upgrade to 0.11.1

fix virtual import

.conda/base/recipe.yaml

@@ -3,7 +3,7 @@
 
 package:
   name: unilabos
-  version: 0.10.19
+  version: 0.11.1
 
 source:
   path: ../../unilabos
@@ -54,7 +54,7 @@ requirements:
   - pymodbus
   - matplotlib
   - pylibftdi
-  - uni-lab::unilabos-env ==0.10.19
+  - uni-lab::unilabos-env ==0.11.1
 
 about:
   repository: https://github.com/deepmodeling/Uni-Lab-OS

.conda/environment/recipe.yaml

@@ -2,7 +2,7 @@
 
 package:
   name: unilabos-env
-  version: 0.10.19
+  version: 0.11.1
 
 build:
   noarch: generic

.conda/full/recipe.yaml

@@ -3,7 +3,7 @@
 
 package:
   name: unilabos-full
-  version: 0.10.19
+  version: 0.11.1
 
 build:
   noarch: generic
@@ -11,7 +11,7 @@ build:
 requirements:
   run:
   # Base unilabos package (includes unilabos-env)
-  - uni-lab::unilabos ==0.10.19
+  - uni-lab::unilabos ==0.11.1
   # Documentation tools
   - sphinx
   - sphinx_rtd_theme

.github/workflows/deploy-docs.yml

@@ -105,7 +105,7 @@ jobs:
           test -f docs/_build/html/index.html && echo "✓ index.html exists" || echo "✗ index.html missing"
 
       - name: Upload build artifacts
-        uses: actions/upload-pages-artifact@v5
+        uses: actions/upload-pages-artifact@v4
         if: |
           github.event.workflow_run.head_branch == 'main' ||
           (github.event_name == 'workflow_dispatch' && github.event.inputs.deploy_to_pages == 'true')

recipes/msgs/recipe.yaml

@@ -1,6 +1,6 @@
 package:
   name: ros-humble-unilabos-msgs
-  version: 0.10.19
+  version: 0.11.1
 source:
   path: ../../unilabos_msgs
   target_directory: src

recipes/unilabos/recipe.yaml

@@ -1,6 +1,6 @@
 package:
   name: unilabos
-  version: "0.10.19"
+  version: "0.11.1"
 
 source:
   path: ../..

scripts/workflow.py

@@ -2,6 +2,7 @@ import json
 import logging
 import traceback
 import uuid
+import xml.etree.ElementTree as ET
 from typing import Any, Dict, List
 
 import networkx as nx
@@ -24,15 +25,7 @@ class SimpleGraph:
 
     def add_edge(self, source, target, **attrs):
         """添加边"""
-        # edge = {"source": source, "target": target, **attrs}
-        edge = {
-            "source": source, "target": target,
-            "source_node_uuid": source,
-            "target_node_uuid": target,
-            "source_handle_io": "source",
-            "target_handle_io": "target",
-            **attrs
-        }
+        edge = {"source": source, "target": target, **attrs}
         self.edges.append(edge)
 
     def to_dict(self):
@@ -49,7 +42,6 @@ class SimpleGraph:
             "multigraph": False,
             "graph": {},
             "nodes": nodes_list,
-            "edges": self.edges,
             "links": self.edges,
         }
 
@@ -66,8 +58,495 @@ def extract_json_from_markdown(text: str) -> str:
     return text
 
 
+def convert_to_type(val: str) -> Any:
+    """将字符串值转换为适当的数据类型"""
+    if val == "True":
+        return True
+    if val == "False":
+        return False
+    if val == "?":
+        return None
+    if val.endswith(" g"):
+        return float(val.split(" ")[0])
+    if val.endswith("mg"):
+        return float(val.split("mg")[0])
+    elif val.endswith("mmol"):
+        return float(val.split("mmol")[0]) / 1000
+    elif val.endswith("mol"):
+        return float(val.split("mol")[0])
+    elif val.endswith("ml"):
+        return float(val.split("ml")[0])
+    elif val.endswith("RPM"):
+        return float(val.split("RPM")[0])
+    elif val.endswith(" °C"):
+        return float(val.split(" ")[0])
+    elif val.endswith(" %"):
+        return float(val.split(" ")[0])
+    return val
 
 
+def refactor_data(data: List[Dict[str, Any]]) -> List[Dict[str, Any]]:
+    """统一的数据重构函数，根据操作类型自动选择模板"""
+    refactored_data = []
+
+    # 定义操作映射，包含生物实验和有机化学的所有操作
+    OPERATION_MAPPING = {
+        # 生物实验操作
+        "transfer_liquid": "SynBioFactory-liquid_handler.prcxi-transfer_liquid",
+        "transfer": "SynBioFactory-liquid_handler.biomek-transfer",
+        "incubation": "SynBioFactory-liquid_handler.biomek-incubation",
+        "move_labware": "SynBioFactory-liquid_handler.biomek-move_labware",
+        "oscillation": "SynBioFactory-liquid_handler.biomek-oscillation",
+        # 有机化学操作
+        "HeatChillToTemp": "SynBioFactory-workstation-HeatChillProtocol",
+        "StopHeatChill": "SynBioFactory-workstation-HeatChillStopProtocol",
+        "StartHeatChill": "SynBioFactory-workstation-HeatChillStartProtocol",
+        "HeatChill": "SynBioFactory-workstation-HeatChillProtocol",
+        "Dissolve": "SynBioFactory-workstation-DissolveProtocol",
+        "Transfer": "SynBioFactory-workstation-TransferProtocol",
+        "Evaporate": "SynBioFactory-workstation-EvaporateProtocol",
+        "Recrystallize": "SynBioFactory-workstation-RecrystallizeProtocol",
+        "Filter": "SynBioFactory-workstation-FilterProtocol",
+        "Dry": "SynBioFactory-workstation-DryProtocol",
+        "Add": "SynBioFactory-workstation-AddProtocol",
+    }
+
+    UNSUPPORTED_OPERATIONS = ["Purge", "Wait", "Stir", "ResetHandling"]
+
+    for step in data:
+        operation = step.get("action")
+        if not operation or operation in UNSUPPORTED_OPERATIONS:
+            continue
+
+        # 处理重复操作
+        if operation == "Repeat":
+            times = step.get("times", step.get("parameters", {}).get("times", 1))
+            sub_steps = step.get("steps", step.get("parameters", {}).get("steps", []))
+            for i in range(int(times)):
+                sub_data = refactor_data(sub_steps)
+                refactored_data.extend(sub_data)
+            continue
+
+        # 获取模板名称
+        template = OPERATION_MAPPING.get(operation)
+        if not template:
+            # 自动推断模板类型
+            if operation.lower() in ["transfer", "incubation", "move_labware", "oscillation"]:
+                template = f"SynBioFactory-liquid_handler.biomek-{operation}"
+            else:
+                template = f"SynBioFactory-workstation-{operation}Protocol"
+
+        # 创建步骤数据
+        step_data = {
+            "template": template,
+            "description": step.get("description", step.get("purpose", f"{operation} operation")),
+            "lab_node_type": "Device",
+            "parameters": step.get("parameters", step.get("action_args", {})),
+        }
+        refactored_data.append(step_data)
+
+    return refactored_data
+
+
+def build_protocol_graph(
+    labware_info: List[Dict[str, Any]], protocol_steps: List[Dict[str, Any]], workstation_name: str
+) -> SimpleGraph:
+    """统一的协议图构建函数，根据设备类型自动选择构建逻辑"""
+    G = SimpleGraph()
+    resource_last_writer = {}
+    LAB_NAME = "SynBioFactory"
+
+    protocol_steps = refactor_data(protocol_steps)
+
+    # 检查协议步骤中的模板来判断协议类型
+    has_biomek_template = any(
+        ("biomek" in step.get("template", "")) or ("prcxi" in step.get("template", ""))
+        for step in protocol_steps
+    )
+
+    if has_biomek_template:
+        # 生物实验协议图构建
+        for labware_id, labware in labware_info.items():
+            node_id = str(uuid.uuid4())
+
+            labware_attrs = labware.copy()
+            labware_id = labware_attrs.pop("id", labware_attrs.get("name", f"labware_{uuid.uuid4()}"))
+            labware_attrs["description"] = labware_id
+            labware_attrs["lab_node_type"] = (
+                "Reagent" if "Plate" in str(labware_id) else "Labware" if "Rack" in str(labware_id) else "Sample"
+            )
+            labware_attrs["device_id"] = workstation_name
+
+            G.add_node(node_id, template=f"{LAB_NAME}-host_node-create_resource", **labware_attrs)
+            resource_last_writer[labware_id] = f"{node_id}:labware"
+
+        # 处理协议步骤
+        prev_node = None
+        for i, step in enumerate(protocol_steps):
+            node_id = str(uuid.uuid4())
+            G.add_node(node_id, **step)
+
+            # 添加控制流边
+            if prev_node is not None:
+                G.add_edge(prev_node, node_id, source_port="ready", target_port="ready")
+            prev_node = node_id
+
+            # 处理物料流
+            params = step.get("parameters", {})
+            if "sources" in params and params["sources"] in resource_last_writer:
+                source_node, source_port = resource_last_writer[params["sources"]].split(":")
+                G.add_edge(source_node, node_id, source_port=source_port, target_port="labware")
+
+            if "targets" in params:
+                resource_last_writer[params["targets"]] = f"{node_id}:labware"
+
+        # 添加协议结束节点
+        end_id = str(uuid.uuid4())
+        G.add_node(end_id, template=f"{LAB_NAME}-liquid_handler.biomek-run_protocol")
+        if prev_node is not None:
+            G.add_edge(prev_node, end_id, source_port="ready", target_port="ready")
+
+    else:
+        # 有机化学协议图构建
+        WORKSTATION_ID = workstation_name
+
+        # 为所有labware创建资源节点
+        for item_id, item in labware_info.items():
+            # item_id = item.get("id") or item.get("name", f"item_{uuid.uuid4()}")
+            node_id = str(uuid.uuid4())
+
+            # 判断节点类型
+            if item.get("type") == "hardware" or "reactor" in str(item_id).lower():
+                if "reactor" not in str(item_id).lower():
+                    continue
+                lab_node_type = "Sample"
+                description = f"Prepare Reactor: {item_id}"
+                liquid_type = []
+                liquid_volume = []
+            else:
+                lab_node_type = "Reagent"
+                description = f"Add Reagent to Flask: {item_id}"
+                liquid_type = [item_id]
+                liquid_volume = [1e5]
+
+            G.add_node(
+                node_id,
+                template=f"{LAB_NAME}-host_node-create_resource",
+                description=description,
+                lab_node_type=lab_node_type,
+                res_id=item_id,
+                device_id=WORKSTATION_ID,
+                class_name="container",
+                parent=WORKSTATION_ID,
+                bind_locations={"x": 0.0, "y": 0.0, "z": 0.0},
+                liquid_input_slot=[-1],
+                liquid_type=liquid_type,
+                liquid_volume=liquid_volume,
+                slot_on_deck="",
+                role=item.get("role", ""),
+            )
+            resource_last_writer[item_id] = f"{node_id}:labware"
+
+        last_control_node_id = None
+
+        # 处理协议步骤
+        for step in protocol_steps:
+            node_id = str(uuid.uuid4())
+            G.add_node(node_id, **step)
+
+            # 控制流
+            if last_control_node_id is not None:
+                G.add_edge(last_control_node_id, node_id, source_port="ready", target_port="ready")
+            last_control_node_id = node_id
+
+            # 物料流
+            params = step.get("parameters", {})
+            input_resources = {
+                "Vessel": params.get("vessel"),
+                "ToVessel": params.get("to_vessel"),
+                "FromVessel": params.get("from_vessel"),
+                "reagent": params.get("reagent"),
+                "solvent": params.get("solvent"),
+                "compound": params.get("compound"),
+                "sources": params.get("sources"),
+                "targets": params.get("targets"),
+            }
+
+            for target_port, resource_name in input_resources.items():
+                if resource_name and resource_name in resource_last_writer:
+                    source_node, source_port = resource_last_writer[resource_name].split(":")
+                    G.add_edge(source_node, node_id, source_port=source_port, target_port=target_port)
+
+            output_resources = {
+                "VesselOut": params.get("vessel"),
+                "FromVesselOut": params.get("from_vessel"),
+                "ToVesselOut": params.get("to_vessel"),
+                "FiltrateOut": params.get("filtrate_vessel"),
+                "reagent": params.get("reagent"),
+                "solvent": params.get("solvent"),
+                "compound": params.get("compound"),
+                "sources_out": params.get("sources"),
+                "targets_out": params.get("targets"),
+            }
+
+            for source_port, resource_name in output_resources.items():
+                if resource_name:
+                    resource_last_writer[resource_name] = f"{node_id}:{source_port}"
+
+    return G
+
+
+def draw_protocol_graph(protocol_graph: SimpleGraph, output_path: str):
+    """
+    (辅助功能) 使用 networkx 和 matplotlib 绘制协议工作流图，用于可视化。
+    """
+    if not protocol_graph:
+        print("Cannot draw graph: Graph object is empty.")
+        return
+
+    G = nx.DiGraph()
+
+    for node_id, attrs in protocol_graph.nodes.items():
+        label = attrs.get("description", attrs.get("template", node_id[:8]))
+        G.add_node(node_id, label=label, **attrs)
+
+    for edge in protocol_graph.edges:
+        G.add_edge(edge["source"], edge["target"])
+
+    plt.figure(figsize=(20, 15))
+    try:
+        pos = nx.nx_agraph.graphviz_layout(G, prog="dot")
+    except Exception:
+        pos = nx.shell_layout(G)  # Fallback layout
+
+    node_labels = {node: data["label"] for node, data in G.nodes(data=True)}
+    nx.draw(
+        G,
+        pos,
+        with_labels=False,
+        node_size=2500,
+        node_color="skyblue",
+        node_shape="o",
+        edge_color="gray",
+        width=1.5,
+        arrowsize=15,
+    )
+    nx.draw_networkx_labels(G, pos, labels=node_labels, font_size=8, font_weight="bold")
+
+    plt.title("Chemical Protocol Workflow Graph", size=15)
+    plt.savefig(output_path, dpi=300, bbox_inches="tight")
+    plt.close()
+    print(f"  - Visualization saved to '{output_path}'")
+
+
+from networkx.drawing.nx_agraph import to_agraph
+import re
+
+COMPASS = {"n","e","s","w","ne","nw","se","sw","c"}
+
+def _is_compass(port: str) -> bool:
+    return isinstance(port, str) and port.lower() in COMPASS
+
+def draw_protocol_graph_with_ports(protocol_graph, output_path: str, rankdir: str = "LR"):
+    """
+    使用 Graphviz 端口语法绘制协议工作流图。
+    - 若边上的 source_port/target_port 是 compass（n/e/s/w/...），直接用 compass。
+    - 否则自动为节点创建 record 形状并定义命名端口 <portname>。
+    最终由 PyGraphviz 渲染并输出到 output_path（后缀决定格式，如 .png/.svg/.pdf）。
+    """
+    if not protocol_graph:
+        print("Cannot draw graph: Graph object is empty.")
+        return
+
+    # 1) 先用 networkx 搭建有向图，保留端口属性
+    G = nx.DiGraph()
+    for node_id, attrs in protocol_graph.nodes.items():
+        label = attrs.get("description", attrs.get("template", node_id[:8]))
+        # 保留一个干净的“中心标签”，用于放在 record 的中间槽
+        G.add_node(node_id, _core_label=str(label), **{k:v for k,v in attrs.items() if k not in ("label",)})
+
+    edges_data = []
+    in_ports_by_node  = {}  # 收集命名输入端口
+    out_ports_by_node = {}  # 收集命名输出端口
+
+    for edge in protocol_graph.edges:
+        u = edge["source"]
+        v = edge["target"]
+        sp = edge.get("source_port")
+        tp = edge.get("target_port")
+
+        # 记录到图里（保留原始端口信息）
+        G.add_edge(u, v, source_port=sp, target_port=tp)
+        edges_data.append((u, v, sp, tp))
+
+        # 如果不是 compass，就按“命名端口”先归类，等会儿给节点造 record
+        if sp and not _is_compass(sp):
+            out_ports_by_node.setdefault(u, set()).add(str(sp))
+        if tp and not _is_compass(tp):
+            in_ports_by_node.setdefault(v, set()).add(str(tp))
+
+    # 2) 转为 AGraph，使用 Graphviz 渲染
+    A = to_agraph(G)
+    A.graph_attr.update(rankdir=rankdir, splines="true", concentrate="false", fontsize="10")
+    A.node_attr.update(shape="box", style="rounded,filled", fillcolor="lightyellow", color="#999999", fontname="Helvetica")
+    A.edge_attr.update(arrowsize="0.8", color="#666666")
+
+    # 3) 为需要命名端口的节点设置 record 形状与 label
+    #    左列 = 输入端口；中间 = 核心标签；右列 = 输出端口
+    for n in A.nodes():
+        node = A.get_node(n)
+        core = G.nodes[n].get("_core_label", n)
+
+        in_ports  = sorted(in_ports_by_node.get(n, []))
+        out_ports = sorted(out_ports_by_node.get(n, []))
+
+        # 如果该节点涉及命名端口，则用 record；否则保留原 box
+        if in_ports or out_ports:
+            def port_fields(ports):
+                if not ports:
+                    return " "  # 必须留一个空槽占位
+                # 每个端口一个小格子，<p> name
+                return "|".join(f"<{re.sub(r'[^A-Za-z0-9_:.|-]', '_', p)}> {p}" for p in ports)
+
+            left  = port_fields(in_ports)
+            right = port_fields(out_ports)
+
+            # 三栏：左(入) | 中(节点名) | 右(出)
+            record_label = f"{{ {left} | {core} | {right} }}"
+            node.attr.update(shape="record", label=record_label)
+        else:
+            # 没有命名端口：普通盒子，显示核心标签
+            node.attr.update(label=str(core))
+
+    # 4) 给边设置 headport / tailport
+    #    - 若端口为 compass：直接用 compass（e.g., headport="e"）
+    #    - 若端口为命名端口：使用在 record 中定义的 <port> 名（同名即可）
+    for (u, v, sp, tp) in edges_data:
+        e = A.get_edge(u, v)
+
+        # Graphviz 属性：tail 是源，head 是目标
+        if sp:
+            if _is_compass(sp):
+                e.attr["tailport"] = sp.lower()
+            else:
+                # 与 record label 中 <port> 名一致；特殊字符已在 label 中做了清洗
+                e.attr["tailport"] = re.sub(r'[^A-Za-z0-9_:.|-]', '_', str(sp))
+
+        if tp:
+            if _is_compass(tp):
+                e.attr["headport"] = tp.lower()
+            else:
+                e.attr["headport"] = re.sub(r'[^A-Za-z0-9_:.|-]', '_', str(tp))
+
+        # 可选：若想让边更贴边缘，可设置 constraint/spline 等
+        # e.attr["arrowhead"] = "vee"
+
+    # 5) 输出
+    A.draw(output_path, prog="dot")
+    print(f"  - Port-aware workflow rendered to '{output_path}'")
+
+
+def flatten_xdl_procedure(procedure_elem: ET.Element) -> List[ET.Element]:
+    """展平嵌套的XDL程序结构"""
+    flattened_operations = []
+    TEMP_UNSUPPORTED_PROTOCOL = ["Purge", "Wait", "Stir", "ResetHandling"]
+
+    def extract_operations(element: ET.Element):
+        if element.tag not in ["Prep", "Reaction", "Workup", "Purification", "Procedure"]:
+            if element.tag not in TEMP_UNSUPPORTED_PROTOCOL:
+                flattened_operations.append(element)
+
+        for child in element:
+            extract_operations(child)
+
+    for child in procedure_elem:
+        extract_operations(child)
+
+    return flattened_operations
+
+
+def parse_xdl_content(xdl_content: str) -> tuple:
+    """解析XDL内容"""
+    try:
+        xdl_content_cleaned = "".join(c for c in xdl_content if c.isprintable())
+        root = ET.fromstring(xdl_content_cleaned)
+
+        synthesis_elem = root.find("Synthesis")
+        if synthesis_elem is None:
+            return None, None, None
+
+        # 解析硬件组件
+        hardware_elem = synthesis_elem.find("Hardware")
+        hardware = []
+        if hardware_elem is not None:
+            hardware = [{"id": c.get("id"), "type": c.get("type")} for c in hardware_elem.findall("Component")]
+
+        # 解析试剂
+        reagents_elem = synthesis_elem.find("Reagents")
+        reagents = []
+        if reagents_elem is not None:
+            reagents = [{"name": r.get("name"), "role": r.get("role", "")} for r in reagents_elem.findall("Reagent")]
+
+        # 解析程序
+        procedure_elem = synthesis_elem.find("Procedure")
+        if procedure_elem is None:
+            return None, None, None
+
+        flattened_operations = flatten_xdl_procedure(procedure_elem)
+        return hardware, reagents, flattened_operations
+
+    except ET.ParseError as e:
+        raise ValueError(f"Invalid XDL format: {e}")
+
+
+def convert_xdl_to_dict(xdl_content: str) -> Dict[str, Any]:
+    """
+    将XDL XML格式转换为标准的字典格式
+
+    Args:
+        xdl_content: XDL XML内容
+
+    Returns:
+        转换结果，包含步骤和器材信息
+    """
+    try:
+        hardware, reagents, flattened_operations = parse_xdl_content(xdl_content)
+        if hardware is None:
+            return {"error": "Failed to parse XDL content", "success": False}
+
+        # 将XDL元素转换为字典格式
+        steps_data = []
+        for elem in flattened_operations:
+            # 转换参数类型
+            parameters = {}
+            for key, val in elem.attrib.items():
+                converted_val = convert_to_type(val)
+                if converted_val is not None:
+                    parameters[key] = converted_val
+
+            step_dict = {
+                "operation": elem.tag,
+                "parameters": parameters,
+                "description": elem.get("purpose", f"Operation: {elem.tag}"),
+            }
+            steps_data.append(step_dict)
+
+        # 合并硬件和试剂为统一的labware_info格式
+        labware_data = []
+        labware_data.extend({"id": hw["id"], "type": "hardware", **hw} for hw in hardware)
+        labware_data.extend({"name": reagent["name"], "type": "reagent", **reagent} for reagent in reagents)
+
+        return {
+            "success": True,
+            "steps": steps_data,
+            "labware": labware_data,
+            "message": f"Successfully converted XDL to dict format. Found {len(steps_data)} steps and {len(labware_data)} labware items.",
+        }
+
+    except Exception as e:
+        error_msg = f"XDL conversion failed: {str(e)}"
+        logger.error(error_msg)
+        return {"error": error_msg, "success": False}
 
 
 def create_workflow(

setup.py

@@ -4,7 +4,7 @@ package_name = 'unilabos'
 
 setup(
     name=package_name,
-    version='0.10.19',
+    version='0.11.1',
     packages=find_packages(),
     include_package_data=True,
     install_requires=['setuptools'],

unilabos/__init__.py

@@ -1 +1 @@
-__version__ = "0.10.19"
+__version__ = "0.11.1"

unilabos/app/main.py

@@ -12,6 +12,15 @@ from typing import Dict, Any, List
 import networkx as nx
 import yaml
 
+# Windows 中文系统 stdout 默认 GBK，无法编码 banner / emoji 日志中的 Unicode 字符
+# 强制 stdout/stderr 用 UTF-8，避免 print 触发 UnicodeEncodeError 导致进程崩溃
+if sys.platform == "win32":
+    for _stream in (sys.stdout, sys.stderr):
+        try:
+            _stream.reconfigure(encoding="utf-8", errors="replace")  # type: ignore[attr-defined]
+        except (AttributeError, OSError):
+            pass
+
 # 首先添加项目根目录到路径
 current_dir = os.path.dirname(os.path.abspath(__file__))
 unilabos_dir = os.path.dirname(os.path.dirname(current_dir))

unilabos/devices/virtual/virtual_multiway_valve.py

@@ -2,6 +2,8 @@ import time
 import logging
 from typing import Union, Dict, Optional
 
+from unilabos.registry.decorators import topic_config
+
 
 class VirtualMultiwayValve:
     """
@@ -41,13 +43,11 @@ class VirtualMultiwayValve:
     def target_position(self) -> int:
         return self._target_position
 
-    def get_current_position(self) -> int:
-        """获取当前阀门位置 📍"""
-        return self._current_position
-
-    def get_current_port(self) -> str:
-        """获取当前连接的端口名称 🔌"""
-        return self._current_position
+    @property
+    @topic_config()
+    def current_port(self) -> str:
+        """当前连接的端口名称 🔌"""
+        return self.port
 
     def set_position(self, command: Union[int, str]):
         """
@@ -169,12 +169,14 @@ class VirtualMultiwayValve:
         self._status = "Idle"
         self._valve_state = "Closed"
         
-        close_msg = f"🔒 阀门已关闭，保持在位置 {self._current_position} ({self.get_current_port()})"
+        close_msg = f"🔒 阀门已关闭，保持在位置 {self._current_position} ({self.port})"
         self.logger.info(close_msg)
         return close_msg
 
-    def get_valve_position(self) -> int:
-        """获取阀门位置 - 兼容性方法 📍"""
+    @property
+    @topic_config()
+    def valve_position(self) -> int:
+        """阀门位置 📍"""
         return self._current_position
 
     def set_valve_position(self, command: Union[int, str]):
@@ -229,19 +231,16 @@ class VirtualMultiwayValve:
             self.logger.info(f"🔄 从端口 {self._current_position} 切换到泵位置...")
             return self.set_to_pump_position()
 
-    def get_flow_path(self) -> str:
-        """获取当前流路路径描述 🌊"""
-        current_port = self.get_current_port()
+    @property
+    @topic_config()
+    def flow_path(self) -> str:
+        """当前流路路径描述 🌊"""
         if self._current_position == 0:
-            flow_path = f"🚰 转移泵已连接 (位置 {self._current_position})"
-        else:
-            flow_path = f"🔌 端口 {self._current_position} 已连接 ({current_port})"
-        
-        # 删除debug日志：self.logger.debug(f"🌊 当前流路: {flow_path}")
-        return flow_path
+            return f"🚰 转移泵已连接 (位置 {self._current_position})"
+        return f"🔌 端口 {self._current_position} 已连接 ({self.current_port})"
 
     def __str__(self):
-        current_port = self.get_current_port()
+        current_port = self.current_port
         status_emoji = "✅" if self._status == "Idle" else "🔄" if self._status == "Busy" else "❌"
         
         return f"🔄 VirtualMultiwayValve({status_emoji} 位置: {self._current_position}/{self.max_positions}, 端口: {current_port}, 状态: {self._status})"
@@ -253,7 +252,7 @@ if __name__ == "__main__":
     
     print("🔄 === 虚拟九通阀门测试 === ✨")
     print(f"🏠 初始状态: {valve}")
-    print(f"🌊 当前流路: {valve.get_flow_path()}")
+    print(f"🌊 当前流路: {valve.flow_path}")
     
     # 切换到试剂瓶1（1号位）
     print(f"\n🔌 切换到1号位: {valve.set_position(1)}")

unilabos/devices/virtual/virtual_stirrer.py

@@ -3,6 +3,7 @@ import logging
 import time as time_module
 from typing import Dict, Any
 
+from unilabos.registry.decorators import topic_config
 from unilabos.ros.nodes.base_device_node import BaseROS2DeviceNode
 
 class VirtualStirrer:
@@ -314,9 +315,11 @@ class VirtualStirrer:
     def min_speed(self) -> float:
         return self._min_speed
     
-    def get_device_info(self) -> Dict[str, Any]:
-        """获取设备状态信息 📊"""
-        info = {
+    @property
+    @topic_config()
+    def device_info(self) -> Dict[str, Any]:
+        """设备状态快照信息 📊"""
+        return {
             "device_id": self.device_id,
             "status": self.status,
             "operation_mode": self.operation_mode,
@@ -325,12 +328,9 @@ class VirtualStirrer:
             "is_stirring": self.is_stirring,
             "remaining_time": self.remaining_time,
             "max_speed": self._max_speed,
-            "min_speed": self._min_speed
+            "min_speed": self._min_speed,
         }
-        
-        # self.logger.debug(f"📊 设备信息: 模式={self.operation_mode}, 速度={self.current_speed} RPM, 搅拌={self.is_stirring}")
-        return info
-    
+
     def __str__(self):
         status_emoji = "✅" if self.operation_mode == "Idle" else "🌪️" if self.operation_mode == "Stirring" else "🛑" if self.operation_mode == "Settling" else "❌"
         return f"🌪️ VirtualStirrer({status_emoji} {self.device_id}: {self.operation_mode}, {self.current_speed} RPM)"

unilabos/devices/virtual/virtual_transferpump.py

@@ -4,6 +4,7 @@ from enum import Enum
 from typing import Union, Optional
 import logging
 
+from unilabos.registry.decorators import topic_config
 from unilabos.ros.nodes.base_device_node import BaseROS2DeviceNode
 
 
@@ -385,8 +386,10 @@ class VirtualTransferPump:
         """获取当前体积"""
         return self._current_volume
 
-    def get_remaining_capacity(self) -> float:
-        """获取剩余容量"""
+    @property
+    @topic_config()
+    def remaining_capacity(self) -> float:
+        """剩余容量 (ml)"""
         return self.max_volume - self._current_volume
 
     def is_empty(self) -> bool:

unilabos/registry/devices/virtual_device.yaml

@@ -3960,6 +3960,14 @@ virtual_separator:
     io_type: source
     label: bottom_phase_out
     side: SOUTH
+  - data_key: top_outlet
+    data_source: executor
+    data_type: fluid
+    description: 上相（轻相）液体输出口
+    handler_key: topphaseout
+    io_type: source
+    label: top_phase_out
+    side: NORTH
   - data_key: mechanical_port
     data_source: handle
     data_type: mechanical

unilabos/resources/graphio.py

@@ -42,7 +42,7 @@ def canonicalize_nodes_data(
     Returns:
         ResourceTreeSet: 标准化后的资源树集合
     """
-    print_status(f"{len(nodes)} Resources loaded", "info")
+    print_status(f"{len(nodes)} Resources loaded:", "info")
 
     # 第一步：基本预处理（处理graphml的label字段）
     outer_host_node_id = None

unilabos/ros/nodes/base_device_node.py

@@ -1971,10 +1971,15 @@ class BaseROS2DeviceNode(Node, Generic[T]):
 
         mapped_plr_resources = []
         for uuid in uuids_list:
+            found = None
             for plr_resource in figured_resources:
                 r = self.resource_tracker.loop_find_with_uuid(plr_resource, uuid)
-                mapped_plr_resources.append(r)
-                break
+                if r is not None:
+                    found = r
+                    break
+            if found is None:
+                raise Exception(f"未能在已解析的资源树中找到 uuid={uuid} 对应的资源")
+            mapped_plr_resources.append(found)
 
         return mapped_plr_resources
 

unilabos/utils/environment_check.py

@@ -188,7 +188,13 @@ class EnvironmentChecker:
             "crcmod": "crcmod-plus",
         }
 
-        self.special_packages = {"pylabrobot": "git+https://github.com/Xuwznln/pylabrobot.git"}
+        # 中文 locale 下走 Gitee 镜像，规避 GitHub 拉取失败
+        pylabrobot_url = (
+            "git+https://gitee.com/xuwznln/pylabrobot.git"
+            if _is_chinese_locale()
+            else "git+https://github.com/Xuwznln/pylabrobot.git"
+        )
+        self.special_packages = {"pylabrobot": pylabrobot_url}
 
         self.version_requirements = {
             "msgcenterpy": "0.1.8",

unilabos/workflow/from_python_script.py

@@ -1,241 +0,0 @@
-import ast
-import json
-from typing import Dict, List, Any, Tuple, Optional
-
-from .common import WorkflowGraph, RegistryAdapter
-
-Json = Dict[str, Any]
-
-# ---------------- Converter ----------------
-
-class DeviceMethodConverter:
-    """
-    - 字段统一：resource_name（原 device_class）、template_name（原 action_key）
-    - params 单层；inputs 使用 'params.' 前缀
-    - SimpleGraph.add_workflow_node 负责变量连线与边
-    """
-    def __init__(self, device_registry: Optional[Dict[str, Any]] = None):
-        self.graph = WorkflowGraph()
-        self.variable_sources: Dict[str, Dict[str, Any]] = {}        # var -> {node_id, output_name}
-        self.instance_to_resource: Dict[str, Optional[str]] = {}     # 实例名 -> resource_name
-        self.node_id_counter: int = 0
-        self.registry = RegistryAdapter(device_registry or {})
-
-    # ---- helpers ----
-    def _new_node_id(self) -> int:
-        nid = self.node_id_counter
-        self.node_id_counter += 1
-        return nid
-
-    def _assign_targets(self, targets) -> List[str]:
-        names: List[str] = []
-        import ast
-        if isinstance(targets, ast.Tuple):
-            for elt in targets.elts:
-                if isinstance(elt, ast.Name):
-                    names.append(elt.id)
-        elif isinstance(targets, ast.Name):
-            names.append(targets.id)
-        return names
-
-    def _extract_device_instantiation(self, node) -> Optional[Tuple[str, str]]:
-        import ast
-        if not isinstance(node.value, ast.Call):
-            return None
-        callee = node.value.func
-        if isinstance(callee, ast.Name):
-            class_name = callee.id
-        elif isinstance(callee, ast.Attribute) and isinstance(callee.value, ast.Name):
-            class_name = callee.attr
-        else:
-            return None
-        if isinstance(node.targets[0], ast.Name):
-            instance = node.targets[0].id
-            return instance, class_name
-        return None
-
-    def _extract_call(self, call) -> Tuple[str, str, Dict[str, Any], str]:
-        import ast
-        owner_name, method_name, call_kind = "", "", "func"
-        if isinstance(call.func, ast.Attribute):
-            method_name = call.func.attr
-            if isinstance(call.func.value, ast.Name):
-                owner_name = call.func.value.id
-                call_kind = "instance" if owner_name in self.instance_to_resource else "class_or_module"
-            elif isinstance(call.func.value, ast.Attribute) and isinstance(call.func.value.value, ast.Name):
-                owner_name = call.func.value.attr
-                call_kind = "class_or_module"
-        elif isinstance(call.func, ast.Name):
-            method_name = call.func.id
-            call_kind = "func"
-
-        def pack(node):
-            if isinstance(node, ast.Name):
-                return {"type": "variable", "value": node.id}
-            if isinstance(node, ast.Constant):
-                return {"type": "constant", "value": node.value}
-            if isinstance(node, ast.Dict):
-                return {"type": "dict", "value": self._parse_dict(node)}
-            if isinstance(node, ast.List):
-                return {"type": "list", "value": self._parse_list(node)}
-            return {"type": "raw", "value": ast.unparse(node) if hasattr(ast, "unparse") else str(node)}
-
-        args: Dict[str, Any] = {}
-        pos: List[Any] = []
-        for a in call.args:
-            pos.append(pack(a))
-        for kw in call.keywords:
-            args[kw.arg] = pack(kw.value)
-        if pos:
-            args["_positional"] = pos
-        return owner_name, method_name, args, call_kind
-
-    def _parse_dict(self, node) -> Dict[str, Any]:
-        import ast
-        out: Dict[str, Any] = {}
-        for k, v in zip(node.keys, node.values):
-            if isinstance(k, ast.Constant):
-                key = str(k.value)
-                if isinstance(v, ast.Name):
-                    out[key] = f"var:{v.id}"
-                elif isinstance(v, ast.Constant):
-                    out[key] = v.value
-                elif isinstance(v, ast.Dict):
-                    out[key] = self._parse_dict(v)
-                elif isinstance(v, ast.List):
-                    out[key] = self._parse_list(v)
-        return out
-
-    def _parse_list(self, node) -> List[Any]:
-        import ast
-        out: List[Any] = []
-        for elt in node.elts:
-            if isinstance(elt, ast.Name):
-                out.append(f"var:{elt.id}")
-            elif isinstance(elt, ast.Constant):
-                out.append(elt.value)
-            elif isinstance(elt, ast.Dict):
-                out.append(self._parse_dict(elt))
-            elif isinstance(elt, ast.List):
-                out.append(self._parse_list(elt))
-        return out
-
-    def _normalize_var_tokens(self, x: Any) -> Any:
-        if isinstance(x, str) and x.startswith("var:"):
-            return {"__var__": x[4:]}
-        if isinstance(x, list):
-            return [self._normalize_var_tokens(i) for i in x]
-        if isinstance(x, dict):
-            return {k: self._normalize_var_tokens(v) for k, v in x.items()}
-        return x
-
-    def _make_params_payload(self, resource_name: Optional[str], template_name: str, call_args: Dict[str, Any]) -> Dict[str, Any]:
-        input_keys = self.registry.get_action_input_keys(resource_name, template_name) if resource_name else []
-        defaults = self.registry.get_action_goal_default(resource_name, template_name) if resource_name else {}
-        params: Dict[str, Any] = dict(defaults)
-
-        def unpack(p):
-            t, v = p.get("type"), p.get("value")
-            if t == "variable":
-                return {"__var__": v}
-            if t == "dict":
-                return self._normalize_var_tokens(v)
-            if t == "list":
-                return self._normalize_var_tokens(v)
-            return v
-
-        for k, p in call_args.items():
-            if k == "_positional":
-                continue
-            params[k] = unpack(p)
-
-        pos = call_args.get("_positional", [])
-        if pos:
-            if input_keys:
-                for i, p in enumerate(pos):
-                    if i >= len(input_keys):
-                        break
-                    name = input_keys[i]
-                    if name in params:
-                        continue
-                    params[name] = unpack(p)
-            else:
-                for i, p in enumerate(pos):
-                    params[f"arg_{i}"] = unpack(p)
-        return params
-
-    # ---- handlers ----
-    def _on_assign(self, stmt):
-        import ast
-        inst = self._extract_device_instantiation(stmt)
-        if inst:
-            instance, code_class = inst
-            resource_name = self.registry.resolve_resource_by_classname(code_class)
-            self.instance_to_resource[instance] = resource_name
-            return
-
-        if isinstance(stmt.value, ast.Call):
-            owner, method, call_args, kind = self._extract_call(stmt.value)
-            if kind == "instance":
-                device_key = owner
-                resource_name = self.instance_to_resource.get(owner)
-            else:
-                device_key = owner
-                resource_name = self.registry.resolve_resource_by_classname(owner)
-
-            module = self.registry.get_device_module(resource_name)
-            params = self._make_params_payload(resource_name, method, call_args)
-
-            nid = self._new_node_id()
-            self.graph.add_workflow_node(
-                nid,
-                device_key=device_key,
-                resource_name=resource_name,      # ✅
-                module=module,
-                template_name=method,             # ✅
-                params=params,
-                variable_sources=self.variable_sources,
-                add_ready_if_no_vars=True,
-                prev_node_id=(nid - 1) if nid > 0 else None,
-            )
-
-            out_vars = self._assign_targets(stmt.targets[0])
-            for var in out_vars:
-                self.variable_sources[var] = {"node_id": nid, "output_name": "result"}
-
-    def _on_expr(self, stmt):
-        import ast
-        if not isinstance(stmt.value, ast.Call):
-            return
-        owner, method, call_args, kind = self._extract_call(stmt.value)
-        if kind == "instance":
-            device_key = owner
-            resource_name = self.instance_to_resource.get(owner)
-        else:
-            device_key = owner
-            resource_name = self.registry.resolve_resource_by_classname(owner)
-
-        module = self.registry.get_device_module(resource_name)
-        params = self._make_params_payload(resource_name, method, call_args)
-
-        nid = self._new_node_id()
-        self.graph.add_workflow_node(
-            nid,
-            device_key=device_key,
-            resource_name=resource_name,      # ✅
-            module=module,
-            template_name=method,             # ✅
-            params=params,
-            variable_sources=self.variable_sources,
-            add_ready_if_no_vars=True,
-            prev_node_id=(nid - 1) if nid > 0 else None,
-        )
-
-    def convert(self, python_code: str):
-        tree = ast.parse(python_code)
-        for stmt in tree.body:
-            if isinstance(stmt, ast.Assign):
-                self._on_assign(stmt)
-            elif isinstance(stmt, ast.Expr):
-                self._on_expr(stmt)
-        return self

unilabos/workflow/from_xdl.py

@@ -1,131 +0,0 @@
-from typing import List, Any, Dict
-import xml.etree.ElementTree as ET
-
-
-def convert_to_type(val: str) -> Any:
-    """将字符串值转换为适当的数据类型"""
-    if val == "True":
-        return True
-    if val == "False":
-        return False
-    if val == "?":
-        return None
-    if val.endswith(" g"):
-        return float(val.split(" ")[0])
-    if val.endswith("mg"):
-        return float(val.split("mg")[0])
-    elif val.endswith("mmol"):
-        return float(val.split("mmol")[0]) / 1000
-    elif val.endswith("mol"):
-        return float(val.split("mol")[0])
-    elif val.endswith("ml"):
-        return float(val.split("ml")[0])
-    elif val.endswith("RPM"):
-        return float(val.split("RPM")[0])
-    elif val.endswith(" °C"):
-        return float(val.split(" ")[0])
-    elif val.endswith(" %"):
-        return float(val.split(" ")[0])
-    return val
-
-
-def flatten_xdl_procedure(procedure_elem: ET.Element) -> List[ET.Element]:
-    """展平嵌套的XDL程序结构"""
-    flattened_operations = []
-    TEMP_UNSUPPORTED_PROTOCOL = ["Purge", "Wait", "Stir", "ResetHandling"]
-
-    def extract_operations(element: ET.Element):
-        if element.tag not in ["Prep", "Reaction", "Workup", "Purification", "Procedure"]:
-            if element.tag not in TEMP_UNSUPPORTED_PROTOCOL:
-                flattened_operations.append(element)
-
-        for child in element:
-            extract_operations(child)
-
-    for child in procedure_elem:
-        extract_operations(child)
-
-    return flattened_operations
-
-
-def parse_xdl_content(xdl_content: str) -> tuple:
-    """解析XDL内容"""
-    try:
-        xdl_content_cleaned = "".join(c for c in xdl_content if c.isprintable())
-        root = ET.fromstring(xdl_content_cleaned)
-
-        synthesis_elem = root.find("Synthesis")
-        if synthesis_elem is None:
-            return None, None, None
-
-        # 解析硬件组件
-        hardware_elem = synthesis_elem.find("Hardware")
-        hardware = []
-        if hardware_elem is not None:
-            hardware = [{"id": c.get("id"), "type": c.get("type")} for c in hardware_elem.findall("Component")]
-
-        # 解析试剂
-        reagents_elem = synthesis_elem.find("Reagents")
-        reagents = []
-        if reagents_elem is not None:
-            reagents = [{"name": r.get("name"), "role": r.get("role", "")} for r in reagents_elem.findall("Reagent")]
-
-        # 解析程序
-        procedure_elem = synthesis_elem.find("Procedure")
-        if procedure_elem is None:
-            return None, None, None
-
-        flattened_operations = flatten_xdl_procedure(procedure_elem)
-        return hardware, reagents, flattened_operations
-
-    except ET.ParseError as e:
-        raise ValueError(f"Invalid XDL format: {e}")
-
-
-def convert_xdl_to_dict(xdl_content: str) -> Dict[str, Any]:
-    """
-    将XDL XML格式转换为标准的字典格式
-
-    Args:
-        xdl_content: XDL XML内容
-
-    Returns:
-        转换结果，包含步骤和器材信息
-    """
-    try:
-        hardware, reagents, flattened_operations = parse_xdl_content(xdl_content)
-        if hardware is None:
-            return {"error": "Failed to parse XDL content", "success": False}
-
-        # 将XDL元素转换为字典格式
-        steps_data = []
-        for elem in flattened_operations:
-            # 转换参数类型
-            parameters = {}
-            for key, val in elem.attrib.items():
-                converted_val = convert_to_type(val)
-                if converted_val is not None:
-                    parameters[key] = converted_val
-
-            step_dict = {
-                "operation": elem.tag,
-                "parameters": parameters,
-                "description": elem.get("purpose", f"Operation: {elem.tag}"),
-            }
-            steps_data.append(step_dict)
-
-        # 合并硬件和试剂为统一的labware_info格式
-        labware_data = []
-        labware_data.extend({"id": hw["id"], "type": "hardware", **hw} for hw in hardware)
-        labware_data.extend({"name": reagent["name"], "type": "reagent", **reagent} for reagent in reagents)
-
-        return {
-            "success": True,
-            "steps": steps_data,
-            "labware": labware_data,
-            "message": f"Successfully converted XDL to dict format. Found {len(steps_data)} steps and {len(labware_data)} labware items.",
-        }
-
-    except Exception as e:
-        error_msg = f"XDL conversion failed: {str(e)}"
-        return {"error": error_msg, "success": False}

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>0.10.19</version>
+  <version>0.11.1</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>