
            data_type: resource
            handler_key: sources_out
            label: sources
          - data_key: liquid
            data_source: executor
            data_type: resource
            handler_key: targets_out
            label: targets
        placeholder_keys:
          sources: unilabos_resources
          targets: unilabos_resources
--- a/unilabos/registry/registry.py
+++ b/unilabos/registry/registry.py
@@ -222,7 +222,7 @@ class Registry:
        abs_path = Path(path).absolute()
        resource_path = abs_path / "resources"
        files = list(resource_path.glob("*/*.yaml"))
-        logger.debug(f"[UniLab Registry] resources: {resource_path.exists()}, total: {len(files)}")
+        logger.trace(f"[UniLab Registry] load resources? {resource_path.exists()}, total: {len(files)}")
        current_resource_number = len(self.resource_type_registry) + 1
        for i, file in enumerate(files):
            with open(file, encoding="utf-8", mode="r") as f:
--- a/unilabos/resources/graphio.py
+++ b/unilabos/resources/graphio.py
@@ -42,13 +42,16 @@ 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）
-    for node in nodes:
+    outer_host_node_id = None
    for idx, node in enumerate(nodes):
        if node.get("label") is not None:
            node_id = node.pop("label")
            node["id"] = node["name"] = node_id
        if node["id"] == "host_node":
            outer_host_node_id = idx
        if not isinstance(node.get("config"), dict):
            node["config"] = {}
        if not node.get("type"):
@@ -76,7 +79,8 @@ def canonicalize_nodes_data(
            if k not in ["id", "uuid", "name", "description", "schema", "model", "icon", "parent_uuid", "parent", "type", "class", "position", "config", "data", "children", "pose"]:
                v = node.pop(k)
                node["config"][k] = v
-
+    if outer_host_node_id is not None:
        nodes.pop(outer_host_node_id)
    # 第二步：处理parent_relation
    id2idx = {node["id"]: idx for idx, node in enumerate(nodes)}
    for parent, children in parent_relation.items():
@@ -93,7 +97,7 @@ def canonicalize_nodes_data(
    for node in nodes:
        try:
-            print_status(f"DeviceId: {node['id']}, Class: {node['class']}", "info")
+            # print_status(f"DeviceId: {node['id']}, Class: {node['class']}", "info")
            # 使用标准化方法
            resource_instance = ResourceDictInstance.get_resource_instance_from_dict(node)
            known_nodes[node["id"]] = resource_instance
--- a/unilabos/ros/nodes/base_device_node.py
+++ b/unilabos/ros/nodes/base_device_node.py
@@ -582,7 +582,7 @@ class BaseROS2DeviceNode(Node, Generic[T]):
        except Exception as e:
            self.lab_logger().error(f"更新资源uuid失败: {e}")
            self.lab_logger().error(traceback.format_exc())
-        self.lab_logger().debug(f"资源更新结果: {response}")
+        self.lab_logger().trace(f"资源更新结果: {response}")
    async def get_resource(self, resources_uuid: List[str], with_children: bool = True) -> ResourceTreeSet:
        """
@@ -1164,7 +1164,6 @@ class BaseROS2DeviceNode(Node, Generic[T]):
                            execution_error = traceback.format_exc()
                            break
            ##### self.lab_logger().info(f"准备执行: {action_kwargs}, 函数: {ACTION.__name__}")
            time_start = time.time()
            time_overall = 100
            future = None
@@ -1172,35 +1171,36 @@ class BaseROS2DeviceNode(Node, Generic[T]):
                # 将阻塞操作放入线程池执行
                if asyncio.iscoroutinefunction(ACTION):
                    try:
-                        ##### self.lab_logger().info(f"异步执行动作 {ACTION}")
+                        self.lab_logger().trace(f"异步执行动作 {ACTION}")
-                        future = ROS2DeviceNode.run_async_func(ACTION, trace_error=False, **action_kwargs)
+                        def _handle_future_exception(fut: Future):
                        def _handle_future_exception(fut):
                            nonlocal execution_error, execution_success, action_return_value
                            try:
                                action_return_value = fut.result()
                                if isinstance(action_return_value, BaseException):
                                    raise action_return_value
                                execution_success = True
-                            except Exception as e:
+                            except Exception as _:
                                execution_error = traceback.format_exc()
                                error(
                                    f"异步任务 {ACTION.__name__} 报错了\n{traceback.format_exc()}\n原始输入：{action_kwargs}"
                                )
                        future = ROS2DeviceNode.run_async_func(ACTION, trace_error=False, **action_kwargs)
                        future.add_done_callback(_handle_future_exception)
                    except Exception as e:
                        execution_error = traceback.format_exc()
                        execution_success = False
                        self.lab_logger().error(f"创建异步任务失败: {traceback.format_exc()}")
                else:
-                    #####    self.lab_logger().info(f"同步执行动作 {ACTION}")
+                    self.lab_logger().trace(f"同步执行动作 {ACTION}")
                    future = self._executor.submit(ACTION, **action_kwargs)
-                    def _handle_future_exception(fut):
+                    def _handle_future_exception(fut: Future):
                        nonlocal execution_error, execution_success, action_return_value
                        try:
                            action_return_value = fut.result()
                            execution_success = True
-                        except Exception as e:
+                        except Exception as _:
                            execution_error = traceback.format_exc()
                            error(
                                f"同步任务 {ACTION.__name__} 报错了\n{traceback.format_exc()}\n原始输入：{action_kwargs}"
@@ -1305,7 +1305,7 @@ class BaseROS2DeviceNode(Node, Generic[T]):
                        get_result_info_str(execution_error, execution_success, action_return_value),
                    )
-            ##### self.lab_logger().info(f"动作 {action_name} 完成并返回结果")
+            self.lab_logger().trace(f"动作 {action_name} 完成并返回结果")
            return result_msg
        return execute_callback
@@ -1540,17 +1540,29 @@ class ROS2DeviceNode:
    这个类封装了设备类实例和ROS2节点的功能，提供ROS2接口。
    它不继承设备类，而是通过代理模式访问设备类的属性和方法。
    """
    @staticmethod
    async def safe_task_wrapper(trace_callback, func, **kwargs):
        try:
            if callable(trace_callback):
                trace_callback(await func(**kwargs))
            return await func(**kwargs)
        except Exception as e:
            if callable(trace_callback):
                trace_callback(e)
            return e
    @classmethod
-    def run_async_func(cls, func, trace_error=True, **kwargs) -> Task:
+    def run_async_func(cls, func, trace_error=True, inner_trace_callback=None, **kwargs) -> Task:
-        def _handle_future_exception(fut):
+        def _handle_future_exception(fut: Future):
            try:
-                fut.result()
+                ret = fut.result()
                if isinstance(ret, BaseException):
                    raise ret
            except Exception as e:
-                error(f"异步任务 {func.__name__} 报错了")
+                error(f"异步任务 {func.__name__} 获取结果失败")
                error(traceback.format_exc())
-        future = rclpy.get_global_executor().create_task(func(**kwargs))
+        future = rclpy.get_global_executor().create_task(ROS2DeviceNode.safe_task_wrapper(inner_trace_callback, func, **kwargs))
        if trace_error:
            future.add_done_callback(_handle_future_exception)
        return future
--- a/unilabos/ros/nodes/presets/host_node.py
+++ b/unilabos/ros/nodes/presets/host_node.py
@@ -289,6 +289,12 @@ class HostNode(BaseROS2DeviceNode):
        self.lab_logger().info("[Host Node] Host node initialized.")
        HostNode._ready_event.set()
        # 发送host_node ready信号到所有桥接器
        for bridge in self.bridges:
            if hasattr(bridge, "publish_host_ready"):
                bridge.publish_host_ready()
                self.lab_logger().debug(f"Host ready signal sent via {bridge.__class__.__name__}")
    def _send_re_register(self, sclient):
        sclient.wait_for_service()
        request = SerialCommand.Request()
@@ -712,7 +718,7 @@ class HostNode(BaseROS2DeviceNode):
            feedback_callback=lambda feedback_msg: self.feedback_callback(item, action_id, feedback_msg),
            goal_uuid=goal_uuid_obj,
        )
-        future.add_done_callback(lambda future: self.goal_response_callback(item, action_id, future))
+        future.add_done_callback(lambda f: self.goal_response_callback(item, action_id, f))
    def goal_response_callback(self, item: "QueueItem", action_id: str, future) -> None:
        """目标响应回调"""
@@ -723,9 +729,11 @@ class HostNode(BaseROS2DeviceNode):
        self.lab_logger().info(f"[Host Node] Goal {action_id} ({item.job_id}) accepted")
        self._goals[item.job_id] = goal_handle
-        goal_handle.get_result_async().add_done_callback(
+        goal_future = goal_handle.get_result_async()
-            lambda future: self.get_result_callback(item, action_id, future)
+        goal_future.add_done_callback(
            lambda f: self.get_result_callback(item, action_id, f)
        )
        goal_future.result()
    def feedback_callback(self, item: "QueueItem", action_id: str, feedback_msg) -> None:
        """反馈回调"""
@@ -794,6 +802,7 @@ class HostNode(BaseROS2DeviceNode):
            # 存储结果供 HTTP API 查询
            try:
                from unilabos.app.web.controller import store_job_result
                if goal_status == GoalStatus.STATUS_CANCELED:
                    store_job_result(job_id, status, return_info, {})
                else:
--- a/unilabos/ros/nodes/resource_tracker.py
+++ b/unilabos/ros/nodes/resource_tracker.py
@@ -1,9 +1,11 @@
 import inspect
 import traceback
 import uuid
 from pydantic import BaseModel, field_serializer, field_validator
 from pydantic import Field
 from typing import List, Tuple, Any, Dict, Literal, Optional, cast, TYPE_CHECKING, Union
 from unilabos.resources.plr_additional_res_reg import register
 from unilabos.utils.log import logger
 if TYPE_CHECKING:
@@ -64,8 +66,8 @@ class ResourceDict(BaseModel):
    klass: str = Field(alias="class", description="Resource class name")
    pose: ResourceDictPosition = Field(description="Resource position", default_factory=ResourceDictPosition)
    config: Dict[str, Any] = Field(description="Resource configuration")
-    data: Dict[str, Any] = Field(description="Resource data")
+    data: Dict[str, Any] = Field(description="Resource data, eg: container liquid data")
-    extra: Dict[str, Any] = Field(description="Extra data")
+    extra: Dict[str, Any] = Field(description="Extra data, eg: slot index")
    @field_serializer("parent_uuid")
    def _serialize_parent(self, parent_uuid: Optional["ResourceDict"]):
@@ -153,7 +155,7 @@ class ResourceDictInstance(object):
        res_dict = self.res_content.model_dump(by_alias=True)
        res_dict["children"] = {child.res_content.id: child.get_plr_nested_dict() for child in self.children}
        res_dict["parent"] = self.res_content.parent_instance_name
-        res_dict["position"] = self.res_content.position.position.model_dump()
+        res_dict["position"] = self.res_content.pose.position.model_dump()
        del res_dict["pose"]
        return res_dict
@@ -429,9 +431,9 @@ class ResourceTreeSet(object):
        Returns:
            List[PLRResource]: PLR 资源实例列表
        """
        register()
        from pylabrobot.resources import Resource as PLRResource
        from pylabrobot.utils.object_parsing import find_subclass
        import inspect
        # 类型映射
        TYPE_MAP = {"plate": "Plate", "well": "Well", "deck": "Deck", "container": "RegularContainer"}
@@ -459,9 +461,9 @@ class ResourceTreeSet(object):
                "size_y": res.config.get("size_y", 0),
                "size_z": res.config.get("size_z", 0),
                "location": {
-                    "x": res.position.position.x,
+                    "x": res.pose.position.x,
-                    "y": res.position.position.y,
+                    "y": res.pose.position.y,
-                    "z": res.position.position.z,
+                    "z": res.pose.position.z,
                    "type": "Coordinate",
                },
                "rotation": {"x": 0, "y": 0, "z": 0, "type": "Rotation"},
--- a/unilabos/test/workflow/merge_workflow.py
+++ b/unilabos/test/workflow/merge_workflow.py
@@ -1,94 +0,0 @@
 import json
 import sys
 from datetime import datetime
 from pathlib import Path
 ROOT_DIR = Path(__file__).resolve().parents[2]
 if str(ROOT_DIR) not in sys.path:
    sys.path.insert(0, str(ROOT_DIR))
 import pytest
 from scripts.workflow import build_protocol_graph, draw_protocol_graph, draw_protocol_graph_with_ports
 ROOT_DIR = Path(__file__).resolve().parents[2]
 if str(ROOT_DIR) not in sys.path:
    sys.path.insert(0, str(ROOT_DIR))
 def _normalize_steps(data):
    normalized = []
    for step in data:
        action = step.get("action") or step.get("operation")
        if not action:
            continue
        raw_params = step.get("parameters") or step.get("action_args") or {}
        params = dict(raw_params)
        if "source" in raw_params and "sources" not in raw_params:
            params["sources"] = raw_params["source"]
        if "target" in raw_params and "targets" not in raw_params:
            params["targets"] = raw_params["target"]
        description = step.get("description") or step.get("purpose")
        step_dict = {"action": action, "parameters": params}
        if description:
            step_dict["description"] = description
        normalized.append(step_dict)
    return normalized
 def _normalize_labware(data):
    labware = {}
    for item in data:
        reagent_name = item.get("reagent_name")
        key = reagent_name or item.get("material_name") or item.get("name")
        if not key:
            continue
        key = str(key)
        idx = 1
        original_key = key
        while key in labware:
            idx += 1
            key = f"{original_key}_{idx}"
        labware[key] = {
            "slot": item.get("positions") or item.get("slot"),
            "labware": item.get("material_name") or item.get("labware"),
            "well": item.get("well", []),
            "type": item.get("type", "reagent"),
            "role": item.get("role", ""),
            "name": key,
        }
    return labware
@pytest.mark.parametrize("protocol_name", [
    "example_bio",
    # "bioyond_materials_liquidhandling_1",
    "example_prcxi",
 ])
 def test_build_protocol_graph(protocol_name):
    data_path = Path(__file__).with_name(f"{protocol_name}.json")
    with data_path.open("r", encoding="utf-8") as fp:
        d = json.load(fp)
    if "workflow" in d and "reagent" in d:
        protocol_steps = d["workflow"]
        labware_info = d["reagent"]
    elif "steps_info" in d and "labware_info" in d:
        protocol_steps = _normalize_steps(d["steps_info"])
        labware_info = _normalize_labware(d["labware_info"])
    else:
        raise ValueError("Unsupported protocol format")
    graph = build_protocol_graph(
        labware_info=labware_info,
        protocol_steps=protocol_steps,
        workstation_name="PRCXi",
    )
    timestamp = datetime.now().strftime("%Y%m%d_%H%M")
    output_path = data_path.with_name(f"{protocol_name}_graph_{timestamp}.png")
    draw_protocol_graph_with_ports(graph, str(output_path))
    print(graph)
--- a/unilabos/utils/log.py
+++ b/unilabos/utils/log.py
@@ -162,8 +162,9 @@ def configure_logger(loglevel=None, working_dir=None):
    """
    # 获取根日志记录器
    root_logger = logging.getLogger()
-
+    root_logger.setLevel(TRACE_LEVEL)
    # 设置日志级别
    numeric_level = logging.DEBUG
    if loglevel is not None:
        if isinstance(loglevel, str):
            # 将字符串转换为logging级别
@@ -173,12 +174,8 @@ def configure_logger(loglevel=None, working_dir=None):
                numeric_level = getattr(logging, loglevel.upper(), None)
                if not isinstance(numeric_level, int):
                    print(f"警告: 无效的日志级别 '{loglevel}'，使用默认级别 DEBUG")
                    numeric_level = logging.DEBUG
        else:
            numeric_level = loglevel
        root_logger.setLevel(numeric_level)
    else:
        root_logger.setLevel(logging.DEBUG)  # 默认级别
    # 移除已存在的处理器
    for handler in root_logger.handlers[:]:
@@ -186,7 +183,7 @@ def configure_logger(loglevel=None, working_dir=None):
    # 创建控制台处理器
    console_handler = logging.StreamHandler()
-    console_handler.setLevel(root_logger.level)  # 使用与根记录器相同的级别
+    console_handler.setLevel(numeric_level)  # 使用与根记录器相同的级别
    # 使用自定义的颜色格式化器
    color_formatter = ColoredFormatter()
@@ -206,7 +203,7 @@ def configure_logger(loglevel=None, working_dir=None):
        # 创建文件处理器
        file_handler = logging.FileHandler(log_filepath, encoding="utf-8")
-        file_handler.setLevel(root_logger.level)
+        file_handler.setLevel(TRACE_LEVEL)
        # 使用不带颜色的格式化器
        file_formatter = ColoredFormatter(use_colors=False)
--- a/unilabos/workflow/init.py
+++ b/unilabos/workflow/init.py
--- a/unilabos/workflow/common.py
+++ b/unilabos/workflow/common.py
@@ -0,0 +1,547 @@
 import re
 import uuid
 import networkx as nx
 from networkx.drawing.nx_agraph import to_agraph
 import matplotlib.pyplot as plt
 from typing import Dict, List, Any, Tuple, Optional
 Json = Dict[str, Any]
 # ---------------- Graph ----------------
 class WorkflowGraph:
    """简单的有向图实现：使用 params 单层参数；inputs 内含连线；支持 node-link 导出"""
    def __init__(self):
        self.nodes: Dict[str, Dict[str, Any]] = {}
        self.edges: List[Dict[str, Any]] = []
    def add_node(self, node_id: str, **attrs):
        self.nodes[node_id] = attrs
    def add_edge(self, source: str, target: str, **attrs):
        # 将 source_port/target_port 映射为服务端期望的 source_handle_key/target_handle_key
        source_handle_key = attrs.pop("source_port", "") or attrs.pop("source_handle_key", "")
        target_handle_key = attrs.pop("target_port", "") or attrs.pop("target_handle_key", "")
        edge = {
            "source": source,
            "target": target,
            "source_node_uuid": source,
            "target_node_uuid": target,
            "source_handle_key": source_handle_key,
            "source_handle_io": attrs.pop("source_handle_io", "source"),
            "target_handle_key": target_handle_key,
            "target_handle_io": attrs.pop("target_handle_io", "target"),
            **attrs,
        }
        self.edges.append(edge)
    def _materialize_wiring_into_inputs(
        self,
        obj: Any,
        inputs: Dict[str, Any],
        variable_sources: Dict[str, Dict[str, Any]],
        target_node_id: str,
        base_path: List[str],
    ):
        has_var = False
        def walk(node: Any, path: List[str]):
            nonlocal has_var
            if isinstance(node, dict):
                if "__var__" in node:
                    has_var = True
                    varname = node["__var__"]
                    placeholder = f"${{{varname}}}"
                    src = variable_sources.get(varname)
                    if src:
                        key = ".".join(path)  # e.g. "params.foo.bar.0"
                        inputs[key] = {"node": src["node_id"], "output": src.get("output_name", "result")}
                        self.add_edge(
                            str(src["node_id"]),
                            target_node_id,
                            source_handle_io=src.get("output_name", "result"),
                            target_handle_io=key,
                        )
                    return placeholder
                return {k: walk(v, path + [k]) for k, v in node.items()}
            if isinstance(node, list):
                return [walk(v, path + [str(i)]) for i, v in enumerate(node)]
            return node
        replaced = walk(obj, base_path[:])
        return replaced, has_var
    def add_workflow_node(
        self,
        node_id: int,
        *,
        device_key: Optional[str] = None,  # 实例名，如 "ser"
        resource_name: Optional[str] = None,  # registry key（原 device_class）
        module: Optional[str] = None,
        template_name: Optional[str] = None,  # 动作/模板名（原 action_key）
        params: Dict[str, Any],
        variable_sources: Dict[str, Dict[str, Any]],
        add_ready_if_no_vars: bool = True,
        prev_node_id: Optional[int] = None,
        **extra_attrs,
    ) -> None:
        """添加工作流节点：params 单层；自动变量连线与 ready 串联；支持附加属性"""
        node_id_str = str(node_id)
        inputs: Dict[str, Any] = {}
        params, has_var = self._materialize_wiring_into_inputs(
            params, inputs, variable_sources, node_id_str, base_path=["params"]
        )
        if add_ready_if_no_vars and not has_var:
            last_id = str(prev_node_id) if prev_node_id is not None else "-1"
            inputs["ready"] = {"node": int(last_id), "output": "ready"}
            self.add_edge(last_id, node_id_str, source_handle_io="ready", target_handle_io="ready")
        node_obj = {
            "device_key": device_key,
            "resource_name": resource_name,  # ✅ 新名字
            "module": module,
            "template_name": template_name,  # ✅ 新名字
            "params": params,
            "inputs": inputs,
        }
        node_obj.update(extra_attrs or {})
        self.add_node(node_id_str, parameters=node_obj)
    # 顺序工作流导出（连线在 inputs，不返回 edges）
    def to_dict(self) -> List[Dict[str, Any]]:
        result = []
        for node_id, attrs in self.nodes.items():
            node = {"uuid": node_id}
            params = dict(attrs.get("parameters", {}) or {})
            flat = {k: v for k, v in attrs.items() if k != "parameters"}
            flat.update(params)
            node.update(flat)
            result.append(node)
        return sorted(result, key=lambda n: int(n["uuid"]) if str(n["uuid"]).isdigit() else n["uuid"])
    # node-link 导出（含 edges）
    def to_node_link_dict(self) -> Dict[str, Any]:
        nodes_list = []
        for node_id, attrs in self.nodes.items():
            node_attrs = attrs.copy()
            params = node_attrs.pop("parameters", {}) or {}
            node_attrs.update(params)
            nodes_list.append({"uuid": node_id, **node_attrs})
        return {
            "directed": True,
            "multigraph": False,
            "graph": {},
            "nodes": nodes_list,
            "edges": self.edges,
            "links": self.edges,
        }
 def refactor_data(
    data: List[Dict[str, Any]],
    action_resource_mapping: Optional[Dict[str, str]] = None,
 ) -> 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
    Args:
        data: 原始步骤数据列表
        action_resource_mapping: action 到 resource_name 的映射字典，可选
    """
    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": "transfer_liquid",
        "transfer": "transfer",
        "incubation": "incubation",
        "move_labware": "move_labware",
        "oscillation": "oscillation",
        # 有机化学操作
        "HeatChillToTemp": "HeatChillProtocol",
        "StopHeatChill": "HeatChillStopProtocol",
        "StartHeatChill": "HeatChillStartProtocol",
        "HeatChill": "HeatChillProtocol",
        "Dissolve": "DissolveProtocol",
        "Transfer": "TransferProtocol",
        "Evaporate": "EvaporateProtocol",
        "Recrystallize": "RecrystallizeProtocol",
        "Filter": "FilterProtocol",
        "Dry": "DryProtocol",
        "Add": "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, action_resource_mapping)
                refactored_data.extend(sub_data)
            continue
        # 获取模板名称
        template_name = OPERATION_MAPPING.get(operation)
        if not template_name:
            # 自动推断模板类型
            if operation.lower() in ["transfer", "incubation", "move_labware", "oscillation"]:
                template_name = f"biomek-{operation}"
            else:
                template_name = f"{operation}Protocol"
        # 获取 resource_name
        resource_name = f"device.{operation.lower()}"
        if action_resource_mapping:
            resource_name = action_resource_mapping.get(operation, resource_name)
        # 获取步骤编号，生成 name 字段
        step_number = step.get("step_number")
        name = f"Step {step_number}" if step_number is not None else None
        # 创建步骤数据
        step_data = {
            "template_name": template_name,
            "resource_name": resource_name,
            "description": step.get("description", step.get("purpose", f"{operation} operation")),
            "lab_node_type": "Device",
            "param": step.get("parameters", step.get("action_args", {})),
            "footer": f"{template_name}-{resource_name}",
        }
        if name:
            step_data["name"] = name
        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,
    action_resource_mapping: Optional[Dict[str, str]] = None,
 ) -> WorkflowGraph:
    """统一的协议图构建函数，根据设备类型自动选择构建逻辑
    Args:
        labware_info: labware 信息字典
        protocol_steps: 协议步骤列表
        workstation_name: 工作站名称
        action_resource_mapping: action 到 resource_name 的映射字典，可选
    """
    G = WorkflowGraph()
    resource_last_writer = {}
    protocol_steps = refactor_data(protocol_steps, action_resource_mapping)
    # 有机化学&移液站协议图构建
    WORKSTATION_ID = workstation_name
    # 为所有labware创建资源节点
    res_index = 0
    for labware_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 "Rack" in str(labware_id) or "Tip" in str(labware_id):
            lab_node_type = "Labware"
            description = f"Prepare Labware: {labware_id}"
            liquid_type = []
            liquid_volume = []
        elif item.get("type") == "hardware" or "reactor" in str(labware_id).lower():
            if "reactor" not in str(labware_id).lower():
                continue
            lab_node_type = "Sample"
            description = f"Prepare Reactor: {labware_id}"
            liquid_type = []
            liquid_volume = []
        else:
            lab_node_type = "Reagent"
            description = f"Add Reagent to Flask: {labware_id}"
            liquid_type = [labware_id]
            liquid_volume = [1e5]
        res_index += 1
        G.add_node(
            node_id,
            template_name="create_resource",
            resource_name="host_node",
            name=f"Res {res_index}",
            description=description,
            lab_node_type=lab_node_type,
            footer="create_resource-host_node",
            param={
                "res_id": labware_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": "",
            },
        )
        resource_last_writer[labware_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("param", {})
        input_resources_possible_names = [
            "vessel",
            "to_vessel",
            "from_vessel",
            "reagent",
            "solvent",
            "compound",
            "sources",
            "targets",
        ]
        for target_port in input_resources_possible_names:
            resource_name = params.get(target_port)
            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 = {
            "vessel_out": params.get("vessel"),
            "from_vessel_out": params.get("from_vessel"),
            "to_vessel_out": params.get("to_vessel"),
            "filtrate_out": 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: WorkflowGraph, 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_name", 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}'")
 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_name", 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_handle_key") or edge.get("source_port")
        tp = edge.get("target_handle_key") or edge.get("target_port")
        # 记录到图里（保留原始端口信息）
        G.add_edge(u, v, source_handle_key=sp, target_handle_key=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}'")
 # ---------------- Registry Adapter ----------------
 class RegistryAdapter:
    """根据 module 的类名（冒号右侧）反查 registry 的 resource_name（原 device_class），并抽取参数顺序"""
    def __init__(self, device_registry: Dict[str, Any]):
        self.device_registry = device_registry or {}
        self.module_class_to_resource = self._build_module_class_index()
    def _build_module_class_index(self) -> Dict[str, str]:
        idx = {}
        for resource_name, info in self.device_registry.items():
            module = info.get("module")
            if isinstance(module, str) and ":" in module:
                cls = module.split(":")[-1]
                idx[cls] = resource_name
                idx[cls.lower()] = resource_name
        return idx
    def resolve_resource_by_classname(self, class_name: str) -> Optional[str]:
        if not class_name:
            return None
        return self.module_class_to_resource.get(class_name) or self.module_class_to_resource.get(class_name.lower())
    def get_device_module(self, resource_name: Optional[str]) -> Optional[str]:
        if not resource_name:
            return None
        return self.device_registry.get(resource_name, {}).get("module")
    def get_actions(self, resource_name: Optional[str]) -> Dict[str, Any]:
        if not resource_name:
            return {}
        return (self.device_registry.get(resource_name, {}).get("class", {}).get("action_value_mappings", {})) or {}
    def get_action_schema(self, resource_name: Optional[str], template_name: str) -> Optional[Json]:
        return (self.get_actions(resource_name).get(template_name) or {}).get("schema")
    def get_action_goal_default(self, resource_name: Optional[str], template_name: str) -> Json:
        return (self.get_actions(resource_name).get(template_name) or {}).get("goal_default", {}) or {}
    def get_action_input_keys(self, resource_name: Optional[str], template_name: str) -> List[str]:
        schema = self.get_action_schema(resource_name, template_name) or {}
        goal = (schema.get("properties") or {}).get("goal") or {}
        props = goal.get("properties") or {}
        required = goal.get("required") or []
        return list(dict.fromkeys(required + list(props.keys())))
--- a/unilabos/workflow/convert_from_json.py
+++ b/unilabos/workflow/convert_from_json.py
@@ -0,0 +1,356 @@
 """
 JSON 工作流转换模块
 提供从多种 JSON 格式转换为统一工作流格式的功能。
 支持的格式：
 1. workflow/reagent 格式
 2. steps_info/labware_info 格式
 """
 import json
 from os import PathLike
 from pathlib import Path
 from typing import Any, Dict, List, Optional, Set, Tuple, Union
 from unilabos.workflow.common import WorkflowGraph, build_protocol_graph
 from unilabos.registry.registry import lab_registry
 def get_action_handles(resource_name: str, template_name: str) -> Dict[str, List[str]]:
    """
    从 registry 获取指定设备和动作的 handles 配置
    Args:
        resource_name: 设备资源名称，如 "liquid_handler.prcxi"
        template_name: 动作模板名称，如 "transfer_liquid"
    Returns:
        包含 source 和 target handler_keys 的字典:
        {"source": ["sources_out", "targets_out", ...], "target": ["sources", "targets", ...]}
    """
    result = {"source": [], "target": []}
    device_info = lab_registry.device_type_registry.get(resource_name, {})
    if not device_info:
        return result
    action_mappings = device_info.get("class", {}).get("action_value_mappings", {})
    action_config = action_mappings.get(template_name, {})
    handles = action_config.get("handles", {})
    if isinstance(handles, dict):
        # 处理 input handles (作为 target)
        for handle in handles.get("input", []):
            handler_key = handle.get("handler_key", "")
            if handler_key:
                result["source"].append(handler_key)
        # 处理 output handles (作为 source)
        for handle in handles.get("output", []):
            handler_key = handle.get("handler_key", "")
            if handler_key:
                result["target"].append(handler_key)
    return result
 def validate_workflow_handles(graph: WorkflowGraph) -> Tuple[bool, List[str]]:
    """
    校验工作流图中所有边的句柄配置是否正确
    Args:
        graph: 工作流图对象
    Returns:
        (is_valid, errors): 是否有效，错误信息列表
    """
    errors = []
    nodes = graph.nodes
    for edge in graph.edges:
        left_uuid = edge.get("source")
        right_uuid = edge.get("target")
        # target_handle_key是target, right的输入节点（入节点）
        # source_handle_key是source, left的输出节点（出节点）
        right_source_conn_key = edge.get("target_handle_key", "")
        left_target_conn_key = edge.get("source_handle_key", "")
        # 获取源节点和目标节点信息
        left_node = nodes.get(left_uuid, {})
        right_node = nodes.get(right_uuid, {})
        left_res_name = left_node.get("resource_name", "")
        left_template_name = left_node.get("template_name", "")
        right_res_name = right_node.get("resource_name", "")
        right_template_name = right_node.get("template_name", "")
        # 获取源节点的 output handles
        left_node_handles = get_action_handles(left_res_name, left_template_name)
        target_valid_keys = left_node_handles.get("target", [])
        target_valid_keys.append("ready")
        # 获取目标节点的 input handles
        right_node_handles = get_action_handles(right_res_name, right_template_name)
        source_valid_keys = right_node_handles.get("source", [])
        source_valid_keys.append("ready")
        # 如果节点配置了 output handles，则 source_port 必须有效
        if not right_source_conn_key:
            node_name = left_node.get("name", left_uuid[:8])
            errors.append(f"源节点 '{node_name}' 的 source_handle_key 为空，" f"应设置为: {source_valid_keys}")
        elif right_source_conn_key not in source_valid_keys:
            node_name = left_node.get("name", left_uuid[:8])
            errors.append(
                f"源节点 '{node_name}' 的 source 端点 '{right_source_conn_key}' 不存在，" f"支持的端点: {source_valid_keys}"
            )
        # 如果节点配置了 input handles，则 target_port 必须有效
        if not left_target_conn_key:
            node_name = right_node.get("name", right_uuid[:8])
            errors.append(f"目标节点 '{node_name}' 的 target_handle_key 为空，" f"应设置为: {target_valid_keys}")
        elif left_target_conn_key not in target_valid_keys:
            node_name = right_node.get("name", right_uuid[:8])
            errors.append(
                f"目标节点 '{node_name}' 的 target 端点 '{left_target_conn_key}' 不存在，"
                f"支持的端点: {target_valid_keys}"
            )
    return len(errors) == 0, errors
 # action 到 resource_name 的映射
 ACTION_RESOURCE_MAPPING: Dict[str, str] = {
    # 生物实验操作
    "transfer_liquid": "liquid_handler.prcxi",
    "transfer": "liquid_handler.prcxi",
    "incubation": "incubator.prcxi",
    "move_labware": "labware_mover.prcxi",
    "oscillation": "shaker.prcxi",
    # 有机化学操作
    "HeatChillToTemp": "heatchill.chemputer",
    "StopHeatChill": "heatchill.chemputer",
    "StartHeatChill": "heatchill.chemputer",
    "HeatChill": "heatchill.chemputer",
    "Dissolve": "stirrer.chemputer",
    "Transfer": "liquid_handler.chemputer",
    "Evaporate": "rotavap.chemputer",
    "Recrystallize": "reactor.chemputer",
    "Filter": "filter.chemputer",
    "Dry": "dryer.chemputer",
    "Add": "liquid_handler.chemputer",
 }
 def normalize_steps(data: List[Dict[str, Any]]) -> List[Dict[str, Any]]:
    """
    将不同格式的步骤数据规范化为统一格式
    支持的输入格式：
    - action + parameters
    - action + action_args
    - operation + parameters
    Args:
        data: 原始步骤数据列表
    Returns:
        规范化后的步骤列表，格式为 [{"action": str, "parameters": dict, "description": str?, "step_number": int?}, ...]
    """
    normalized = []
    for idx, step in enumerate(data):
        # 获取动作名称（支持 action 或 operation 字段）
        action = step.get("action") or step.get("operation")
        if not action:
            continue
        # 获取参数（支持 parameters 或 action_args 字段）
        raw_params = step.get("parameters") or step.get("action_args") or {}
        params = dict(raw_params)
        # 规范化 source/target -> sources/targets
        if "source" in raw_params and "sources" not in raw_params:
            params["sources"] = raw_params["source"]
        if "target" in raw_params and "targets" not in raw_params:
            params["targets"] = raw_params["target"]
        # 获取描述（支持 description 或 purpose 字段）
        description = step.get("description") or step.get("purpose")
        # 获取步骤编号（优先使用原始数据中的 step_number，否则使用索引+1）
        step_number = step.get("step_number", idx + 1)
        step_dict = {"action": action, "parameters": params, "step_number": step_number}
        if description:
            step_dict["description"] = description
        normalized.append(step_dict)
    return normalized
 def normalize_labware(data: List[Dict[str, Any]]) -> Dict[str, Dict[str, Any]]:
    """
    将不同格式的 labware 数据规范化为统一的字典格式
    支持的输入格式：
    - reagent_name + material_name + positions
    - name + labware + slot
    Args:
        data: 原始 labware 数据列表
    Returns:
        规范化后的 labware 字典，格式为 {name: {"slot": int, "labware": str, "well": list, "type": str, "role": str, "name": str}, ...}
    """
    labware = {}
    for item in data:
        # 获取 key 名称（优先使用 reagent_name，其次是 material_name 或 name）
        reagent_name = item.get("reagent_name")
        key = reagent_name or item.get("material_name") or item.get("name")
        if not key:
            continue
        key = str(key)
        # 处理重复 key，自动添加后缀
        idx = 1
        original_key = key
        while key in labware:
            idx += 1
            key = f"{original_key}_{idx}"
        labware[key] = {
            "slot": item.get("positions") or item.get("slot"),
            "labware": item.get("material_name") or item.get("labware"),
            "well": item.get("well", []),
            "type": item.get("type", "reagent"),
            "role": item.get("role", ""),
            "name": key,
        }
    return labware
 def convert_from_json(
    data: Union[str, PathLike, Dict[str, Any]],
    workstation_name: str = "PRCXi",
    validate: bool = True,
 ) -> WorkflowGraph:
    """
    从 JSON 数据或文件转换为 WorkflowGraph
    支持的 JSON 格式：
    1. {"workflow": [...], "reagent": {...}} - 直接格式
    2. {"steps_info": [...], "labware_info": [...]} - 需要规范化的格式
    Args:
        data: JSON 文件路径、字典数据、或 JSON 字符串
        workstation_name: 工作站名称，默认 "PRCXi"
        validate: 是否校验句柄配置，默认 True
    Returns:
        WorkflowGraph: 构建好的工作流图
    Raises:
        ValueError: 不支持的 JSON 格式 或 句柄校验失败
        FileNotFoundError: 文件不存在
        json.JSONDecodeError: JSON 解析失败
    """
    # 处理输入数据
    if isinstance(data, (str, PathLike)):
        path = Path(data)
        if path.exists():
            with path.open("r", encoding="utf-8") as fp:
                json_data = json.load(fp)
        elif isinstance(data, str):
            # 尝试作为 JSON 字符串解析
            json_data = json.loads(data)
        else:
            raise FileNotFoundError(f"文件不存在: {data}")
    elif isinstance(data, dict):
        json_data = data
    else:
        raise TypeError(f"不支持的数据类型: {type(data)}")
    # 根据格式解析数据
    if "workflow" in json_data and "reagent" in json_data:
        # 格式1: workflow/reagent（已经是规范格式）
        protocol_steps = json_data["workflow"]
        labware_info = json_data["reagent"]
    elif "steps_info" in json_data and "labware_info" in json_data:
        # 格式2: steps_info/labware_info（需要规范化）
        protocol_steps = normalize_steps(json_data["steps_info"])
        labware_info = normalize_labware(json_data["labware_info"])
    elif "steps" in json_data and "labware" in json_data:
        # 格式3: steps/labware（另一种常见格式）
        protocol_steps = normalize_steps(json_data["steps"])
        if isinstance(json_data["labware"], list):
            labware_info = normalize_labware(json_data["labware"])
        else:
            labware_info = json_data["labware"]
    else:
        raise ValueError(
            "不支持的 JSON 格式。支持的格式：\n"
            "1. {'workflow': [...], 'reagent': {...}}\n"
            "2. {'steps_info': [...], 'labware_info': [...]}\n"
            "3. {'steps': [...], 'labware': [...]}"
        )
    # 构建工作流图
    graph = build_protocol_graph(
        labware_info=labware_info,
        protocol_steps=protocol_steps,
        workstation_name=workstation_name,
        action_resource_mapping=ACTION_RESOURCE_MAPPING,
    )
    # 校验句柄配置
    if validate:
        is_valid, errors = validate_workflow_handles(graph)
        if not is_valid:
            import warnings
            for error in errors:
                warnings.warn(f"句柄校验警告: {error}")
    return graph
 def convert_json_to_node_link(
    data: Union[str, PathLike, Dict[str, Any]],
    workstation_name: str = "PRCXi",
 ) -> Dict[str, Any]:
    """
    将 JSON 数据转换为 node-link 格式的字典
    Args:
        data: JSON 文件路径、字典数据、或 JSON 字符串
        workstation_name: 工作站名称，默认 "PRCXi"
    Returns:
        Dict: node-link 格式的工作流数据
    """
    graph = convert_from_json(data, workstation_name)
    return graph.to_node_link_dict()
 def convert_json_to_workflow_list(
    data: Union[str, PathLike, Dict[str, Any]],
    workstation_name: str = "PRCXi",
 ) -> List[Dict[str, Any]]:
    """
    将 JSON 数据转换为工作流列表格式
    Args:
        data: JSON 文件路径、字典数据、或 JSON 字符串
        workstation_name: 工作站名称，默认 "PRCXi"
    Returns:
        List: 工作流节点列表
    """
    graph = convert_from_json(data, workstation_name)
    return graph.to_dict()
 # 为了向后兼容，保留下划线前缀的别名
 _normalize_steps = normalize_steps
 _normalize_labware = normalize_labware
--- a/unilabos/workflow/from_python_script.py
+++ b/unilabos/workflow/from_python_script.py
@@ -0,0 +1,241 @@
 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
@@ -0,0 +1,131 @@
 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/workflow/wf_utils.py
+++ b/unilabos/workflow/wf_utils.py
@@ -0,0 +1,138 @@
 """
 工作流工具模块
 提供工作流上传等功能
 """
 import json
 import os
 import uuid
 from typing import Any, Dict, List, Optional
 from unilabos.utils.banner_print import print_status
 def _is_node_link_format(data: Dict[str, Any]) -> bool:
    """检查数据是否为 node-link 格式"""
    return "nodes" in data and "edges" in data
 def _convert_to_node_link(workflow_file: str, workflow_data: Dict[str, Any]) -> Dict[str, Any]:
    """
    将非 node-link 格式的工作流数据转换为 node-link 格式
    Args:
        workflow_file: 工作流文件路径（用于日志）
        workflow_data: 原始工作流数据
    Returns:
        node-link 格式的工作流数据
    """
    from unilabos.workflow.convert_from_json import convert_json_to_node_link
    print_status(f"检测到非 node-link 格式，正在转换...", "info")
    node_link_data = convert_json_to_node_link(workflow_data)
    print_status(f"转换完成", "success")
    return node_link_data
 def upload_workflow(
    workflow_file: str,
    workflow_name: Optional[str] = None,
    tags: Optional[List[str]] = None,
    published: bool = False,
 ) -> Dict[str, Any]:
    """
    上传工作流到服务器
    支持的输入格式：
    1. node-link 格式: {"nodes": [...], "edges": [...]}
    2. workflow/reagent 格式: {"workflow": [...], "reagent": {...}}
    3. steps_info/labware_info 格式: {"steps_info": [...], "labware_info": [...]}
    4. steps/labware 格式: {"steps": [...], "labware": [...]}
    Args:
        workflow_file: 工作流文件路径（JSON格式）
        workflow_name: 工作流名称，如果不提供则从文件中读取或使用文件名
        tags: 工作流标签列表，默认为空列表
        published: 是否发布工作流，默认为False
    Returns:
        Dict: API响应数据
    """
    # 延迟导入，避免在配置文件加载之前初始化 http_client
    from unilabos.app.web import http_client
    if not os.path.exists(workflow_file):
        print_status(f"工作流文件不存在: {workflow_file}", "error")
        return {"code": -1, "message": f"文件不存在: {workflow_file}"}
    # 读取工作流文件
    try:
        with open(workflow_file, "r", encoding="utf-8") as f:
            workflow_data = json.load(f)
    except json.JSONDecodeError as e:
        print_status(f"工作流文件JSON解析失败: {e}", "error")
        return {"code": -1, "message": f"JSON解析失败: {e}"}
    # 自动检测并转换格式
    if not _is_node_link_format(workflow_data):
        try:
            workflow_data = _convert_to_node_link(workflow_file, workflow_data)
        except Exception as e:
            print_status(f"工作流格式转换失败: {e}", "error")
            return {"code": -1, "message": f"格式转换失败: {e}"}
    # 提取工作流数据
    nodes = workflow_data.get("nodes", [])
    edges = workflow_data.get("edges", [])
    workflow_uuid_val = workflow_data.get("workflow_uuid", str(uuid.uuid4()))
    wf_name_from_file = workflow_data.get("workflow_name", os.path.basename(workflow_file).replace(".json", ""))
    # 确定工作流名称
    final_name = workflow_name or wf_name_from_file
    print_status(f"正在上传工作流: {final_name}", "info")
    print_status(f"  - 节点数量: {len(nodes)}", "info")
    print_status(f"  - 边数量: {len(edges)}", "info")
    print_status(f"  - 标签: {tags or []}", "info")
    print_status(f"  - 发布状态: {published}", "info")
    # 调用 http_client 上传
    result = http_client.workflow_import(
        name=final_name,
        workflow_uuid=workflow_uuid_val,
        workflow_name=final_name,
        nodes=nodes,
        edges=edges,
        tags=tags,
        published=published,
    )
    if result.get("code") == 0:
        data = result.get("data", {})
        print_status("工作流上传成功！", "success")
        print_status(f"  - UUID: {data.get('uuid', 'N/A')}", "info")
        print_status(f"  - 名称: {data.get('name', 'N/A')}", "info")
    else:
        print_status(f"工作流上传失败: {result.get('message', '未知错误')}", "error")
    return result
 def handle_workflow_upload_command(args_dict: Dict[str, Any]) -> None:
    """
    处理 workflow_upload 子命令
    Args:
        args_dict: 命令行参数字典
    """
    workflow_file = args_dict.get("workflow_file")
    workflow_name = args_dict.get("workflow_name")
    tags = args_dict.get("tags", [])
    published = args_dict.get("published", False)
    if workflow_file:
        upload_workflow(workflow_file, workflow_name, tags, published)
    else:
        print_status("未指定工作流文件路径，请使用 -f/--workflow_file 参数", "error")
--- 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>0.10.11</version>
+  <version>0.10.12</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>
Author	SHA1	Message	Date
Xuwznln	152d3a7563	Update docs	2025-12-14 13:12:19 +08:00
Xuwznln	ef14737839	update "laiyu" missing init file.	2025-12-14 13:08:27 +08:00
Xuwznln	5d5569121c	fix "laiyu" missing init file.	2025-12-14 12:55:25 +08:00
Xuwznln	d23e85ade4	fix "🐛 fix"	2025-12-14 01:17:24 +08:00
Haohui	02afafd423	🐛 fix: config file is overwrited by default args even if not be set.	2025-12-12 23:55:38 +08:00
Xianwei Qi	6ac510dcd2	mix 修改了mix，仿真流程报错问题	2025-12-11 23:26:11 +08:00
Xuwznln	ed56c1eba2	reduce logs	2025-12-08 19:23:53 +08:00
Xuwznln	16ee3de086	Add workflow upload func.	2025-12-08 19:12:05 +08:00
Junhan Chang	ced961050d	add unilabos/workflow and entrypoint	2025-12-07 17:50:27 +08:00
Xuwznln	11b2c99836	update version to 0.10.12 (cherry picked from commit `b1cdef9185`)	2025-12-04 18:47:44 +08:00
Xuwznln	04024bc8a3	fix ros2 future	2025-12-04 18:44:50 +08:00
Xuwznln	154048107d	print all logs to file fix resource dict dump error	2025-12-04 16:04:56 +08:00
Xuwznln	0b896870ba	signal when host node is ready	2025-12-02 12:00:41 +08:00
Xuwznln	ee609e4aa2	Fix startup with remote resource error	2025-12-02 11:49:59 +08:00
`@@ -1 +1 @@`
	`__version__ = "0.10.11"`	`__version__ = "0.10.12"`