修复了添加protocol前缀导致的不能启动的bug

Co-authored-by: quehh <scienceol@outlook.com>

.github/workflows/multi-platform-build.yml

@@ -0,0 +1,132 @@
+name: Multi-Platform Conda Build
+
+on:
+  push:
+    branches: [ main, dev ]
+    tags: [ 'v*' ]
+  pull_request:
+    branches: [ main, dev ]
+  workflow_dispatch:
+    inputs:
+      platforms:
+        description: '选择构建平台 (逗号分隔): linux-64, osx-64, osx-arm64, win-64'
+        required: false
+        default: 'osx-arm64'
+
+jobs:
+  build:
+    strategy:
+      fail-fast: false
+      matrix:
+        include:
+        - os: ubuntu-latest
+          platform: linux-64
+          env_file: unilabos-linux-64.yaml
+        - os: macos-13 # Intel
+          platform: osx-64
+          env_file: unilabos-osx-64.yaml
+        - os: macos-latest # ARM64
+          platform: osx-arm64
+          env_file: unilabos-osx-arm64.yaml
+        - os: windows-latest
+          platform: win-64
+          env_file: unilabos-win64.yaml
+
+    runs-on: ${{ matrix.os }}
+
+    defaults:
+      run:
+        shell: bash -l {0}
+
+    steps:
+    - uses: actions/checkout@v4
+      with:
+        fetch-depth: 0
+
+    - name: Check if platform should be built
+      id: should_build
+      run: |
+        if [[ "${{ github.event_name }}" != "workflow_dispatch" ]]; then
+          echo "should_build=true" >> $GITHUB_OUTPUT
+        elif [[ -z "${{ github.event.inputs.platforms }}" ]]; then
+          echo "should_build=true" >> $GITHUB_OUTPUT
+        elif [[ "${{ github.event.inputs.platforms }}" == *"${{ matrix.platform }}"* ]]; then
+          echo "should_build=true" >> $GITHUB_OUTPUT
+        else
+          echo "should_build=false" >> $GITHUB_OUTPUT
+        fi
+
+    - name: Setup Miniconda
+      if: steps.should_build.outputs.should_build == 'true'
+      uses: conda-incubator/setup-miniconda@v3
+      with:
+        miniconda-version: "latest"
+        channels: conda-forge,robostack-staging,defaults
+        channel-priority: strict
+        activate-environment: build-env
+        auto-activate-base: false
+        auto-update-conda: false
+        show-channel-urls: true
+
+    - name: Install boa and build tools
+      if: steps.should_build.outputs.should_build == 'true'
+      run: |
+        conda install -c conda-forge boa conda-build
+
+    - name: Show environment info
+      if: steps.should_build.outputs.should_build == 'true'
+      run: |
+        conda info
+        conda list | grep -E "(boa|conda-build)"
+        echo "Platform: ${{ matrix.platform }}"
+        echo "OS: ${{ matrix.os }}"
+
+    - name: Build conda package
+      if: steps.should_build.outputs.should_build == 'true'
+      run: |
+        if [[ "${{ matrix.platform }}" == "osx-arm64" ]]; then
+          boa build -m ./recipes/conda_build_config.yaml -m ./recipes/macos_sdk_config.yaml ./recipes/ros-humble-unilabos-msgs
+        else
+          boa build -m ./recipes/conda_build_config.yaml ./recipes/ros-humble-unilabos-msgs
+        fi
+
+    - name: List built packages
+      if: steps.should_build.outputs.should_build == 'true'
+      run: |
+        echo "Built packages in conda-bld:"
+        find $CONDA_PREFIX/conda-bld -name "*.tar.bz2" | head -10
+        ls -la $CONDA_PREFIX/conda-bld/${{ matrix.platform }}/ || echo "${{ matrix.platform }} directory not found"
+        ls -la $CONDA_PREFIX/conda-bld/noarch/ || echo "noarch directory not found"
+        echo "CONDA_PREFIX: $CONDA_PREFIX"
+        echo "Full path would be: $CONDA_PREFIX/conda-bld/**/*.tar.bz2"
+
+    - name: Prepare artifacts for upload
+      if: steps.should_build.outputs.should_build == 'true'
+      run: |
+        mkdir -p ${{ runner.temp }}/conda-packages
+        find $CONDA_PREFIX/conda-bld -name "*.tar.bz2" -exec cp {} ${{ runner.temp }}/conda-packages/ \;
+        echo "Copied files to temp directory:"
+        ls -la ${{ runner.temp }}/conda-packages/
+
+    - name: Upload conda package artifacts
+      if: steps.should_build.outputs.should_build == 'true'
+      uses: actions/upload-artifact@v4
+      with:
+        name: conda-package-${{ matrix.platform }}
+        path: ${{ runner.temp }}/conda-packages
+        if-no-files-found: warn
+        retention-days: 30
+
+    - name: Create release assets (on tags)
+      if: steps.should_build.outputs.should_build == 'true' && startsWith(github.ref, 'refs/tags/')
+      run: |
+        mkdir -p release-assets
+        find $CONDA_PREFIX/conda-bld -name "*.tar.bz2" -exec cp {} release-assets/ \;
+
+    - name: Upload to release
+      if: steps.should_build.outputs.should_build == 'true' && startsWith(github.ref, 'refs/tags/')
+      uses: softprops/action-gh-release@v1
+      with:
+        files: release-assets/*
+        draft: false
+        prerelease: false

MANIFEST.in

@@ -1,3 +1,5 @@
 recursive-include unilabos/registry *.yaml
 recursive-include unilabos/app/web *.html
 recursive-include unilabos/app/web *.css
+recursive-include unilabos/device_mesh/devices *
+recursive-include unilabos/device_mesh/resources *

README.md

@@ -49,7 +49,7 @@ conda env update --file unilabos-[YOUR_OS].yml -n environment_name
 
 # Currently, you need to install the `unilabos_msgs` package
 # You can download the system-specific package from the Release page
-conda install ros-humble-unilabos-msgs-0.9.4-xxxxx.tar.bz2
+conda install ros-humble-unilabos-msgs-0.9.5-xxxxx.tar.bz2
 
 # Install PyLabRobot and other prerequisites
 git clone https://github.com/PyLabRobot/pylabrobot plr_repo

README_zh.md

@@ -49,7 +49,7 @@ conda env update --file unilabos-[YOUR_OS].yml -n 环境名
 
 # 现阶段，需要安装 `unilabos_msgs` 包
 # 可以前往 Release 页面下载系统对应的包进行安装
-conda install ros-humble-unilabos-msgs-0.9.4-xxxxx.tar.bz2
+conda install ros-humble-unilabos-msgs-0.9.5-xxxxx.tar.bz2
 
 # 安装PyLabRobot等前置
 git clone https://github.com/PyLabRobot/pylabrobot plr_repo

recipes/macos_sdk_config.yaml

@@ -0,0 +1,7 @@
+CONDA_BUILD_SYSROOT:
+  - /Library/Developer/CommandLineTools/SDKs/MacOSX.sdk
+MACOSX_DEPLOYMENT_TARGET:
+  - "11.0"
+CONDA_SUBDIR:
+  - osx-arm64
+# boa build -m ./recipes/conda_build_config.yaml -m ./recipes/macos_sdk_config.yaml ./recipes/ros-humble-unilabos-msgs

recipes/ros-humble-unilabos-msgs/recipe.yaml

@@ -1,6 +1,6 @@
 package:
   name: ros-humble-unilabos-msgs
-  version: 0.9.4
+  version: 0.9.5
 source:
   path: ../../unilabos_msgs
   folder: ros-humble-unilabos-msgs/src/work

recipes/unilabos/recipe.yaml

@@ -1,6 +1,6 @@
 package:
   name: unilabos
-  version: "0.9.4"
+  version: "0.9.5"
 
 source:
   path: ../..

setup.py

@@ -4,7 +4,7 @@ package_name = 'unilabos'
 
 setup(
     name=package_name,
-    version='0.9.4',
+    version='0.9.5',
     packages=find_packages(),
     include_package_data=True,
     install_requires=['setuptools'],

test/experiments/comprehensive_protocol/checklist.md

@@ -0,0 +1,32 @@
+1. 用到的仪器
+                virtual_multiway_valve()                                                        八通阀门
+                virtual_transfer_pump()                                                         转移泵
+                virtual_centrifuge()                                                            离心机
+                virtual_rotavap()                                                               旋蒸仪
+                virtual_heatchill()                                                             加热器
+                virtual_stirrer()                                                               搅拌器
+                virtual_solenoid_valve()                                                        电磁阀
+                vacuum_pump()                       vacuum_pump.mock                            真空泵
+                gas_source()                                                                    气源
+                virtual_filter()                                                                过滤器
+                virtual_column(√)                                                               层析柱
+                separator()                         homemade_grbl_conductivity                  分液漏斗
+2. 用到的protocol
+                AddProtocol()
+                TransferProtocol()                  应该用pump_protocol.py删掉transfer
+                StartStirProtocol()
+                StopStirProtocol()
+                StirProtocol()
+                RunColumnProtocol()
+                CentrifugeProtocol()
+                FilterProtocol()
+                CleanVesselProtocol()
+                DissolveProtocol()
+                FilterThroughProtocol()
+                WashSolidProtocol()
+                SeparateProtocol(√)
+                EvaporateProtocol(√)
+                HeatChillProtocol()
+                HeatChillStartProtocol()
+                HeatChillStopProtocol()
+                EvacuateAndRefillProtocol(√)

test/experiments/comprehensive_protocol/comprehensive_station.json

@@ -0,0 +1,887 @@
+{
+    "nodes": [
+        {
+            "id": "ComprehensiveProtocolStation",
+            "name": "综合协议测试工作站",
+            "children": [
+                "multiway_valve_1",
+                "multiway_valve_2",
+                "transfer_pump_1",
+                "transfer_pump_2",
+                "reagent_bottle_1",
+                "reagent_bottle_2",
+                "reagent_bottle_3",
+                "reagent_bottle_4",
+                "reagent_bottle_5",
+                "centrifuge_1",
+                "rotavap_1",
+                "main_reactor",
+                "heater_1",
+                "stirrer_1",
+                "stirrer_2",
+                "waste_bottle_1",
+                "waste_bottle_2",
+                "solenoid_valve_1",
+                "solenoid_valve_2",
+                "vacuum_pump_1",
+                "gas_source_1",
+                "filter_1",
+                "column_1",
+                "separator_1",
+                "collection_bottle_1",
+                "collection_bottle_2",
+                "collection_bottle_3"
+            ],
+            "parent": null,
+            "type": "device",
+            "class": "workstation",
+            "position": {
+                "x": 600,
+                "y": 400,
+                "z": 0
+            },
+            "config": {
+                "protocol_type": [
+                    "AddProtocol",
+                    "TransferProtocol",
+                    "StartStirProtocol",
+                    "StopStirProtocol",
+                    "StirProtocol",
+                    "RunColumnProtocol",
+                    "CentrifugeProtocol",
+                    "FilterProtocol",
+                    "CleanVesselProtocol",
+                    "DissolveProtocol",
+                    "FilterThroughProtocol",
+                    "WashSolidProtocol",
+                    "SeparateProtocol",
+                    "EvaporateProtocol",
+                    "HeatChillProtocol",
+                    "HeatChillStartProtocol",
+                    "HeatChillStopProtocol",
+                    "EvacuateAndRefillProtocol"
+                ]
+            },
+            "data": {}
+        },
+        {
+            "id": "multiway_valve_1",
+            "name": "八通阀门1",
+            "children": [],
+            "parent": "ComprehensiveProtocolStation",
+            "type": "device",
+            "class": "virtual_multiway_valve",
+            "position": {
+                "x": 400,
+                "y": 300,
+                "z": 0
+            },
+            "config": {
+                "positions": 8,
+                "current_position": 1
+            },
+            "data": {
+                "valve_state": "Ready",
+                "current_position": 1
+            }
+        },
+        {
+            "id": "multiway_valve_2",
+            "name": "八通阀门2",
+            "children": [],
+            "parent": "ComprehensiveProtocolStation",
+            "type": "device",
+            "class": "virtual_multiway_valve",
+            "position": {
+                "x": 800,
+                "y": 300,
+                "z": 0
+            },
+            "config": {
+                "positions": 8,
+                "current_position": 1
+            },
+            "data": {
+                "valve_state": "Ready",
+                "current_position": 1
+            }
+        },
+        {
+            "id": "transfer_pump_1",
+            "name": "转移泵1",
+            "children": [],
+            "parent": "ComprehensiveProtocolStation",
+            "type": "device",
+            "class": "virtual_transfer_pump",
+            "position": {
+                "x": 350,
+                "y": 250,
+                "z": 0
+            },
+            "config": {
+                "max_volume": 25.0,
+                "transfer_rate": 10.0
+            },
+            "data": {
+                "status": "Idle",
+                "current_volume": 0.0
+            }
+        },
+        {
+            "id": "transfer_pump_2",
+            "name": "转移泵2",
+            "children": [],
+            "parent": "ComprehensiveProtocolStation",
+            "type": "device",
+            "class": "virtual_transfer_pump",
+            "position": {
+                "x": 850,
+                "y": 250,
+                "z": 0
+            },
+            "config": {
+                "max_volume": 25.0,
+                "transfer_rate": 10.0
+            },
+            "data": {
+                "status": "Idle",
+                "current_volume": 0.0
+            }
+        },
+        {
+            "id": "reagent_bottle_1",
+            "name": "试剂瓶1-DMF",
+            "children": [],
+            "parent": "ComprehensiveProtocolStation",
+            "type": "container",
+            "class": null,
+            "position": {
+                "x": 200,
+                "y": 150,
+                "z": 0
+            },
+            "config": {
+                "volume": 1000.0,
+                "reagent": "DMF"
+            },
+            "data": {
+                "current_volume": 1000.0,
+                "reagent_name": "DMF"
+            }
+        },
+        {
+            "id": "reagent_bottle_2",
+            "name": "试剂瓶2-乙酸乙酯",
+            "children": [],
+            "parent": "ComprehensiveProtocolStation",
+            "type": "container",
+            "class": null,
+            "position": {
+                "x": 250,
+                "y": 150,
+                "z": 0
+            },
+            "config": {
+                "volume": 1000.0,
+                "reagent": "ethyl_acetate"
+            },
+            "data": {
+                "current_volume": 1000.0,
+                "reagent_name": "ethyl_acetate"
+            }
+        },
+        {
+            "id": "reagent_bottle_3",
+            "name": "试剂瓶3-己烷",
+            "children": [],
+            "parent": "ComprehensiveProtocolStation",
+            "type": "container",
+            "class": null,
+            "position": {
+                "x": 300,
+                "y": 150,
+                "z": 0
+            },
+            "config": {
+                "volume": 1000.0,
+                "reagent": "hexane"
+            },
+            "data": {
+                "current_volume": 1000.0,
+                "reagent_name": "hexane"
+            }
+        },
+        {
+            "id": "reagent_bottle_4",
+            "name": "试剂瓶4-甲醇",
+            "children": [],
+            "parent": "ComprehensiveProtocolStation",
+            "type": "container",
+            "class": null,
+            "position": {
+                "x": 900,
+                "y": 150,
+                "z": 0
+            },
+            "config": {
+                "volume": 1000.0,
+                "reagent": "methanol"
+            },
+            "data": {
+                "current_volume": 1000.0,
+                "reagent_name": "methanol"
+            }
+        },
+        {
+            "id": "reagent_bottle_5",
+            "name": "试剂瓶5-水",
+            "children": [],
+            "parent": "ComprehensiveProtocolStation",
+            "type": "container",
+            "class": null,
+            "position": {
+                "x": 950,
+                "y": 150,
+                "z": 0
+            },
+            "config": {
+                "volume": 1000.0,
+                "reagent": "water"
+            },
+            "data": {
+                "current_volume": 1000.0,
+                "reagent_name": "water"
+            }
+        },
+        {
+            "id": "centrifuge_1",
+            "name": "离心机",
+            "children": [],
+            "parent": "ComprehensiveProtocolStation",
+            "type": "device",
+            "class": "virtual_centrifuge",
+            "position": {
+                "x": 200,
+                "y": 400,
+                "z": 0
+            },
+            "config": {
+                "max_speed": 15000.0,
+                "max_temp": 40.0,
+                "min_temp": 4.0
+            },
+            "data": {
+                "current_speed": 0.0,
+                "status": "Idle"
+            }
+        },
+        {
+            "id": "rotavap_1",
+            "name": "旋转蒸发仪",
+            "children": [],
+            "parent": "ComprehensiveProtocolStation",
+            "type": "device",
+            "class": "virtual_rotavap",
+            "position": {
+                "x": 300,
+                "y": 400,
+                "z": 0
+            },
+            "config": {
+                "max_temp": 180.0,
+                "max_rotation_speed": 280.0
+            },
+            "data": {
+                "status": "Idle",
+                "current_temp": 25.0,
+                "rotation_speed": 0.0
+            }
+        },
+        {
+            "id": "main_reactor",
+            "name": "主反应器",
+            "children": [],
+            "parent": "ComprehensiveProtocolStation",
+            "type": "container",
+            "class": null,
+            "position": {
+                "x": 400,
+                "y": 450,
+                "z": 0
+            },
+            "config": {
+                "volume": 500.0,
+                "max_temp": 200.0,
+                "min_temp": -20.0,
+                "has_stirrer": true,
+                "has_heater": true
+            },
+            "data": {
+                "current_volume": 0.0,
+                "current_temp": 25.0
+            }
+        },
+        {
+            "id": "heater_1",
+            "name": "加热器",
+            "children": [],
+            "parent": "ComprehensiveProtocolStation",
+            "type": "device",
+            "class": "virtual_heatchill",
+            "position": {
+                "x": 450,
+                "y": 450,
+                "z": 0
+            },
+            "config": {
+                "max_temp": 200.0,
+                "min_temp": -20.0
+            },
+            "data": {
+                "status": "Idle",
+                "current_temp": 25.0
+            }
+        },
+        {
+            "id": "stirrer_1",
+            "name": "搅拌器1",
+            "children": [],
+            "parent": "ComprehensiveProtocolStation",
+            "type": "device",
+            "class": "virtual_stirrer",
+            "position": {
+                "x": 350,
+                "y": 450,
+                "z": 0
+            },
+            "config": {
+                "max_speed": 2000.0
+            },
+            "data": {
+                "status": "Idle",
+                "current_speed": 0.0
+            }
+        },
+                {
+            "id": "stirrer_2",
+            "name": "搅拌器2",
+            "children": [],
+            "parent": "ComprehensiveProtocolStation",
+            "type": "device",
+            "class": "virtual_stirrer",
+            "position": {
+                "x": 351,
+                "y": 451,
+                "z": 0
+            },
+            "config": {
+                "max_speed": 2000.0
+            },
+            "data": {
+                "status": "Idle",
+                "current_speed": 0.0
+            }
+        },
+        {
+            "id": "waste_bottle_1",
+            "name": "废液瓶1",
+            "children": [],
+            "parent": "ComprehensiveProtocolStation",
+            "type": "container",
+            "class": null,
+            "position": {
+                "x": 500,
+                "y": 400,
+                "z": 0
+            },
+            "config": {
+                "volume": 2000.0
+            },
+            "data": {
+                "current_volume": 0.0
+            }
+        },
+        {
+            "id": "waste_bottle_2",
+            "name": "废液瓶2",
+            "children": [],
+            "parent": "ComprehensiveProtocolStation",
+            "type": "container",
+            "class": null,
+            "position": {
+                "x": 1100,
+                "y": 500,
+                "z": 0
+            },
+            "config": {
+                "volume": 2000.0
+            },
+            "data": {
+                "current_volume": 0.0
+            }
+        },
+        {
+            "id": "solenoid_valve_1",
+            "name": "电磁阀1",
+            "children": [],
+            "parent": "ComprehensiveProtocolStation",
+            "type": "device",
+            "class": "virtual_solenoid_valve",
+            "position": {
+                "x": 700,
+                "y": 200,
+                "z": 0
+            },
+            "config": {
+                "voltage": 12.0,
+                "response_time": 0.1
+            },
+            "data": {
+                "valve_state": "Closed",
+                "is_open": false
+            }
+        },
+        {
+            "id": "solenoid_valve_2",
+            "name": "电磁阀2",
+            "children": [],
+            "parent": "ComprehensiveProtocolStation",
+            "type": "device",
+            "class": "virtual_solenoid_valve",
+            "position": {
+                "x": 700,
+                "y": 150,
+                "z": 0
+            },
+            "config": {
+                "voltage": 12.0,
+                "response_time": 0.1
+            },
+            "data": {
+                "valve_state": "Closed",
+                "is_open": false
+            }
+        },
+        {
+            "id": "vacuum_pump_1",
+            "name": "真空泵",
+            "children": [],
+            "parent": "ComprehensiveProtocolStation",
+            "type": "device",
+            "class": "virtual_vacuum_pump",
+            "position": {
+                "x": 650,
+                "y": 200,
+                "z": 0
+            },
+            "config": {
+                "max_vacuum": 0.1,
+                "pump_rate": 50.0
+            },
+            "data": {
+                "status": "Off",
+                "current_vacuum": 1.0
+            }
+        },
+        {
+            "id": "gas_source_1",
+            "name": "气源",
+            "children": [],
+            "parent": "ComprehensiveProtocolStation",
+            "type": "device",
+            "class": "gas_source.mock",
+            "position": {
+                "x": 650,
+                "y": 150,
+                "z": 0
+            },
+            "config": {
+                "gas_type": "nitrogen",
+                "max_pressure": 5.0
+            },
+            "data": {
+                "status": "Off",
+                "current_pressure": 0.0
+            }
+        },
+        {
+            "id": "filter_1",
+            "name": "过滤器",
+            "children": [],
+            "parent": "ComprehensiveProtocolStation",
+            "type": "device",
+            "class": "virtual_filter",
+            "position": {
+                "x": 900,
+                "y": 400,
+                "z": 0
+            },
+            "config": {
+                "filter_type": "membrane",
+                "max_pressure": 5.0
+            },
+            "data": {
+                "status": "Ready",
+                "pressure": 0.0
+            }
+        },
+        {
+            "id": "column_1",
+            "name": "洗脱柱",
+            "children": [],
+            "parent": "ComprehensiveProtocolStation",
+            "type": "device",
+            "class": "virtual_column",
+            "position": {
+                "x": 950,
+                "y": 400,
+                "z": 0
+            },
+            "config": {
+                "column_type": "silica_gel",
+                "length": 30.0,
+                "diameter": 2.5
+            },
+            "data": {
+                "status": "Ready",
+                "loaded": false
+            }
+        },
+        {
+            "id": "separator_1",
+            "name": "分液器",
+            "children": [],
+            "parent": "ComprehensiveProtocolStation",
+            "type": "device",
+            "class": "virtual_separator",
+            "position": {
+                "x": 1000,
+                "y": 450,
+                "z": 0
+            },
+            "config": {
+                "volume": 250.0,
+                "has_phases": true
+            },
+            "data": {
+                "status": "Ready",
+                "phase_separation": false
+            }
+        },
+        {
+            "id": "collection_bottle_1",
+            "name": "接收瓶1",
+            "children": [],
+            "parent": "ComprehensiveProtocolStation",
+            "type": "container",
+            "class": null,
+            "position": {
+                "x": 900,
+                "y": 500,
+                "z": 0
+            },
+            "config": {
+                "volume": 250.0
+            },
+            "data": {
+                "current_volume": 0.0
+            }
+        },
+        {
+            "id": "collection_bottle_2",
+            "name": "接收瓶2",
+            "children": [],
+            "parent": "ComprehensiveProtocolStation",
+            "type": "container",
+            "class": null,
+            "position": {
+                "x": 950,
+                "y": 500,
+                "z": 0
+            },
+            "config": {
+                "volume": 250.0
+            },
+            "data": {
+                "current_volume": 0.0
+            }
+        },
+        {
+            "id": "collection_bottle_3",
+            "name": "接收瓶3",
+            "children": [],
+            "parent": "ComprehensiveProtocolStation",
+            "type": "container",
+            "class": null,
+            "position": {
+                "x": 1050,
+                "y": 500,
+                "z": 0
+            },
+            "config": {
+                "volume": 250.0
+            },
+            "data": {
+                "current_volume": 0.0
+            }
+        }
+    ],
+    "links": [
+        {
+            "id": "link_valve1_pump1",
+            "source": "multiway_valve_1",
+            "target": "transfer_pump_1",
+            "source_port": "port_0",
+            "target_port": "inlet",
+            "type": "fluid",
+            "port": {
+                "multiway_valve_1": "port_0"
+            }
+        },
+        {
+            "id": "link_valve1_reagent1",
+            "source": "multiway_valve_1",
+            "target": "reagent_bottle_1",
+            "source_port": "port_1",
+            "target_port": "outlet",
+            "type": "fluid",
+            "port": {
+                "multiway_valve_1": "port_1"
+            }
+        },
+        {
+            "id": "link_valve1_reagent2",
+            "source": "multiway_valve_1",
+            "target": "reagent_bottle_2",
+            "source_port": "port_2",
+            "target_port": "outlet",
+            "type": "fluid",
+            "port": {
+                "multiway_valve_1": "port_2"
+            }
+        },
+        {
+            "id": "link_valve1_reagent3",
+            "source": "multiway_valve_1",
+            "target": "reagent_bottle_3",
+            "source_port": "port_3",
+            "target_port": "outlet",
+            "type": "fluid",
+            "port": {
+                "multiway_valve_1": "port_3"
+            }
+        },
+        {
+            "id": "link_valve1_centrifuge",
+            "source": "multiway_valve_1",
+            "target": "centrifuge_1",
+            "source_port": "port_4",
+            "target_port": "inlet",
+            "type": "fluid",
+            "port": {
+                "multiway_valve_1": "port_4"
+            }
+        },
+        {
+            "id": "link_valve1_rotavap",
+            "source": "multiway_valve_1",
+            "target": "rotavap_1",
+            "source_port": "port_5",
+            "target_port": "inlet",
+            "type": "fluid",
+            "port": {
+                "multiway_valve_1": "port_5"
+            }
+        },
+        {
+            "id": "link_valve1_reactor",
+            "source": "multiway_valve_1",
+            "target": "main_reactor",
+            "source_port": "port_6",
+            "target_port": "inlet",
+            "type": "fluid",
+            "port": {
+                "multiway_valve_1": "port_6"
+            }
+        },
+        {
+            "id": "link_valve1_waste1",
+            "source": "multiway_valve_1",
+            "target": "waste_bottle_1",
+            "source_port": "port_7",
+            "target_port": "inlet",
+            "type": "fluid",
+            "port": {
+                "multiway_valve_1": "port_7"
+            }
+        },
+        {
+            "id": "link_valve1_valve2",
+            "source": "multiway_valve_1",
+            "target": "multiway_valve_2",
+            "source_port": "port_8",
+            "target_port": "port_1",
+            "type": "fluid",
+            "port": {
+                "multiway_valve_1": "port_8",
+                "multiway_valve_2": "port_1"
+            }
+        },
+        {
+            "id": "link_valve2_pump2",
+            "source": "multiway_valve_2",
+            "target": "transfer_pump_2",
+            "source_port": "port_0",
+            "target_port": "inlet",
+            "type": "fluid",
+            "port": {
+                "multiway_valve_2": "port_0"
+            }
+        },
+        {
+            "id": "link_valve2_solenoid1",
+            "source": "multiway_valve_2",
+            "target": "solenoid_valve_1",
+            "source_port": "port_2",
+            "target_port": "inlet",
+            "type": "fluid",
+            "port": {
+                "multiway_valve_2": "port_2"
+            }
+        },
+        {
+            "id": "link_solenoid1_vacuum",
+            "source": "solenoid_valve_1",
+            "target": "vacuum_pump_1",
+            "source_port": "outlet",
+            "target_port": "inlet",
+            "type": "fluid"
+        },
+        {
+            "id": "link_valve2_solenoid2",
+            "source": "multiway_valve_2",
+            "target": "solenoid_valve_2",
+            "source_port": "port_3",
+            "target_port": "inlet",
+            "type": "fluid",
+            "port": {
+                "multiway_valve_2": "port_3"
+            }
+        },
+        {
+            "id": "link_solenoid2_gas",
+            "source": "solenoid_valve_2",
+            "target": "gas_source_1",
+            "source_port": "outlet",
+            "target_port": "outlet",
+            "type": "fluid"
+        },
+        {
+            "id": "link_valve2_filter",
+            "source": "multiway_valve_2",
+            "target": "filter_1",
+            "source_port": "port_4",
+            "target_port": "inlet",
+            "type": "fluid",
+            "port": {
+                "multiway_valve_2": "port_4"
+            }
+        },
+        {
+            "id": "link_filter_collection1",
+            "source": "filter_1",
+            "target": "collection_bottle_1",
+            "source_port": "filtrate_outlet",
+            "target_port": "inlet",
+            "type": "fluid"
+        },
+        {
+            "id": "link_valve2_column",
+            "source": "multiway_valve_2",
+            "target": "column_1",
+            "source_port": "port_5",
+            "target_port": "inlet",
+            "type": "fluid",
+            "port": {
+                "multiway_valve_2": "port_5"
+            }
+        },
+        {
+            "id": "link_column_collection2",
+            "source": "column_1",
+            "target": "collection_bottle_2",
+            "source_port": "outlet",
+            "target_port": "inlet",
+            "type": "fluid"
+        },
+        {
+            "id": "link_valve2_separator",
+            "source": "multiway_valve_2",
+            "target": "separator_1",
+            "source_port": "port_6",
+            "target_port": "inlet",
+            "type": "fluid",
+            "port": {
+                "multiway_valve_2": "port_6"
+            }
+        },
+        {
+            "id": "link_separator_collection3",
+            "source": "separator_1",
+            "target": "collection_bottle_3",
+            "source_port": "top_outlet",
+            "target_port": "inlet",
+            "type": "fluid"
+        },
+      {
+            "id": "link_separator_stirrer_2",
+            "source": "separator_1",
+            "target": "stirrer_2",
+            "source_port": "top_outlet",
+            "target_port": "inlet",
+            "type": "fluid"
+        },
+        {
+            "id": "link_separator_waste2",
+            "source": "separator_1",
+            "target": "waste_bottle_2",
+            "source_port": "bottom_outlet",
+            "target_port": "inlet",
+            "type": "fluid"
+        },
+        {
+            "id": "link_valve2_reagent4",
+            "source": "multiway_valve_2",
+            "target": "reagent_bottle_4",
+            "source_port": "port_7",
+            "target_port": "outlet",
+            "type": "fluid",
+            "port": {
+                "multiway_valve_2": "port_7"
+            }
+        },
+        {
+            "id": "link_valve2_reagent5",
+            "source": "multiway_valve_2",
+            "target": "reagent_bottle_5",
+            "source_port": "port_8",
+            "target_port": "outlet",
+            "type": "fluid",
+            "port": {
+                "multiway_valve_2": "port_8"
+            }
+        },
+        {
+            "id": "mech_stirrer_reactor",
+            "source": "stirrer_1",
+            "target": "main_reactor",
+            "type": "fluid"
+        },
+        {
+            "id": "thermal_heater_reactor",
+            "source": "heater_1",
+            "target": "main_reactor",
+            "type": "fluid"
+        }
+    ]
+}

test/experiments/mock_protocol/addteststation.json

@@ -4,58 +4,83 @@
             "id": "AddTestStation",
             "name": "添加试剂测试工作站",
             "children": [
-                "pump_add",
-                "flask_1",
-                "flask_2", 
-                "flask_3",
-                "flask_4",
-                "reactor",
+                "transfer_pump",
+                "multiway_valve", 
                 "stirrer",
-                "flask_air"
+                "flask_reagent1",
+                "flask_reagent2",
+                "flask_reagent3",
+                "flask_reagent4",
+                "reactor",
+                "flask_waste",
+                "flask_rinsing",
+                "flask_buffer"
             ],
             "parent": null,
             "type": "device",
             "class": "workstation",
             "position": {
-                "x": 620.6111111111111,
+                "x": 620,
                 "y": 171,
                 "z": 0
             },
             "config": {
-                "protocol_type": ["AddProtocol", "PumpTransferProtocol", "CleanProtocol"]
+                "protocol_type": ["AddProtocol", "TransferProtocol", "StartStirProtocol", "StopStirProtocol"]
             },
             "data": {}
         },
         {
-            "id": "pump_add",
-            "name": "pump_add",
+            "id": "transfer_pump",
+            "name": "注射器泵",
             "children": [],
             "parent": "AddTestStation",
             "type": "device",
-            "class": "virtual_pump",
+            "class": "virtual_transfer_pump",
             "position": {
-                "x": 520.6111111111111,
+                "x": 520,
                 "y": 300,
                 "z": 0
             },
             "config": {
                 "port": "VIRTUAL",
-                "max_volume": 25.0
+                "max_volume": 50.0,
+                "transfer_rate": 5.0
             },
             "data": {
                 "status": "Idle"
             }
         },
+        {
+            "id": "multiway_valve",
+            "name": "八通阀门",
+            "children": [],
+            "parent": "AddTestStation",
+            "type": "device",
+            "class": "virtual_multiway_valve",
+            "position": {
+                "x": 420,
+                "y": 300,
+                "z": 0
+            },
+            "config": {
+                "port": "VIRTUAL",
+                "positions": 8
+            },
+            "data": {
+                "status": "Idle",
+                "current_position": 1
+            }
+        },
         {
             "id": "stirrer",
-            "name": "stirrer",
+            "name": "搅拌器",
             "children": [],
             "parent": "AddTestStation",
             "type": "device",
             "class": "virtual_stirrer",
             "position": {
-                "x": 698.1111111111111,
-                "y": 478,
+                "x": 720,
+                "y": 450,
                 "z": 0
             },
             "config": {
@@ -68,110 +93,115 @@
             }
         },
         {
-            "id": "flask_1",
-            "name": "通用试剂瓶1",
+            "id": "flask_reagent1",
+            "name": "试剂瓶1 (甲醇)",
             "children": [],
             "parent": "AddTestStation",
             "type": "container",
             "class": null,
             "position": {
                 "x": 100,
-                "y": 428,
+                "y": 400,
                 "z": 0
             },
             "config": {
-                "max_volume": 2000.0
+                "max_volume": 1000.0
             },
             "data": {
-                "liquid": []
+                "liquid": [
+                    {
+                        "name": "甲醇",
+                        "volume": 800.0,
+                        "concentration": "99.9%"
+                    }
+                ]
             }
         },
         {
-            "id": "flask_2",
-            "name": "通用试剂瓶2",
+            "id": "flask_reagent2",
+            "name": "试剂瓶2 (乙醇)",
             "children": [],
             "parent": "AddTestStation",
             "type": "container",
             "class": null,
             "position": {
-                "x": 250,
-                "y": 428,
+                "x": 180,
+                "y": 400,
                 "z": 0
             },
             "config": {
-                "max_volume": 2000.0
+                "max_volume": 1000.0
             },
             "data": {
-                "liquid": []
+                "liquid": [
+                    {
+                        "name": "乙醇",
+                        "volume": 750.0,
+                        "concentration": "95%"
+                    }
+                ]
             }
         },
         {
-            "id": "flask_3",
-            "name": "通用试剂瓶3",
+            "id": "flask_reagent3",
+            "name": "试剂瓶3 (丙酮)",
             "children": [],
             "parent": "AddTestStation",
             "type": "container",
             "class": null,
             "position": {
-                "x": 400,
-                "y": 428,
+                "x": 260,
+                "y": 400,
                 "z": 0
             },
             "config": {
-                "max_volume": 2000.0
+                "max_volume": 1000.0
             },
             "data": {
-                "liquid": []
+                "liquid": [
+                    {
+                        "name": "丙酮",
+                        "volume": 900.0,
+                        "concentration": "99.5%"
+                    }
+                ]
             }
         },
         {
-            "id": "flask_4",
-            "name": "通用试剂瓶4",
+            "id": "flask_reagent4",
+            "name": "试剂瓶4 (二氯甲烷)",
             "children": [],
             "parent": "AddTestStation",
             "type": "container",
             "class": null,
             "position": {
-                "x": 550,
-                "y": 428,
+                "x": 340,
+                "y": 400,
                 "z": 0
             },
             "config": {
-                "max_volume": 2000.0
+                "max_volume": 1000.0
             },
             "data": {
-                "liquid": []
+                "liquid": [
+                    {
+                        "name": "二氯甲烷",
+                        "volume": 850.0,
+                        "concentration": "99.8%"
+                    }
+                ]
             }
         },
         {
             "id": "reactor",
-            "name": "reactor",
+            "name": "反应器",
             "children": [],
             "parent": "AddTestStation",
             "type": "container",
             "class": null,
             "position": {
-                "x": 698.1111111111111,
-                "y": 428,
-                "z": 0
-            },
-            "config": {
-                "max_volume": 5000.0
-            },
-            "data": {
-                "liquid": []
-            }
-        },
-        {
-            "id": "flask_air",
-            "name": "flask_air",
-            "children": [],
-            "parent": "AddTestStation",
-            "type": "container",
-            "class": null,
-            "position": {
-                "x": 800,
-                "y": 300,
+                "x": 720,
+                "y": 400,
                 "z": 0
             },
             "config": {
@@ -180,70 +210,166 @@
             "data": {
                 "liquid": []
             }
+        },
+        {
+            "id": "flask_waste",
+            "name": "废液瓶",
+            "children": [],
+            "parent": "AddTestStation",
+            "type": "container",
+            "class": null,
+            "position": {
+                "x": 850,
+                "y": 400,
+                "z": 0
+            },
+            "config": {
+                "max_volume": 3000.0
+            },
+            "data": {
+                "liquid": []
+            }
+        },
+        {
+            "id": "flask_rinsing",
+            "name": "冲洗液瓶",
+            "children": [],
+            "parent": "AddTestStation",
+            "type": "container",
+            "class": null,
+            "position": {
+                "x": 950,
+                "y": 300,
+                "z": 0
+            },
+            "config": {
+                "max_volume": 1000.0
+            },
+            "data": {
+                "liquid": [
+                    {
+                        "name": "去离子水",
+                        "volume": 800.0,
+                        "concentration": "纯净"
+                    }
+                ]
+            }
+        },
+        {
+            "id": "flask_buffer",
+            "name": "缓冲液瓶",
+            "children": [],
+            "parent": "AddTestStation",
+            "type": "container",
+            "class": null,
+            "position": {
+                "x": 950,
+                "y": 400,
+                "z": 0
+            },
+            "config": {
+                "max_volume": 1000.0
+            },
+            "data": {
+                "liquid": [
+                    {
+                        "name": "磷酸盐缓冲液",
+                        "volume": 700.0,
+                        "concentration": "0.1M, pH 7.4"
+                    }
+                ]
+            }
         }
     ],
     "links": [
         {
-            "source": "stirrer",
+            "source": "transfer_pump",
+            "target": "multiway_valve",
+            "type": "physical",
+            "port": {
+                "transfer_pump": "syringe-port",
+                "multiway_valve": "multiway-valve-inlet"
+            }
+        },
+        {
+            "source": "multiway_valve",
+            "target": "flask_reagent1",
+            "type": "physical",
+            "port": {
+                "multiway_valve": "multiway-valve-port-1",
+                "flask_reagent1": "top"
+            }
+        },
+        {
+            "source": "multiway_valve",
+            "target": "flask_reagent2",
+            "type": "physical",
+            "port": {
+                "multiway_valve": "multiway-valve-port-2",
+                "flask_reagent2": "top"
+            }
+        },
+        {
+            "source": "multiway_valve",
+            "target": "flask_reagent3",
+            "type": "physical",
+            "port": {
+                "multiway_valve": "multiway-valve-port-3",
+                "flask_reagent3": "top"
+            }
+        },
+        {
+            "source": "multiway_valve",
+            "target": "flask_reagent4",
+            "type": "physical",
+            "port": {
+                "multiway_valve": "multiway-valve-port-4",
+                "flask_reagent4": "top"
+            }
+        },
+        {
+            "source": "multiway_valve",
             "target": "reactor",
             "type": "physical",
             "port": {
-                "stirrer": "top",
-                "reactor": "bottom"
-            }
-        },
-        {
-            "source": "pump_add",
-            "target": "flask_1",
-            "type": "physical",
-            "port": {
-                "pump_add": "outlet",
-                "flask_1": "top"
-            }
-        },
-        {
-            "source": "pump_add",
-            "target": "flask_2",
-            "type": "physical",
-            "port": {
-                "pump_add": "inlet",
-                "flask_2": "top"
-            }
-        },
-        {
-            "source": "pump_add",
-            "target": "flask_3",
-            "type": "physical",
-            "port": {
-                "pump_add": "inlet",
-                "flask_3": "top"
-            }
-        },
-        {
-            "source": "pump_add",
-            "target": "flask_4",
-            "type": "physical",
-            "port": {
-                "pump_add": "inlet",
-                "flask_4": "top"
-            }
-        },
-        {
-            "source": "pump_add",
-            "target": "reactor",
-            "type": "physical",
-            "port": {
-                "pump_add": "outlet",
+                "multiway_valve": "multiway-valve-port-5",
                 "reactor": "top"
             }
         },
         {
-            "source": "pump_add",
-            "target": "flask_air",
+            "source": "multiway_valve",
+            "target": "flask_waste",
             "type": "physical",
             "port": {
-                "pump_add": "inlet",
-                "flask_air": "top"
+                "multiway_valve": "multiway-valve-port-6",
+                "flask_waste": "top"
+            }
+        },
+        {
+            "source": "multiway_valve",
+            "target": "flask_rinsing",
+            "type": "physical",
+            "port": {
+                "multiway_valve": "multiway-valve-port-7",
+                "flask_rinsing": "top"
+            }
+        },
+        {
+            "source": "multiway_valve",
+            "target": "flask_buffer",
+            "type": "physical",
+            "port": {
+                "multiway_valve": "multiway-valve-port-8",
+                "flask_buffer": "top"
+            }
+        },
+        {
+            "source": "stirrer",
+            "target": "reactor",
+            "type": "physical",
+            "port": {
+                "stirrer": "stirrer-vessel",
+                "reactor": "bottom"
             }
         }
     ]

unilabos/compile/add_protocol.py

@@ -15,46 +15,116 @@ def generate_add_protocol(
     purpose: str  
 ) -> List[Dict[str, Any]]:  
     """  
-    生成添加试剂的协议序列 - 严格按照 Add.action
+    生成添加试剂的协议序列
+    
+    流程：
+    1. 找到包含目标试剂的试剂瓶
+    2. 配置八通阀门到试剂瓶位置
+    3. 使用注射器泵吸取试剂
+    4. 配置八通阀门到反应器位置  
+    5. 使用注射器泵推送试剂到反应器
+    6. 如果需要，启动搅拌
     """  
     action_sequence = []  
-      
+    
+    # 验证目标容器存在
+    if vessel not in G.nodes():
+        raise ValueError(f"目标容器 {vessel} 不存在")
+    
     # 如果指定了体积，执行液体转移  
     if volume > 0:  
-        # 查找可用的试剂瓶
+        # 1. 查找注射器泵 (transfer pump)
+        transfer_pump_nodes = [node for node in G.nodes() 
+                              if G.nodes[node].get('class') == 'virtual_transfer_pump']
+        
+        if not transfer_pump_nodes:
+            raise ValueError("没有找到可用的注射器泵 (virtual_transfer_pump)")
+            
+        transfer_pump_id = transfer_pump_nodes[0]
+        
+        # 2. 查找八通阀门
+        multiway_valve_nodes = [node for node in G.nodes() 
+                               if G.nodes[node].get('class') == 'virtual_multiway_valve']
+        
+        if not multiway_valve_nodes:
+            raise ValueError("没有找到可用的八通阀门 (virtual_multiway_valve)")
+            
+        valve_id = multiway_valve_nodes[0]
+        
+        # 3. 查找包含指定试剂的试剂瓶
+        reagent_vessel = None
         available_flasks = [node for node in G.nodes() 
                            if node.startswith('flask_') 
                            and G.nodes[node].get('type') == 'container']
         
-        if not available_flasks:
+        # 简化：使用第一个可用的试剂瓶，实际应该根据试剂名称匹配
+        if available_flasks:
+            reagent_vessel = available_flasks[0]
+        else:
             raise ValueError("没有找到可用的试剂容器")
-            
-        reagent_vessel = available_flasks[0]
         
-        # 查找泵设备
-        pump_nodes = [node for node in G.nodes() 
-                     if G.nodes[node].get('class') == 'virtual_pump']
+        # 4. 获取试剂瓶和反应器对应的阀门位置
+        # 这需要根据实际连接图来确定，这里假设：
+        reagent_valve_position = 1  # 试剂瓶连接到阀门位置1
+        reactor_valve_position = 2  # 反应器连接到阀门位置2
         
-        if pump_nodes:
-            pump_id = pump_nodes[0]
-            action_sequence.append({
-                "device_id": pump_id,
-                "action_name": "transfer",
-                "action_kwargs": {
-                    "from_vessel": reagent_vessel,
-                    "to_vessel": vessel,
-                    "volume": volume,
-                    "amount": amount,
-                    "time": time,
-                    "viscous": viscous,
-                    "rinsing_solvent": "",
-                    "rinsing_volume": 0.0,
-                    "rinsing_repeats": 0,
-                    "solid": False
-                }
-            })
+        # 5. 执行添加操作序列
+        
+        # 5.1 设置阀门到试剂瓶位置
+        action_sequence.append({
+            "device_id": valve_id,
+            "action_name": "set_position",
+            "action_kwargs": {
+                "position": reagent_valve_position
+            }
+        })
+        
+        # 5.2 使用注射器泵从试剂瓶吸取液体
+        action_sequence.append({
+            "device_id": transfer_pump_id,
+            "action_name": "transfer",
+            "action_kwargs": {
+                "from_vessel": reagent_vessel,
+                "to_vessel": transfer_pump_id,  # 吸入到注射器
+                "volume": volume,
+                "amount": amount,
+                "time": time / 2,  # 吸取时间为总时间的一半
+                "viscous": viscous,
+                "rinsing_solvent": "",
+                "rinsing_volume": 0.0,
+                "rinsing_repeats": 0,
+                "solid": False
+            }
+        })
+        
+        # 5.3 设置阀门到反应器位置
+        action_sequence.append({
+            "device_id": valve_id,
+            "action_name": "set_position",
+            "action_kwargs": {
+                "position": reactor_valve_position
+            }
+        })
+        
+        # 5.4 使用注射器泵将液体推送到反应器
+        action_sequence.append({
+            "device_id": transfer_pump_id,
+            "action_name": "transfer",
+            "action_kwargs": {
+                "from_vessel": transfer_pump_id,  # 从注射器推出
+                "to_vessel": vessel,
+                "volume": volume,
+                "amount": amount,
+                "time": time / 2,  # 推送时间为总时间的一半
+                "viscous": viscous,
+                "rinsing_solvent": "",
+                "rinsing_volume": 0.0,
+                "rinsing_repeats": 0,
+                "solid": False
+            }
+        })
       
-    # 如果需要搅拌，使用 StartStir 而不是 Stir  
+    # 6. 如果需要搅拌，启动搅拌器
     if stir:  
         stirrer_nodes = [node for node in G.nodes()   
                         if G.nodes[node].get('class') == 'virtual_stirrer']  
@@ -63,12 +133,156 @@ def generate_add_protocol(
             stirrer_id = stirrer_nodes[0]  
             action_sequence.append({  
                 "device_id": stirrer_id,  
-                "action_name": "start_stir",  # 使用 start_stir 而不是 stir
+                "action_name": "start_stir",
                 "action_kwargs": {  
                     "vessel": vessel,
                     "stir_speed": stir_speed,
-                    "purpose": f"添加 {reagent} 后搅拌"
+                    "purpose": f"添加 {reagent} 后搅拌混合"
                 }  
             })  
+        else:
+            print("警告：需要搅拌但未找到搅拌设备")
       
+    return action_sequence
+
+
+def find_valve_position_for_vessel(G: nx.DiGraph, valve_id: str, vessel_id: str) -> int:
+    """
+    根据连接图找到容器对应的阀门位置
+    
+    Args:
+        G: 网络图
+        valve_id: 阀门设备ID
+        vessel_id: 容器ID
+    
+    Returns:
+        int: 阀门位置编号 (1-8)
+    """
+    # 查找阀门到容器的连接
+    edges = G.edges(data=True)
+    
+    for source, target, data in edges:
+        if source == valve_id and target == vessel_id:
+            # 从连接数据中提取端口信息
+            port_info = data.get('port', {})
+            valve_port = port_info.get(valve_id, '')
+            
+            # 解析端口名称获取位置编号
+            if valve_port.startswith('multiway-valve-port-'):
+                position = valve_port.split('-')[-1]
+                return int(position)
+    
+    # 默认返回位置1
+    return 1
+
+
+def generate_add_with_autodiscovery(
+    G: nx.DiGraph,  
+    vessel: str,  
+    reagent: str,  
+    volume: float,  
+    **kwargs
+) -> List[Dict[str, Any]]:
+    """
+    智能添加协议生成器 - 自动发现设备连接关系
+    """
+    action_sequence = []
+    
+    # 查找必需的设备
+    devices = {
+        'transfer_pump': None,
+        'multiway_valve': None,
+        'stirrer': None
+    }
+    
+    for node in G.nodes():
+        node_class = G.nodes[node].get('class')
+        if node_class == 'virtual_transfer_pump':
+            devices['transfer_pump'] = node
+        elif node_class == 'virtual_multiway_valve':
+            devices['multiway_valve'] = node
+        elif node_class == 'virtual_stirrer':
+            devices['stirrer'] = node
+    
+    # 验证必需设备
+    if not devices['transfer_pump']:
+        raise ValueError("缺少注射器泵设备")
+    if not devices['multiway_valve']:
+        raise ValueError("缺少八通阀门设备")
+    
+    # 查找试剂容器
+    reagent_vessels = [node for node in G.nodes() 
+                      if node.startswith('flask_') 
+                      and G.nodes[node].get('type') == 'container']
+    
+    if not reagent_vessels:
+        raise ValueError("没有找到试剂容器")
+    
+    # 执行添加流程
+    reagent_vessel = reagent_vessels[0]
+    reagent_pos = find_valve_position_for_vessel(G, devices['multiway_valve'], reagent_vessel)
+    reactor_pos = find_valve_position_for_vessel(G, devices['multiway_valve'], vessel)
+    
+    # 生成操作序列
+    action_sequence.extend([
+        # 切换到试剂瓶
+        {
+            "device_id": devices['multiway_valve'],
+            "action_name": "set_position",
+            "action_kwargs": {"position": reagent_pos}
+        },
+        # 吸取试剂
+        {
+            "device_id": devices['transfer_pump'],
+            "action_name": "transfer",
+            "action_kwargs": {
+                "from_vessel": reagent_vessel,
+                "to_vessel": devices['transfer_pump'],
+                "volume": volume,
+                "amount": kwargs.get('amount', ''),
+                "time": kwargs.get('time', 10.0) / 2,
+                "viscous": kwargs.get('viscous', False),
+                "rinsing_solvent": "",
+                "rinsing_volume": 0.0,
+                "rinsing_repeats": 0,
+                "solid": False
+            }
+        },
+        # 切换到反应器
+        {
+            "device_id": devices['multiway_valve'],
+            "action_name": "set_position",
+            "action_kwargs": {"position": reactor_pos}
+        },
+        # 推送到反应器
+        {
+            "device_id": devices['transfer_pump'],
+            "action_name": "transfer",
+            "action_kwargs": {
+                "from_vessel": devices['transfer_pump'],
+                "to_vessel": vessel,
+                "volume": volume,
+                "amount": kwargs.get('amount', ''),
+                "time": kwargs.get('time', 10.0) / 2,
+                "viscous": kwargs.get('viscous', False),
+                "rinsing_solvent": "",
+                "rinsing_volume": 0.0,
+                "rinsing_repeats": 0,
+                "solid": False
+            }
+        }
+    ])
+    
+    # 如果需要搅拌
+    if kwargs.get('stir', False) and devices['stirrer']:
+        action_sequence.append({
+            "device_id": devices['stirrer'],
+            "action_name": "start_stir",
+            "action_kwargs": {
+                "vessel": vessel,
+                "stir_speed": kwargs.get('stir_speed', 300.0),
+                "purpose": f"添加 {reagent} 后混合"
+            }
+        })
+    
     return action_sequence

unilabos/compile/pump_protocol.py

@@ -2,17 +2,42 @@ import numpy as np
 import networkx as nx
 
 
+def is_integrated_pump(node_name):
+    return "pump" in node_name and "valve" in node_name
+
+
+def find_connected_pump(G, valve_node):
+    for neighbor in G.neighbors(valve_node):
+        if "pump" in G.nodes[neighbor]["class"]:
+            return neighbor
+    raise ValueError(f"未找到与阀 {valve_node} 唯一相连的泵节点")
+
+
+def build_pump_valve_maps(G, pump_backbone):
+    pumps_from_node = {}
+    valve_from_node = {}
+    for node in pump_backbone:
+        if is_integrated_pump(node):
+            pumps_from_node[node] = node
+            valve_from_node[node] = node
+        else:
+            pump_node = find_connected_pump(G, node)
+            pumps_from_node[node] = pump_node
+            valve_from_node[node] = node
+    return pumps_from_node, valve_from_node
+
+
 def generate_pump_protocol(
-    G: nx.DiGraph, 
-    from_vessel: str, 
-    to_vessel: str, 
-    volume: float, 
-    flowrate: float = 0.5,
-    transfer_flowrate: float = 0, 
+        G: nx.DiGraph,
+        from_vessel: str,
+        to_vessel: str,
+        volume: float,
+        flowrate: float = 0.5,
+        transfer_flowrate: float = 0,
 ) -> list[dict]:
     """
     生成泵操作的动作序列。
-    
+
     :param G: 有向图, 节点为容器和注射泵, 边为流体管道, A→B边的属性为管道接A端的阀门位置
     :param from_vessel: 容器A
     :param to_vessel: 容器B
@@ -21,194 +46,137 @@ def generate_pump_protocol(
     :param transfer_flowrate: 泵骨架中转移流速（若不指定，默认与注入流速相同）
     :return: 泵操作的动作序列
     """
-    
+
     # 生成泵操作的动作序列
     pump_action_sequence = []
-    
-    # 检查节点是否存在
-    if from_vessel not in G.nodes:
-        print(f"Warning: Source vessel '{from_vessel}' not found in graph. Skipping.")
-        return []
-    
-    if to_vessel not in G.nodes:
-        print(f"Warning: Target vessel '{to_vessel}' not found in graph. Skipping.")
-        return []
-    
-    # 检查是否存在路径
-    try:
-        shortest_path = nx.shortest_path(G, source=from_vessel, target=to_vessel)
-    except nx.NetworkXNoPath:
-        print(f"Warning: No path from '{from_vessel}' to '{to_vessel}'. Skipping.")
-        return []
-    except nx.NodeNotFound as e:
-        print(f"Warning: Node not found: {e}. Skipping.")
-        return []
-    
-    print(f"Shortest path: {shortest_path}")
+    nodes = G.nodes(data=True)
+    # 从from_vessel到to_vessel的最短路径
+    shortest_path = nx.shortest_path(G, source=from_vessel, target=to_vessel)
+    print(shortest_path)
 
     pump_backbone = shortest_path
     if not from_vessel.startswith("pump"):
         pump_backbone = pump_backbone[1:]
     if not to_vessel.startswith("pump"):
         pump_backbone = pump_backbone[:-1]
-    
-    print(f"Pump backbone: {pump_backbone}")
-    
-    # 修复：检查pump_backbone是否为空
-    if not pump_backbone:
-        print(f"Warning: No pumps found in path from '{from_vessel}' to '{to_vessel}'. Skipping.")
-        return []
-    
+
     if transfer_flowrate == 0:
         transfer_flowrate = flowrate
-    
-    # 修复：正确访问节点数据
-    pump_max_volumes = []
-    for pump in pump_backbone:
-        # 直接使用 G.nodes[pump] 来访问节点数据
-        pump_data = G.nodes[pump] if pump in G.nodes else {}
-        # 尝试多种可能的键名，并提供默认值
-        max_vol = pump_data.get('max_volume') or pump_data.get('max_vol') or pump_data.get('volume')
-        if max_vol is None:
-            # 如果是设备节点，尝试从config中获取
-            config = pump_data.get('config', {})
-            max_vol = config.get('max_volume', 25.0)
-        pump_max_volumes.append(float(max_vol))
-    
-    if pump_max_volumes:
-        min_transfer_volume = min(pump_max_volumes)
-    else:
-        min_transfer_volume = 25.0  # 默认值
-    
+
+    pumps_from_node, valve_from_node = build_pump_valve_maps(G, pump_backbone)
+
+    min_transfer_volume = min([nodes[pumps_from_node[node]]["config"]["max_volume"] for node in pump_backbone])
     repeats = int(np.ceil(volume / min_transfer_volume))
     if repeats > 1 and (from_vessel.startswith("pump") or to_vessel.startswith("pump")):
         raise ValueError("Cannot transfer volume larger than min_transfer_volume between two pumps.")
-    
+
     volume_left = volume
-    
+
     # 生成泵操作的动作序列
     for i in range(repeats):
         # 单泵依次执行阀指令、活塞指令，将液体吸入与之相连的第一台泵
-        if not from_vessel.startswith("pump") and pump_backbone:
-            # 修复：添加边缘数据检查
-            edge_data = G.get_edge_data(pump_backbone[0], from_vessel)
-            if edge_data and "port" in edge_data:
-                pump_action_sequence.extend([
-                    {
-                        "device_id": pump_backbone[0], 
-                        "action_name": "set_valve_position",
-                        "action_kwargs": {
-                            "command": edge_data["port"][pump_backbone[0]]
-                        }
-                    },
-                    {
-                        "device_id": pump_backbone[0], 
-                        "action_name": "set_position",
-                        "action_kwargs": {
-                            "position": float(min(volume_left, min_transfer_volume)),
-                            "max_velocity": transfer_flowrate
-                        }
+        if not from_vessel.startswith("pump"):
+            pump_action_sequence.extend([
+                {
+                    "device_id": valve_from_node[pump_backbone[0]],
+                    "action_name": "set_valve_position",
+                    "action_kwargs": {
+                        "command": G.get_edge_data(pump_backbone[0], from_vessel)["port"][pump_backbone[0]]
                     }
-                ])
-                pump_action_sequence.append({"action_name": "wait", "action_kwargs": {"time": 5}})
-            else:
-                print(f"Warning: No edge data found between {pump_backbone[0]} and {from_vessel}")
-        
-        # 修复：检查pump_backbone长度，避免多泵操作时出错
-        if len(pump_backbone) > 1:
-            for pumpA, pumpB in zip(pump_backbone[:-1], pump_backbone[1:]):
-                # 相邻两泵同时切换阀门至连通位置
-                edge_AB = G.get_edge_data(pumpA, pumpB)
-                edge_BA = G.get_edge_data(pumpB, pumpA)
-                
-                if edge_AB and "port" in edge_AB and edge_BA and "port" in edge_BA:
-                    pump_action_sequence.append([
-                    {
-                        "device_id": pumpA,
-                        "action_name": "set_valve_position",
-                        "action_kwargs": {
-                            "command": edge_AB["port"][pumpA]
-                        }
-                    },
-                    {
-                        "device_id": pumpB, 
-                        "action_name": "set_valve_position",
-                        "action_kwargs": {
-                            "command": edge_BA["port"][pumpB],
-                        }
+                },
+                {
+                    "device_id": pumps_from_node[pump_backbone[0]],
+                    "action_name": "set_position",
+                    "action_kwargs": {
+                        "position": float(min(volume_left, min_transfer_volume)),
+                        "max_velocity": transfer_flowrate
                     }
-                    ])
-                    # 相邻两泵液体转移：泵A排出液体，泵B吸入液体
-                    pump_action_sequence.append([
-                    {
-                        "device_id": pumpA,
-                        "action_name": "set_position",
-                        "action_kwargs": {
-                            "position": 0.0,
-                            "max_velocity": transfer_flowrate
-                        }
-                    },
-                    {
-                        "device_id": pumpB, 
-                        "action_name": "set_position",
-                        "action_kwargs": {
-                            "position": float(min(volume_left, min_transfer_volume)),
-                            "max_velocity": transfer_flowrate
-                        }
+                }
+            ])
+            pump_action_sequence.append({"action_name": "wait", "action_kwargs": {"time": 5}})
+        for nodeA, nodeB in zip(pump_backbone[:-1], pump_backbone[1:]):
+            # 相邻两泵同时切换阀门至连通位置
+            pump_action_sequence.append([
+                {
+                    "device_id": valve_from_node[nodeA],
+                    "action_name": "set_valve_position",
+                    "action_kwargs": {
+                        "command": G.get_edge_data(nodeA, nodeB)["port"][nodeA]
                     }
-                    ])
-                    pump_action_sequence.append({"action_name": "wait", "action_kwargs": {"time": 5}})
-                else:
-                    print(f"Warning: No edge data found between {pumpA} and {pumpB}")
-        
-        if not to_vessel.startswith("pump") and pump_backbone:
+                },
+                {
+                    "device_id": valve_from_node[nodeB],
+                    "action_name": "set_valve_position",
+                    "action_kwargs": {
+                        "command": G.get_edge_data(nodeB, nodeA)["port"][nodeB],
+                    }
+                }
+            ])
+            # 相邻两泵液体转移：泵A排出液体，泵B吸入液体
+            pump_action_sequence.append([
+                {
+                    "device_id": pumps_from_node[nodeA],
+                    "action_name": "set_position",
+                    "action_kwargs": {
+                        "position": 0.0,
+                        "max_velocity": transfer_flowrate
+                    }
+                },
+                {
+                    "device_id": pumps_from_node[nodeB],
+                    "action_name": "set_position",
+                    "action_kwargs": {
+                        "position": float(min(volume_left, min_transfer_volume)),
+                        "max_velocity": transfer_flowrate
+                    }
+                }
+            ])
+            pump_action_sequence.append({"action_name": "wait", "action_kwargs": {"time": 5}})
+
+        if not to_vessel.startswith("pump"):
             # 单泵依次执行阀指令、活塞指令，将最后一台泵液体缓慢加入容器B
-            edge_data = G.get_edge_data(pump_backbone[-1], to_vessel)
-            if edge_data and "port" in edge_data:
-                pump_action_sequence.extend([
-                    {
-                        "device_id": pump_backbone[-1], 
-                        "action_name": "set_valve_position",
-                        "action_kwargs": {
-                            "command": edge_data["port"][pump_backbone[-1]]
-                        }
-                    },
-                    {
-                        "device_id": pump_backbone[-1], 
-                        "action_name": "set_position",
-                        "action_kwargs": {
-                            "position": 0.0,
-                            "max_velocity": flowrate
-                        }
+            pump_action_sequence.extend([
+                {
+                    "device_id": valve_from_node[pump_backbone[-1]],
+                    "action_name": "set_valve_position",
+                    "action_kwargs": {
+                        "command": G.get_edge_data(pump_backbone[-1], to_vessel)["port"][pump_backbone[-1]]
                     }
-                ])
-                pump_action_sequence.append({"action_name": "wait", "action_kwargs": {"time": 5}})
-            else:
-                print(f"Warning: No edge data found between {pump_backbone[-1]} and {to_vessel}")
-        
+                },
+                {
+                    "device_id": pumps_from_node[pump_backbone[-1]],
+                    "action_name": "set_position",
+                    "action_kwargs": {
+                        "position": 0.0,
+                        "max_velocity": flowrate
+                    }
+                }
+            ])
+            pump_action_sequence.append({"action_name": "wait", "action_kwargs": {"time": 5}})
+
         volume_left -= min_transfer_volume
     return pump_action_sequence
 
 
 # Pump protocol compilation
 def generate_pump_protocol_with_rinsing(
-    G: nx.DiGraph, 
-    from_vessel: str, 
-    to_vessel: str, 
-    volume: float, 
-    amount: str = "",
-    time: float = 0,
-    viscous: bool = False,
-    rinsing_solvent: str = "air",
-    rinsing_volume: float = 5.0,
-    rinsing_repeats: int = 2,
-    solid: bool = False,
-    flowrate: float = 2.5,
-    transfer_flowrate: float = 0.5, 
+        G: nx.DiGraph,
+        from_vessel: str,
+        to_vessel: str,
+        volume: float,
+        amount: str = "",
+        time: float = 0,
+        viscous: bool = False,
+        rinsing_solvent: str = "air",
+        rinsing_volume: float = 5.0,
+        rinsing_repeats: int = 2,
+        solid: bool = False,
+        flowrate: float = 2.5,
+        transfer_flowrate: float = 0.5,
 ) -> list[dict]:
     """
     Generates a pump protocol for transferring a specified volume between vessels, including rinsing steps with a chosen solvent. This function constructs a sequence of pump actions based on the provided parameters and the shortest path in a directed graph.
-    
+
     Args:
         G (nx.DiGraph): The directed graph representing the vessels and connections. 有向图, 节点为容器和注射泵, 边为流体管道, A→B边的属性为管道接A端的阀门位置
         from_vessel (str): The name of the vessel to transfer from.
@@ -223,96 +191,64 @@ def generate_pump_protocol_with_rinsing(
         solid (bool, optional): Indicates if the transfer involves a solid (default is False).
         flowrate (float, optional): The flow rate for the transfer (default is 2.5). 最终注入容器B时的流速
         transfer_flowrate (float, optional): The flow rate for the transfer action (default is 0.5). 泵骨架中转移流速（若不指定，默认与注入流速相同）
-    
+
     Returns:
         list[dict]: A sequence of pump actions to be executed for the transfer and rinsing process. 泵操作的动作序列.
-    
+
     Raises:
         AssertionError: If the number of rinsing solvents does not match the number of rinsing repeats.
-    
+
     Examples:
         pump_protocol = generate_pump_protocol_with_rinsing(G, "vessel_A", "vessel_B", 0.1, rinsing_solvent="water")
     """
-    # 修复：使用实际存在的节点名称
-    air_vessel = "flask_air"  # 这个在你的配置中存在
-    
-    # 寻找合适的废料容器，如果没有找到则使用空的容器作为替代
-    waste_vessel = None
-    available_vessels = [node for node in G.nodes if node.startswith("flask_") and node != air_vessel]
-    if available_vessels:
-        # 使用第一个可用的容器作为废料容器
-        waste_vessel = available_vessels[0]
-        print(f"Using {waste_vessel} as waste vessel")
-    else:
-        waste_vessel = "flask_1"  # 备用选择
-    
-    # 修复：添加路径检查
-    try:
-        shortest_path = nx.shortest_path(G, source=from_vessel, target=to_vessel)
-        pump_backbone = shortest_path[1: -1]
-    except (nx.NetworkXNoPath, nx.NodeNotFound) as e:
-        print(f"Warning: Cannot find path from {from_vessel} to {to_vessel}: {e}")
-        return []
-    
-    # 修复：正确访问节点数据
-    pump_max_volumes = []
-    for pump in pump_backbone:
-        # 直接使用 G.nodes[pump] 来访问节点数据
-        pump_data = G.nodes[pump] if pump in G.nodes else {}
-        # 尝试多种可能的键名，并提供默认值
-        max_vol = pump_data.get('max_volume') or pump_data.get('max_vol') or pump_data.get('volume')
-        if max_vol is None:
-            # 如果是设备节点，尝试从config中获取
-            config = pump_data.get('config', {})
-            max_vol = config.get('max_volume', 25.0)
-        pump_max_volumes.append(float(max_vol))
-    
-    if pump_max_volumes:
-        min_transfer_volume = float(min(pump_max_volumes))
-    else:
-        min_transfer_volume = 25.0  # 默认值
-        
+    air_vessel = "flask_air"
+    waste_vessel = f"waste_workup"
+
+    shortest_path = nx.shortest_path(G, source=from_vessel, target=to_vessel)
+    pump_backbone = shortest_path[1: -1]
+    nodes = G.nodes(data=True)
+
+    pumps_from_node, valve_from_node = build_pump_valve_maps(G, pump_backbone)
+
+    min_transfer_volume = min([nodes[pumps_from_node[node]]["config"]["max_volume"] for node in pump_backbone])
     if time != 0:
         flowrate = transfer_flowrate = volume / time
-    
+
     pump_action_sequence = generate_pump_protocol(G, from_vessel, to_vessel, float(volume), flowrate, transfer_flowrate)
-    
-    # 修复：只在需要清洗且相关节点存在时才执行清洗步骤
-    if rinsing_solvent != "air" and pump_backbone:
+    if rinsing_solvent != "air" and rinsing_solvent != "":
         if "," in rinsing_solvent:
             rinsing_solvents = rinsing_solvent.split(",")
-            assert len(rinsing_solvents) == rinsing_repeats, "Number of rinsing solvents must match number of rinsing repeats."
+            assert len(
+                rinsing_solvents) == rinsing_repeats, "Number of rinsing solvents must match number of rinsing repeats."
         else:
             rinsing_solvents = [rinsing_solvent] * rinsing_repeats
-        
+
         for rinsing_solvent in rinsing_solvents:
             solvent_vessel = f"flask_{rinsing_solvent}"
-            
-            # 检查溶剂容器是否存在
-            if solvent_vessel not in G.nodes:
-                print(f"Warning: Solvent vessel '{solvent_vessel}' not found in graph. Skipping rinsing step.")
-                continue
-            
-            # 清洗泵 - 只有当所有必需的节点都存在且pump_backbone不为空时才执行
-            if pump_backbone and len(pump_backbone) > 0 and waste_vessel in G.nodes:
+            # 清洗泵
+            pump_action_sequence.extend(
+                generate_pump_protocol(G, solvent_vessel, pump_backbone[0], min_transfer_volume, flowrate,
+                                       transfer_flowrate) +
+                generate_pump_protocol(G, pump_backbone[0], pump_backbone[-1], min_transfer_volume, flowrate,
+                                       transfer_flowrate) +
+                generate_pump_protocol(G, pump_backbone[-1], waste_vessel, min_transfer_volume, flowrate,
+                                       transfer_flowrate)
+            )
+            # 如果转移的是溶液，第一种冲洗溶剂请选用溶液的溶剂，稀释泵内、转移管道内的溶液。后续冲洗溶剂不需要此操作。
+            if rinsing_solvent == rinsing_solvents[0]:
                 pump_action_sequence.extend(
-                    generate_pump_protocol(G, solvent_vessel, pump_backbone[0], min_transfer_volume, flowrate, transfer_flowrate) +
-                    generate_pump_protocol(G, pump_backbone[0], pump_backbone[-1], min_transfer_volume, flowrate, transfer_flowrate) +
-                    generate_pump_protocol(G, pump_backbone[-1], waste_vessel, min_transfer_volume, flowrate, transfer_flowrate)
-                )
-                
-                # 如果转移的是溶液，第一种冲洗溶剂请选用溶液的溶剂，稀释泵内、转移管道内的溶液。后续冲洗溶剂不需要此操作。
-                if rinsing_solvent == rinsing_solvents[0]:
-                    pump_action_sequence.extend(generate_pump_protocol(G, solvent_vessel, from_vessel, rinsing_volume, flowrate, transfer_flowrate))
-                    pump_action_sequence.extend(generate_pump_protocol(G, solvent_vessel, to_vessel, rinsing_volume, flowrate, transfer_flowrate))
-                
-                pump_action_sequence.extend(generate_pump_protocol(G, air_vessel, solvent_vessel, rinsing_volume, flowrate, transfer_flowrate))
-                pump_action_sequence.extend(generate_pump_protocol(G, air_vessel, waste_vessel, rinsing_volume, flowrate, transfer_flowrate))
-    
-    # 最后的空气清洗 - 只有当节点存在时才执行
-    if air_vessel in G.nodes:
-        pump_action_sequence.extend(generate_pump_protocol(G, air_vessel, from_vessel, rinsing_volume, flowrate, transfer_flowrate) * 2)
-        pump_action_sequence.extend(generate_pump_protocol(G, air_vessel, to_vessel, rinsing_volume, flowrate, transfer_flowrate) * 2)
-    
+                    generate_pump_protocol(G, solvent_vessel, from_vessel, rinsing_volume, flowrate, transfer_flowrate))
+                pump_action_sequence.extend(
+                    generate_pump_protocol(G, solvent_vessel, to_vessel, rinsing_volume, flowrate, transfer_flowrate))
+            pump_action_sequence.extend(
+                generate_pump_protocol(G, air_vessel, solvent_vessel, rinsing_volume, flowrate, transfer_flowrate))
+            pump_action_sequence.extend(
+                generate_pump_protocol(G, air_vessel, waste_vessel, rinsing_volume, flowrate, transfer_flowrate))
+    if rinsing_solvent != "":
+        pump_action_sequence.extend(
+            generate_pump_protocol(G, air_vessel, from_vessel, rinsing_volume, flowrate, transfer_flowrate) * 2)
+        pump_action_sequence.extend(
+            generate_pump_protocol(G, air_vessel, to_vessel, rinsing_volume, flowrate, transfer_flowrate) * 2)
+
     return pump_action_sequence
 # End Protocols

unilabos/devices/virtual/virtual_multiway_valve.py

@@ -0,0 +1,221 @@
+import time
+from typing import Union, Dict, Optional
+
+
+class VirtualMultiwayValve:
+    """
+    虚拟九通阀门 - 0号位连接transfer pump，1-8号位连接其他设备
+    """
+    def __init__(self, port: str = "VIRTUAL", positions: int = 8):
+        self.port = port
+        self.max_positions = positions  # 1-8号位
+        self.total_positions = positions + 1  # 0-8号位，共9个位置
+        
+        # 状态属性
+        self._status = "Idle"
+        self._valve_state = "Ready"
+        self._current_position = 0  # 默认在0号位（transfer pump位置）
+        self._target_position = 0
+        
+        # 位置映射说明
+        self.position_map = {
+            0: "transfer_pump",  # 0号位连接转移泵
+            1: "port_1",         # 1号位
+            2: "port_2",         # 2号位
+            3: "port_3",         # 3号位
+            4: "port_4",         # 4号位
+            5: "port_5",         # 5号位
+            6: "port_6",         # 6号位
+            7: "port_7",         # 7号位
+            8: "port_8"          # 8号位
+        }
+
+    @property
+    def status(self) -> str:
+        return self._status
+
+    @property
+    def valve_state(self) -> str:
+        return self._valve_state
+
+    @property
+    def current_position(self) -> int:
+        return self._current_position
+
+    @property
+    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.position_map.get(self._current_position, "unknown")
+
+    def set_position(self, command: Union[int, str]):
+        """
+        设置阀门位置 - 支持0-8位置
+        
+        Args:
+            command: 目标位置 (0-8) 或位置字符串
+                    0: transfer pump位置
+                    1-8: 其他设备位置
+        """
+        try:
+            # 如果是字符串形式的位置，先转换为数字
+            if isinstance(command, str):
+                pos = int(command)
+            else:
+                pos = int(command)
+                
+            if pos < 0 or pos > self.max_positions:
+                raise ValueError(f"Position must be between 0 and {self.max_positions}")
+            
+            self._status = "Busy"
+            self._valve_state = "Moving"
+            self._target_position = pos
+            
+            # 模拟阀门切换时间
+            switch_time = abs(self._current_position - pos) * 0.5  # 每个位置0.5秒
+            time.sleep(switch_time)
+            
+            self._current_position = pos
+            self._status = "Idle"
+            self._valve_state = "Ready"
+            
+            current_port = self.get_current_port()
+            return f"Position set to {pos} ({current_port})"
+            
+        except ValueError as e:
+            self._status = "Error"
+            self._valve_state = "Error"
+            return f"Error: {str(e)}"
+
+    def set_to_pump_position(self):
+        """切换到transfer pump位置（0号位）"""
+        return self.set_position(0)
+
+    def set_to_port(self, port_number: int):
+        """
+        切换到指定端口位置
+        
+        Args:
+            port_number: 端口号 (1-8)
+        """
+        if port_number < 1 or port_number > self.max_positions:
+            raise ValueError(f"Port number must be between 1 and {self.max_positions}")
+        return self.set_position(port_number)
+
+    def open(self):
+        """打开阀门 - 设置到transfer pump位置（0号位）"""
+        return self.set_to_pump_position()
+
+    def close(self):
+        """关闭阀门 - 对于多通阀门，设置到一个"关闭"状态"""
+        self._status = "Busy"
+        self._valve_state = "Closing"
+        time.sleep(0.5)
+        
+        # 可以选择保持当前位置或设置特殊关闭状态
+        self._status = "Idle"
+        self._valve_state = "Closed"
+        
+        return f"Valve closed at position {self._current_position}"
+
+    def get_valve_position(self) -> int:
+        """获取阀门位置 - 兼容性方法"""
+        return self._current_position
+
+    def is_at_position(self, position: int) -> bool:
+        """检查是否在指定位置"""
+        return self._current_position == position
+
+    def is_at_pump_position(self) -> bool:
+        """检查是否在transfer pump位置"""
+        return self._current_position == 0
+
+    def is_at_port(self, port_number: int) -> bool:
+        """检查是否在指定端口位置"""
+        return self._current_position == port_number
+
+    def get_available_positions(self) -> list:
+        """获取可用位置列表"""
+        return list(range(0, self.max_positions + 1))
+
+    def get_available_ports(self) -> Dict[int, str]:
+        """获取可用端口映射"""
+        return self.position_map.copy()
+
+    def reset(self):
+        """重置阀门到transfer pump位置（0号位）"""
+        return self.set_position(0)
+
+    def switch_between_pump_and_port(self, port_number: int):
+        """
+        在transfer pump位置和指定端口之间切换
+        
+        Args:
+            port_number: 目标端口号 (1-8)
+        """
+        if self._current_position == 0:
+            # 当前在pump位置，切换到指定端口
+            return self.set_to_port(port_number)
+        else:
+            # 当前在某个端口，切换到pump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()
+        if self._current_position == 0:
+            return f"Transfer pump connected (position {self._current_position})"
+        else:
+            return f"Port {self._current_position} connected ({current_port})"
+
+    def get_info(self) -> dict:
+        """获取阀门详细信息"""
+        return {
+            "port": self.port,
+            "max_positions": self.max_positions,
+            "total_positions": self.total_positions,
+            "current_position": self._current_position,
+            "current_port": self.get_current_port(),
+            "target_position": self._target_position,
+            "status": self._status,
+            "valve_state": self._valve_state,
+            "flow_path": self.get_flow_path(),
+            "position_map": self.position_map
+        }
+
+    def __str__(self):
+        return f"VirtualMultiwayValve(Position: {self._current_position}/{self.max_positions}, Port: {self.get_current_port()}, Status: {self._status})"
+
+
+# 使用示例
+if __name__ == "__main__":
+    valve = VirtualMultiwayValve()
+    
+    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()}")
+    
+    # 切换到试剂瓶1（1号位）
+    print(f"\n切换到1号位: {valve.set_position(1)}")
+    print(f"当前状态: {valve}")
+    
+    # 切换到transfer pump位置（0号位）
+    print(f"\n切换到pump位置: {valve.set_to_pump_position()}")
+    print(f"当前状态: {valve}")
+    
+    # 切换到试剂瓶2（2号位）
+    print(f"\n切换到2号位: {valve.set_to_port(2)}")
+    print(f"当前状态: {valve}")
+    
+    # 显示所有可用位置
+    print(f"\n可用位置: {valve.get_available_positions()}")
+    print(f"端口映射: {valve.get_available_ports()}")
+    
+    # 获取详细信息
+    print(f"\n详细信息: {valve.get_info()}")

unilabos/devices/virtual/virtual_solenoid_valve.py

@@ -0,0 +1,151 @@
+import time
+from typing import Union
+
+
+class VirtualSolenoidValve:
+    """
+    虚拟电磁阀门 - 简单的开关型阀门，只有开启和关闭两个状态
+    """
+    def __init__(self, port: str = "VIRTUAL", voltage: float = 12.0, response_time: float = 0.1):
+        self.port = port
+        self.voltage = voltage
+        self.response_time = response_time
+        
+        # 状态属性
+        self._status = "Idle"
+        self._valve_state = "Closed"  # "Open" or "Closed"
+        self._is_open = False
+
+    @property
+    def status(self) -> str:
+        return self._status
+
+    @property
+    def valve_state(self) -> str:
+        return self._valve_state
+
+    @property
+    def is_open(self) -> bool:
+        return self._is_open
+
+    def get_valve_position(self) -> str:
+        """获取阀门位置状态"""
+        return "OPEN" if self._is_open else "CLOSED"
+
+    def set_valve_position(self, position: Union[str, bool]):
+        """
+        设置阀门位置
+        
+        Args:
+            position: "OPEN"/"CLOSED" 或 True/False
+        """
+        self._status = "Busy"
+        
+        # 模拟阀门响应时间
+        time.sleep(self.response_time)
+        
+        if isinstance(position, str):
+            target_open = position.upper() == "OPEN"
+        elif isinstance(position, bool):
+            target_open = position
+        else:
+            self._status = "Error"
+            return "Error: Invalid position"
+        
+        self._is_open = target_open
+        self._valve_state = "Open" if target_open else "Closed"
+        self._status = "Idle"
+        
+        return f"Valve {'opened' if target_open else 'closed'}"
+
+    def open(self):
+        """打开电磁阀"""
+        self._status = "Busy"
+        time.sleep(self.response_time)
+        
+        self._is_open = True
+        self._valve_state = "Open"
+        self._status = "Idle"
+        
+        return "Valve opened"
+
+    def close(self):
+        """关闭电磁阀"""
+        self._status = "Busy"
+        time.sleep(self.response_time)
+        
+        self._is_open = False
+        self._valve_state = "Closed"
+        self._status = "Idle"
+        
+        return "Valve closed"
+
+    def set_state(self, command: Union[bool, str]):
+        """
+        设置阀门状态 - 兼容 SendCmd 类型
+    
+        Args:
+            command: True/False 或 "open"/"close"
+        """
+        if isinstance(command, bool):
+            return self.open() if command else self.close()
+        elif isinstance(command, str):
+            if command.lower() in ["open", "on", "true", "1"]:
+                return self.open()
+            elif command.lower() in ["close", "closed", "off", "false", "0"]:
+                return self.close()
+            else:
+                self._status = "Error"
+                return "Error: Invalid command"
+        else:
+            self._status = "Error"
+            return "Error: Invalid command type"
+
+    def toggle(self):
+        """切换阀门状态"""
+        if self._is_open:
+            return self.close()
+        else:
+            return self.open()
+
+    def is_closed(self) -> bool:
+        """检查阀门是否关闭"""
+        return not self._is_open
+
+    def get_state(self) -> dict:
+        """获取阀门完整状态"""
+        return {
+            "port": self.port,
+            "voltage": self.voltage,
+            "response_time": self.response_time,
+            "is_open": self._is_open,
+            "valve_state": self._valve_state,
+            "status": self._status,
+            "position": self.get_valve_position()
+        }
+
+    def reset(self):
+        """重置阀门到关闭状态"""
+        return self.close()
+
+    def test_cycle(self, cycles: int = 3, delay: float = 1.0):
+        """
+        测试阀门开关循环
+        
+        Args:
+            cycles: 循环次数
+            delay: 每次开关间隔时间(秒)
+        """
+        results = []
+        for i in range(cycles):
+            # 打开
+            result_open = self.open()
+            results.append(f"Cycle {i+1} - Open: {result_open}")
+            time.sleep(delay)
+            
+            # 关闭
+            result_close = self.close()
+            results.append(f"Cycle {i+1} - Close: {result_close}")
+            time.sleep(delay)
+        
+        return results

unilabos/devices/virtual/virtual_transferpump.py

@@ -1,149 +1,285 @@
 import asyncio
+import time
+from enum import Enum
+from typing import Union, Optional
 import logging
-from typing import Dict, Any, Optional
 
-class VirtualTransferPump:
-    """Virtual pump device specifically for Transfer protocol"""
+
+class VirtualPumpMode(Enum):
+    Normal = 0
+    AccuratePos = 1
+    AccuratePosVel = 2
+
+
+class VirtualPump:
+    """虚拟泵类 - 模拟泵的基本功能，无需实际硬件"""
     
-    def __init__(self, device_id: str = None, config: Dict[str, Any] = None, **kwargs):
-        # 处理可能的不同调用方式
-        if device_id is None and 'id' in kwargs:
-            device_id = kwargs.pop('id')
-        if config is None and 'config' in kwargs:
-            config = kwargs.pop('config')
+    def __init__(self, device_id: str = None, max_volume: float = 25.0, mode: VirtualPumpMode = VirtualPumpMode.Normal):
+        self.device_id = device_id or "virtual_pump"
+        self.max_volume = max_volume
+        self.mode = mode
         
-        # 设置默认值
-        self.device_id = device_id or "unknown_transfer_pump"
-        self.config = config or {}
+        # 状态变量
+        self._status = "Idle"
+        self._position = 0.0  # 当前柱塞位置 (ml)
+        self._max_velocity = 5.0  # 默认最大速度 (ml/s)
+        self._current_volume = 0.0  # 当前注射器中的体积
         
-        self.logger = logging.getLogger(f"VirtualTransferPump.{self.device_id}")
-        self.data = {}
+        self.logger = logging.getLogger(f"VirtualPump.{self.device_id}")
         
-        # 添加调试信息
-        print(f"=== VirtualTransferPump {self.device_id} is being created! ===")
-        print(f"=== Config: {self.config} ===")
-        print(f"=== Kwargs: {kwargs} ===")
-        
-        # 从config或kwargs中获取配置参数
-        self.port = self.config.get('port') or kwargs.get('port', 'VIRTUAL')
-        self._max_volume = self.config.get('max_volume') or kwargs.get('max_volume', 50.0)
-        self._transfer_rate = self.config.get('transfer_rate') or kwargs.get('transfer_rate', 5.0)
-        self._current_volume = 0.0
-        self.is_running = False
-    
     async def initialize(self) -> bool:
-        """Initialize virtual transfer pump"""
-        print(f"=== VirtualTransferPump {self.device_id} initialize() called! ===")
-        self.logger.info(f"Initializing virtual transfer pump {self.device_id}")
-        self.data.update({
-            "status": "Idle",
-            "current_volume": 0.0,
-            "max_volume": self._max_volume,
-            "transfer_rate": self._transfer_rate,
-            "from_vessel": "",
-            "to_vessel": "",
-            "progress": 0.0,
-            "transferred_volume": 0.0,
-            "current_status": "Ready"
-        })
+        """初始化虚拟泵"""
+        self.logger.info(f"Initializing virtual pump {self.device_id}")
+        self._status = "Idle"
+        self._position = 0.0
+        self._current_volume = 0.0
         return True
     
     async def cleanup(self) -> bool:
-        """Cleanup virtual transfer pump"""
-        self.logger.info(f"Cleaning up virtual transfer pump {self.device_id}")
+        """清理虚拟泵"""
+        self.logger.info(f"Cleaning up virtual pump {self.device_id}")
+        self._status = "Idle"
         return True
     
-    async def transfer(self, from_vessel: str, to_vessel: str, volume: float, 
-                      amount: str = "", time: float = 0, viscous: bool = False,
-                      rinsing_solvent: str = "", rinsing_volume: float = 0.0,
-                      rinsing_repeats: int = 0, solid: bool = False) -> bool:
-        """Execute liquid transfer - matches Transfer action"""
-        self.logger.info(f"Transfer: {volume}mL from {from_vessel} to {to_vessel}")
-        
-        # 计算转移时间
-        if time > 0:
-            transfer_time = time
-        else:
-            # 如果是粘性液体，降低转移速率
-            rate = self._transfer_rate * 0.5 if viscous else self._transfer_rate
-            transfer_time = volume / rate
-        
-        self.data.update({
-            "status": "Running",
-            "from_vessel": from_vessel,
-            "to_vessel": to_vessel,
-            "current_status": "Transferring",
-            "progress": 0.0,
-            "transferred_volume": 0.0
-        })
-        
-        # 模拟转移过程
-        steps = 10
-        step_time = transfer_time / steps
-        step_volume = volume / steps
-        
-        for i in range(steps):
-            await asyncio.sleep(step_time)
-            progress = (i + 1) / steps * 100
-            transferred = (i + 1) * step_volume
-            
-            self.data.update({
-                "progress": progress,
-                "transferred_volume": transferred,
-                "current_status": f"Transferring {progress:.1f}%"
-            })
-            
-            self.logger.info(f"Transfer progress: {progress:.1f}% ({transferred:.1f}/{volume}mL)")
-        
-        # 如果需要冲洗
-        if rinsing_solvent and rinsing_volume > 0 and rinsing_repeats > 0:
-            self.data["current_status"] = "Rinsing"
-            for repeat in range(rinsing_repeats):
-                self.logger.info(f"Rinsing cycle {repeat + 1}/{rinsing_repeats} with {rinsing_solvent}")
-                await asyncio.sleep(1)  # 模拟冲洗时间
-        
-        self.data.update({
-            "status": "Idle",
-            "current_status": "Transfer completed",
-            "progress": 100.0,
-            "transferred_volume": volume
-        })
-        
-        return True
-    
-    # 添加所有在virtual_device.yaml中定义的状态属性
+    # 基本属性
     @property
     def status(self) -> str:
-        return self.data.get("status", "Unknown")
+        return self._status
+    
+    @property
+    def position(self) -> float:
+        """当前柱塞位置 (ml)"""
+        return self._position
     
     @property
     def current_volume(self) -> float:
-        return self.data.get("current_volume", 0.0)
+        """当前注射器中的体积 (ml)"""
+        return self._current_volume
     
     @property
-    def max_volume(self) -> float:
-        return self.data.get("max_volume", self._max_volume)
+    def max_velocity(self) -> float:
+        return self._max_velocity
     
-    @property
-    def transfer_rate(self) -> float:
-        return self.data.get("transfer_rate", self._transfer_rate)
+    def set_max_velocity(self, velocity: float):
+        """设置最大速度 (ml/s)"""
+        self._max_velocity = max(0.1, min(50.0, velocity))  # 限制在合理范围内
+        self.logger.info(f"Set max velocity to {self._max_velocity} ml/s")
     
-    @property
-    def from_vessel(self) -> str:
-        return self.data.get("from_vessel", "")
+    def get_status(self) -> str:
+        """获取泵状态"""
+        return self._status
     
-    @property
-    def to_vessel(self) -> str:
-        return self.data.get("to_vessel", "")
+    async def _simulate_operation(self, duration: float):
+        """模拟操作延时"""
+        self._status = "Busy"
+        await asyncio.sleep(duration)
+        self._status = "Idle"
     
-    @property
-    def progress(self) -> float:
-        return self.data.get("progress", 0.0)
+    def _calculate_duration(self, volume: float, velocity: float = None) -> float:
+        """计算操作持续时间"""
+        if velocity is None:
+            velocity = self._max_velocity
+        return abs(volume) / velocity
     
-    @property
-    def transferred_volume(self) -> float:
-        return self.data.get("transferred_volume", 0.0)
+    # 基本泵操作
+    async def set_position(self, position: float, velocity: float = None):
+        """
+        移动到绝对位置
+        
+        Args:
+            position (float): 目标位置 (ml)
+            velocity (float): 移动速度 (ml/s)
+        """
+        position = max(0, min(self.max_volume, position))  # 限制在有效范围内
+        
+        volume_to_move = abs(position - self._position)
+        duration = self._calculate_duration(volume_to_move, velocity)
+        
+        self.logger.info(f"Moving to position {position} ml (current: {self._position} ml)")
+        
+        # 模拟移动过程
+        await self._simulate_operation(duration)
+        
+        self._position = position
+        self._current_volume = position  # 假设位置等于体积
+        
+        self.logger.info(f"Reached position {self._position} ml")
     
-    @property
-    def current_status(self) -> str:
-        return self.data.get("current_status", "Ready")
+    async def pull_plunger(self, volume: float, velocity: float = None):
+        """
+        拉取柱塞（吸液）
+        
+        Args:
+            volume (float): 要拉取的体积 (ml)
+            velocity (float): 拉取速度 (ml/s)
+        """
+        new_position = min(self.max_volume, self._position + volume)
+        actual_volume = new_position - self._position
+        
+        if actual_volume <= 0:
+            self.logger.warning("Cannot pull - already at maximum volume")
+            return
+        
+        duration = self._calculate_duration(actual_volume, velocity)
+        
+        self.logger.info(f"Pulling {actual_volume} ml (from {self._position} to {new_position})")
+        
+        await self._simulate_operation(duration)
+        
+        self._position = new_position
+        self._current_volume = new_position
+        
+        self.logger.info(f"Pulled {actual_volume} ml, current volume: {self._current_volume} ml")
+    
+    async def push_plunger(self, volume: float, velocity: float = None):
+        """
+        推出柱塞（排液）
+        
+        Args:
+            volume (float): 要推出的体积 (ml)
+            velocity (float): 推出速度 (ml/s)
+        """
+        new_position = max(0, self._position - volume)
+        actual_volume = self._position - new_position
+        
+        if actual_volume <= 0:
+            self.logger.warning("Cannot push - already at minimum volume")
+            return
+        
+        duration = self._calculate_duration(actual_volume, velocity)
+        
+        self.logger.info(f"Pushing {actual_volume} ml (from {self._position} to {new_position})")
+        
+        await self._simulate_operation(duration)
+        
+        self._position = new_position
+        self._current_volume = new_position
+        
+        self.logger.info(f"Pushed {actual_volume} ml, current volume: {self._current_volume} ml")
+    
+    # 便捷操作方法
+    async def aspirate(self, volume: float, velocity: float = None):
+        """
+        吸液操作
+        
+        Args:
+            volume (float): 吸液体积 (ml)
+            velocity (float): 吸液速度 (ml/s)
+        """
+        await self.pull_plunger(volume, velocity)
+    
+    async def dispense(self, volume: float, velocity: float = None):
+        """
+        排液操作
+        
+        Args:
+            volume (float): 排液体积 (ml)
+            velocity (float): 排液速度 (ml/s)
+        """
+        await self.push_plunger(volume, velocity)
+    
+    async def transfer(self, volume: float, aspirate_velocity: float = None, dispense_velocity: float = None):
+        """
+        转移操作（先吸后排）
+        
+        Args:
+            volume (float): 转移体积 (ml)
+            aspirate_velocity (float): 吸液速度 (ml/s)
+            dispense_velocity (float): 排液速度 (ml/s)
+        """
+        # 吸液
+        await self.aspirate(volume, aspirate_velocity)
+        
+        # 短暂停顿
+        await asyncio.sleep(0.1)
+        
+        # 排液
+        await self.dispense(volume, dispense_velocity)
+    
+    async def empty_syringe(self, velocity: float = None):
+        """清空注射器"""
+        await self.set_position(0, velocity)
+    
+    async def fill_syringe(self, velocity: float = None):
+        """充满注射器"""
+        await self.set_position(self.max_volume, velocity)
+    
+    async def stop_operation(self):
+        """停止当前操作"""
+        self._status = "Idle"
+        self.logger.info("Operation stopped")
+    
+    # 状态查询方法
+    def get_position(self) -> float:
+        """获取当前位置"""
+        return self._position
+    
+    def get_current_volume(self) -> float:
+        """获取当前体积"""
+        return self._current_volume
+    
+    def get_remaining_capacity(self) -> float:
+        """获取剩余容量"""
+        return self.max_volume - self._current_volume
+    
+    def is_empty(self) -> bool:
+        """检查是否为空"""
+        return self._current_volume <= 0.01  # 允许小量误差
+    
+    def is_full(self) -> bool:
+        """检查是否已满"""
+        return self._current_volume >= (self.max_volume - 0.01)  # 允许小量误差
+    
+    # 调试和状态信息
+    def get_pump_info(self) -> dict:
+        """获取泵的详细信息"""
+        return {
+            "device_id": self.device_id,
+            "status": self._status,
+            "position": self._position,
+            "current_volume": self._current_volume,
+            "max_volume": self.max_volume,
+            "max_velocity": self._max_velocity,
+            "mode": self.mode.name,
+            "is_empty": self.is_empty(),
+            "is_full": self.is_full(),
+            "remaining_capacity": self.get_remaining_capacity()
+        }
+    
+    def __str__(self):
+        return f"VirtualPump({self.device_id}: {self._current_volume:.2f}/{self.max_volume} ml, {self._status})"
+    
+    def __repr__(self):
+        return self.__str__()
+
+
+# 使用示例
+async def demo():
+    """虚拟泵使用示例"""
+    pump = VirtualPump("demo_pump", max_volume=50.0)
+    
+    await pump.initialize()
+    
+    print(f"Initial state: {pump}")
+    
+    # 吸液测试
+    await pump.aspirate(10.0, velocity=2.0)
+    print(f"After aspirating 10ml: {pump}")
+    
+    # 排液测试
+    await pump.dispense(5.0, velocity=3.0)
+    print(f"After dispensing 5ml: {pump}")
+    
+    # 转移测试
+    await pump.transfer(3.0)
+    print(f"After transfer 3ml: {pump}")
+    
+    # 清空测试
+    await pump.empty_syringe()
+    print(f"After emptying: {pump}")
+    
+    print("\nPump info:", pump.get_pump_info())
+
+
+if __name__ == "__main__":
+    asyncio.run(demo())

unilabos/registry/device_comms/modbus_ioboard.yaml

@@ -1,7 +1,7 @@
 io_snrd:
   description: IO Board with 16 IOs
   class:
-    module: unilabos.device_comms.SRND_16_IO:SRND_16_IO
+    module: ilabos.device_comms.SRND_16_IO:SRND_16_IO
     type: python
     hardware_interface:
       name: modbus_client

unilabos/registry/devices/mock_devices.yaml

@@ -89,7 +89,7 @@ mock_filter:
       target_volume: Float64
     action_value_mappings:
       filter:
-        type: ProtocolFilter
+        type: Filter
         goal:
           vessel: vessel
           filtrate_vessel: filtrate_vessel
@@ -737,7 +737,7 @@ mock_stirrer_new:
       max_stir_speed: Float64
     action_value_mappings:
       start_stir:
-        type: ProtocolStartStir
+        type: StartStir
         goal:
           vessel: vessel
           stir_speed: stir_speed
@@ -760,7 +760,7 @@ mock_stirrer_new:
         result:
           success: success
       stop_stir:
-        type: ProtocolStopStir
+        type: StopStir
         goal:
           vessel: vessel
         feedback:

unilabos/registry/devices/pump_and_valve.yaml

@@ -71,3 +71,13 @@ solenoid_valve:
   class:
     module: unilabos.devices.pump_and_valve.solenoid_valve:SolenoidValve
     type: python
+    status_types:
+      status: String
+      valve_position: String
+    action_value_mappings:
+      set_valve_position:
+        type: StrSingleInput
+        goal:
+          string: position
+        feedback: {}
+        result: {}

unilabos/registry/devices/virtual_device.yaml

@@ -1,3 +1,49 @@
+# 虚拟设备清单及连接特性
+
+# 1. virtual_pump - 虚拟泵
+# 描述：具有多通道阀门特性的泵，根据valve_position可连接多个容器
+# 连接特性：1个输入口 + 1个输出口（当前配置，实际应该有多个输出口）
+# 数据类型：fluid（流体连接）
+
+# 2. virtual_stirrer - 虚拟搅拌器  
+# 描述：机械连接设备，提供搅拌功能
+# 连接特性：1个双向连接点（bidirectional）
+# 数据类型：mechanical（机械连接）
+
+# 3a. virtual_valve - 虚拟八通阀门
+# 描述：8通阀门（实际配置为7通），可切换流向
+# 连接特性：1个口连接注射泵 + 7个输出口
+# 数据类型：fluid（流体连接）
+
+# 3b. virtual_solenoid_valve (电磁阀门)
+# 描述：简单的开关型电磁阀，只有开启和关闭两个状态
+# 连接特性：1个输入口 + 1个输出口，控制通断
+# 数据类型：fluid（流体连接）
+
+# 4. virtual_centrifuge - 虚拟离心机
+# 描述：单个样品处理设备，原地处理样品
+# 连接特性：1个输入口 + 1个输出口
+# 数据类型：resource（资源/样品连接）
+
+# 5. virtual_filter - 虚拟过滤器
+# 描述：分离设备，将样品分离为滤液和滤渣
+# 连接特性：1个输入口 + 2个输出口（滤液和滤渣）
+# 数据类型：resource（资源/样品连接）
+
+# 6. virtual_heatchill - 虚拟加热/冷却器
+# 描述：温控设备，容器直接放置在设备上进行温度控制
+# 连接特性：1个双向连接点（bidirectional）
+# 数据类型：mechanical（机械/物理接触连接）
+
+# 7. virtual_transfer_pump - 虚拟转移泵（注射器式）
+# 描述：注射器式转移泵，通过同一个口吸入和排出液体
+# 连接特性：1个双向连接点（bidirectional）
+# 数据类型：fluid（流体连接）
+
+# 8. virtual_column - 虚拟色谱柱
+# 描述：分离纯化设备，用于样品纯化
+# 连接特性：1个输入口 + 1个输出口
+# 数据类型：resource（资源/样品连接）
 virtual_pump:
   description: Virtual Pump for PumpTransferProtocol Testing
   class:
@@ -30,11 +76,29 @@ virtual_pump:
       set_valve_position:
         type: FloatSingleInput
         goal:
-          Int32: Int32  
+          float_in: valve_position
         feedback:
           status: status
         result:
           success: success
+  # 虚拟泵节点配置 - 具有多通道阀门特性，根据valve_position可连接多个容器
+  handles:
+    input:
+    - handler_key: pump-inlet
+      label: Pump Inlet
+      data_type: fluid
+      io_type: target
+      data_source: handle
+      data_key: fluid_in
+      description: "泵的进液口，连接源容器"
+    output:
+    - handler_key: pump-outlet-1
+      label: Outlet Port 1
+      data_type: fluid
+      io_type: source
+      data_source: executor
+      data_key: fluid_out_1
+      description: "阀门位置1的出液口"
   schema:
     type: object
     properties:
@@ -65,7 +129,7 @@ virtual_stirrer:
         result:
           success: success
       start_stir:
-        type: ProtocolStartStir
+        type: StartStir
         goal:
           vessel: vessel
           stir_speed: stir_speed
@@ -75,13 +139,23 @@ virtual_stirrer:
         result:
           success: success
       stop_stir:
-        type: ProtocolStopStir
+        type: StopStir
         goal:
           vessel: vessel
         feedback:
           status: status
         result:
           success: success
+  # 虚拟搅拌器节点配置 - 机械连接设备，单一双向连接点
+  handles:
+    bidirectional:
+    - handler_key: stirrer-vessel
+      label: Vessel Connection
+      data_type: mechanical
+      io_type: bidirectional
+      data_source: handle
+      data_key: vessel
+      description: "搅拌器的机械连接口，直接与反应容器连接提供搅拌功能"
   schema:
     type: object
     properties:
@@ -96,10 +170,10 @@ virtual_stirrer:
         default: 1000.0
     additionalProperties: false
 
-virtual_valve:
-  description: Virtual Valve for AddProtocol Testing
+virtual_multiway_valve:
+  description: Virtual 8-Way Valve for flow direction control
   class:
-    module: unilabos.devices.virtual.virtual_valve:VirtualValve
+    module: unilabos.devices.virtual.virtual_multiway_valve:VirtualMultiwayValve
     type: python
     status_types:
       status: String
@@ -115,18 +189,73 @@ virtual_valve:
         feedback: {}
         result:
           success: success
-      open:
-        type: EmptyIn
-        goal: {}
-        feedback: {}
-        result:
-          success: success
-      close:
-        type: EmptyIn
-        goal: {}
-        feedback: {}
-        result:
-          success: success
+  # 八通阀门节点配置 - 1个输入口，8个输出口，可切换流向
+  handles:
+    input:
+    - handler_key: multiway-valve-inlet
+      label: Valve Inlet
+      data_type: fluid
+      io_type: target
+      data_source: handle
+      data_key: fluid_in
+      description: "八通阀门进液口，接收来源流体"
+    output:
+    - handler_key: multiway-valve-port-1
+      label: Port 1
+      data_type: fluid
+      io_type: source
+      data_source: executor
+      data_key: fluid_port_1
+      description: "八通阀门端口1，position=1时流体从此口流出"
+    - handler_key: multiway-valve-port-2
+      label: Port 2
+      data_type: fluid
+      io_type: source
+      data_source: executor
+      data_key: fluid_port_2
+      description: "八通阀门端口2，position=2时流体从此口流出"
+    - handler_key: multiway-valve-port-3
+      label: Port 3
+      data_type: fluid
+      io_type: source
+      data_source: executor
+      data_key: fluid_port_3
+      description: "八通阀门端口3，position=3时流体从此口流出"
+    - handler_key: multiway-valve-port-4
+      label: Port 4
+      data_type: fluid
+      io_type: source
+      data_source: executor
+      data_key: fluid_port_4
+      description: "八通阀门端口4，position=4时流体从此口流出"
+    - handler_key: multiway-valve-port-5
+      label: Port 5
+      data_type: fluid
+      io_type: source
+      data_source: executor
+      data_key: fluid_port_5
+      description: "八通阀门端口5，position=5时流体从此口流出"
+    - handler_key: multiway-valve-port-6
+      label: Port 6
+      data_type: fluid
+      io_type: source
+      data_source: executor
+      data_key: fluid_port_6
+      description: "八通阀门端口6，position=6时流体从此口流出"
+    - handler_key: multiway-valve-port-7
+      label: Port 7
+      data_type: fluid
+      io_type: source
+      data_source: executor
+      data_key: fluid_port_7
+      description: "八通阀门端口7，position=7时流体从此口流出"
+    - handler_key: multiway-valve-port-8
+      label: Port 8
+      data_type: fluid
+      io_type: source
+      data_source: executor
+      data_key: fluid_port_8
+      description: "八通阀门端口8，position=8时流体从此口流出"
   schema:
     type: object
     properties:
@@ -135,9 +264,62 @@ virtual_valve:
         default: "VIRTUAL"
       positions:
         type: integer
-        default: 6
+        default: 8
+    additionalProperties: false
+virtual_solenoid_valve:
+  description: Virtual Solenoid Valve for simple on/off flow control
+  class:
+    module: unilabos.devices.virtual.virtual_solenoid_valve:VirtualSolenoidValve
+    type: python
+    status_types:
+      status: String
+      valve_state: String  # "open" or "closed"
+      is_open: Bool
+    action_value_mappings:
+      open:
+        type: SendCmd
+        goal: 
+          command: "open"
+        feedback: {}
+        result:
+          success: success
+      close:
+        type: SendCmd
+        goal: 
+          command: "close"
+        feedback: {}
+        result:
+          success: success
+      set_state:
+        type: SendCmd
+        goal:
+          command: command 
+        feedback: {}
+        result:
+          success: success
+  # 电磁阀门节点配置 - 双向流通的开关型阀门，流动方向由泵决定
+  handles:
+    bidirectional:
+    - handler_key: solenoid-valve-port
+      label: Valve Port
+      data_type: fluid
+      io_type: bidirectional
+      data_source: handle
+      data_key: fluid_port
+      description: "电磁阀的双向流体口，开启时允许流体双向通过，关闭时完全阻断"
+  schema:
+    type: object
+    properties:
+      port:
+        type: string
+        default: "VIRTUAL"
+      voltage:
+        type: number
+        default: 12.0
+      response_time:
+        type: number
+        default: 0.1
     additionalProperties: false
-
 virtual_centrifuge:
   description: Virtual Centrifuge for CentrifugeProtocol Testing
   class:
@@ -156,7 +338,7 @@ virtual_centrifuge:
       time_remaining: Float64
     action_value_mappings:
       centrifuge:
-        type: ProtocolCentrifuge
+        type: Centrifuge
         goal:
           vessel: vessel
           speed: speed
@@ -170,6 +352,24 @@ virtual_centrifuge:
         result:
           success: success
           message: message
+  # 虚拟离心机节点配置 - 单个样品处理设备，输入输出都是同一个样品容器
+  handles:
+    input:
+    - handler_key: centrifuge-sample
+      label: Sample Input
+      data_type: resource
+      io_type: target
+      data_source: handle
+      data_key: vessel
+      description: "需要离心的样品容器"
+    output:
+    - handler_key: centrifuge-sample-out
+      label: Centrifuged Sample
+      data_type: resource
+      io_type: source
+      data_source: executor
+      data_key: vessel
+      description: "经过离心处理的样品容器"
   schema:
     type: object
     properties:
@@ -205,7 +405,7 @@ virtual_filter:
       message: String
     action_value_mappings:
       filter_sample:
-        type: ProtocolFilter
+        type: Filter
         goal:
           vessel: vessel
           filtrate_vessel: filtrate_vessel
@@ -222,6 +422,31 @@ virtual_filter:
         result:
           success: success
           message: message
+  # 虚拟过滤器节点配置 - 分离设备，1个输入(原始样品)，2个输出(滤液和滤渣)
+  handles:
+    input:
+    - handler_key: filter-sample-in
+      label: Sample Input
+      data_type: resource
+      io_type: target
+      data_source: handle
+      data_key: vessel
+      description: "需要过滤的原始样品容器"
+    output:
+    - handler_key: filter-filtrate-out
+      label: Filtrate Output
+      data_type: resource
+      io_type: source
+      data_source: executor
+      data_key: filtrate_vessel
+      description: "过滤后的滤液容器"
+    - handler_key: filter-residue-out
+      label: Filter Residue
+      data_type: resource
+      io_type: source
+      data_source: executor
+      data_key: residue_vessel
+      description: "过滤后的滤渣(固体残留物)"
   schema:
     type: object
     properties:
@@ -275,6 +500,16 @@ virtual_heatchill:
           status: status
         result:
           success: success
+  # 虚拟加热/冷却器节点配置 - 温控设备，单一双向连接点用于放置容器
+  handles:
+    bidirectional:
+    - handler_key: heatchill-vessel
+      label: Vessel Connection
+      data_type: mechanical
+      io_type: bidirectional
+      data_source: handle
+      data_key: vessel
+      description: "加热/冷却器的物理连接口，容器直接放置在设备上进行温度控制"
   schema:
     type: object
     properties:
@@ -293,7 +528,7 @@ virtual_heatchill:
     additionalProperties: false
 
 virtual_transfer_pump:
-  description: Virtual Transfer Pump for TransferProtocol Testing
+  description: Virtual Transfer Pump for TransferProtocol Testing (Syringe-style)
   class:
     module: unilabos.devices.virtual.virtual_transferpump:VirtualTransferPump
     type: python
@@ -309,7 +544,7 @@ virtual_transfer_pump:
       current_status: String
     action_value_mappings:
       transfer:
-        type: ProtocolTransfer
+        type: Transfer
         goal:
           from_vessel: from_vessel
           to_vessel: to_vessel
@@ -328,6 +563,16 @@ virtual_transfer_pump:
         result:
           success: success
           message: message
+  # 注射器式转移泵节点配置 - 只有一个双向连接口，可吸入和排出液体
+  handles:
+    bidirectional:
+    - handler_key: syringe-port
+      label: Syringe Port
+      data_type: fluid
+      io_type: bidirectional
+      data_source: handle
+      data_key: fluid_port
+      description: "注射器式转移泵的唯一连接口，通过阀门切换实现吸入和排出"
   schema:
     type: object
     properties:
@@ -359,7 +604,7 @@ virtual_column:
       current_status: String
     action_value_mappings:
       run_column:
-        type: ProtocolRunColumn
+        type: RunColumn
         goal:
           from_vessel: from_vessel
           to_vessel: to_vessel
@@ -370,6 +615,24 @@ virtual_column:
         result:
           success: success
           message: message
+  # 虚拟色谱柱节点配置 - 分离纯化设备，1个样品输入口，1个纯化产物输出口
+  handles:
+    input:
+    - handler_key: column-sample-inlet
+      label: Sample Input
+      data_type: resource
+      io_type: target
+      data_source: handle
+      data_key: from_vessel
+      description: "需要纯化的样品输入口"
+    output:
+    - handler_key: column-product-outlet
+      label: Purified Product
+      data_type: resource
+      io_type: source
+      data_source: executor
+      data_key: to_vessel
+      description: "经过色谱柱纯化的产物输出口"
   schema:
     type: object
     properties:

unilabos/ros/nodes/base_device_node.py

@@ -601,10 +601,10 @@ class BaseROS2DeviceNode(Node, Generic[T]):
             goal = goal_handle.request
 
             # 从目标消息中提取参数, 并调用对应的方法
-            if "sequence" in self._action_value_mappings:
+            if "sequence" in action_value_mapping:
                 # 如果一个指令对应函数的连续调用，如启动和等待结果，默认参数应该属于第一个函数调用
                 def ACTION(**kwargs):
-                    for i, action in enumerate(self._action_value_mappings["sequence"]):
+                    for i, action in enumerate(action_value_mapping["sequence"]):
                         if i == 0:
                             self.lab_logger().info(f"执行序列动作第一步: {action}")
                             self.get_real_function(self.driver_instance, action)[0](**kwargs)
@@ -612,9 +612,7 @@ class BaseROS2DeviceNode(Node, Generic[T]):
                             self.lab_logger().info(f"执行序列动作后续步骤: {action}")
                             self.get_real_function(self.driver_instance, action)[0]()
 
-                action_paramtypes = get_type_hints(
-                    self.get_real_function(self.driver_instance, self._action_value_mappings["sequence"][0])
-                )[1]
+                action_paramtypes = self.get_real_function(self.driver_instance, action_value_mapping["sequence"][0])[1]
             else:
                 ACTION, action_paramtypes = self.get_real_function(self.driver_instance, action_name)
 

unilabos/ros/nodes/presets/protocol_node.py

@@ -256,12 +256,12 @@ class ROS2ProtocolNode(BaseROS2DeviceNode):
             return write_func(*args, **kwargs)
 
         if read_method:
-            bound_read = MethodType(_read, device.driver_instance)
-            setattr(device.driver_instance, read_method, bound_read)
+            # bound_read = MethodType(_read, device.driver_instance)
+            setattr(device.driver_instance, read_method, _read)
 
         if write_method:
-            bound_write = MethodType(_write, device.driver_instance)
-            setattr(device.driver_instance, write_method, bound_write)
+            # bound_write = MethodType(_write, device.driver_instance)
+            setattr(device.driver_instance, write_method, _write)
 
 
     async def _update_resources(self, goal, protocol_kwargs):

unilabos_msgs/CMakeLists.txt

@@ -29,23 +29,23 @@ set(action_files
   "action/HeatChillStart.action"
   "action/HeatChillStop.action"
 
-  "action/ProtocolCleanVessel.action"
-  "action/ProtocolDissolve.action"
-  "action/ProtocolFilterThrough.action"
-  "action/ProtocolRunColumn.action"
-  "action/ProtocolWait.action"
-  "action/ProtocolWashSolid.action"
-  "action/ProtocolFilter.action"
-
-  "action/ProtocolCentrifuge.action"
-  "action/ProtocolCrystallize.action"
-  "action/ProtocolDry.action"
-  "action/ProtocolPurge.action"
-  "action/ProtocolStartPurge.action"
-  "action/ProtocolStartStir.action"
-  "action/ProtocolStopPurge.action"
-  "action/ProtocolStopStir.action"
-  "action/ProtocolTransfer.action"
+  "action/CleanVessel.action"
+  "action/Dissolve.action"
+  "action/FilterThrough.action"
+  "action/RunColumn.action"
+  "action/Wait.action"
+  "action/WashSolid.action"
+  "action/Filter.action"
+  "action/Add.action"
+  "action/Centrifuge.action"
+  "action/Crystallize.action"
+  "action/Dry.action"
+  "action/Purge.action"
+  "action/StartPurge.action"
+  "action/StartStir.action"
+  "action/StopPurge.action"
+  "action/StopStir.action"
+  "action/Transfer.action"
 
   "action/LiquidHandlerProtocolCreation.action"
   "action/LiquidHandlerAspirate.action"