upgrade to 0.11.1

use gitee to install pylabrobot
fix virtual import
2026-04-24 05:09:57 +00:00 · 2026-04-22 19:54:59 +08:00 · 2026-04-22 19:54:57 +08:00 · 2026-04-22 19:54:55 +08:00 · 2026-04-16 01:35:01 +08:00 · 2026-04-16 01:33:36 +08:00
108 changed files with 8790 additions and 5574 deletions
--- a/.conda/base/recipe.yaml
+++ b/.conda/base/recipe.yaml
@@ -3,7 +3,7 @@

 package:
  name: unilabos
-  version: 0.10.19
+  version: 0.11.1

 source:
  path: ../../unilabos
@@ -54,7 +54,7 @@ requirements:
  - pymodbus
  - matplotlib
  - pylibftdi
-  - uni-lab::unilabos-env ==0.10.19
+  - uni-lab::unilabos-env ==0.11.1

 about:
  repository: https://github.com/deepmodeling/Uni-Lab-OS
--- a/.conda/environment/recipe.yaml
+++ b/.conda/environment/recipe.yaml
@@ -2,7 +2,7 @@

 package:
  name: unilabos-env
-  version: 0.10.19
+  version: 0.11.1

 build:
  noarch: generic
--- a/.conda/full/recipe.yaml
+++ b/.conda/full/recipe.yaml
@@ -3,7 +3,7 @@

 package:
  name: unilabos-full
-  version: 0.10.19
+  version: 0.11.1

 build:
  noarch: generic
@@ -11,7 +11,7 @@ build:
 requirements:
  run:
  # Base unilabos package (includes unilabos-env)
-  - uni-lab::unilabos ==0.10.19
+  - uni-lab::unilabos ==0.11.1
  # Documentation tools
  - sphinx
  - sphinx_rtd_theme
--- a/.cursor/skills/batch-insert-reagent/SKILL.md
+++ b/.cursor/skills/batch-insert-reagent/SKILL.md
@@ -27,14 +27,15 @@ python -c "import base64,sys; print('Authorization: Lab ' + base64.b64encode(f'{

 ### 2. --addr → BASE URL

-| `--addr` 值 | BASE |
-|-------------|------|
-| `test` | `https://uni-lab.test.bohrium.com` |
-| `uat` | `https://uni-lab.uat.bohrium.com` |
-| `local` | `http://127.0.0.1:48197` |
-| 不传（默认） | `https://uni-lab.bohrium.com` |
+| `--addr` 值  | BASE                                |
+| ------------ | ----------------------------------- |
+| `test`       | `https://leap-lab.test.bohrium.com` |
+| `uat`        | `https://leap-lab.uat.bohrium.com`  |
+| `local`      | `http://127.0.0.1:48197`            |
+| 不传（默认） | `https://leap-lab.bohrium.com`      |

 确认后设置：
+
 ```bash
 BASE="<根据 addr 确定的 URL>"
 AUTH="Authorization: Lab <gen_auth.py 输出的 token>"
@@ -65,7 +66,7 @@ curl -s -X GET "$BASE/api/v1/edge/lab/info" -H "$AUTH"
 返回：

 ```json
-{"code": 0, "data": {"uuid": "xxx", "name": "实验室名称"}}
+{ "code": 0, "data": { "uuid": "xxx", "name": "实验室名称" } }
 ```

 记住 `data.uuid` 为 `lab_uuid`。
@@ -90,6 +91,7 @@ curl -s -X POST "$BASE/api/v1/lab/reagent" \
 ```

 返回成功时包含试剂 UUID：
+
 ```json
 {"code": 0, "data": {"uuid": "xxx", ...}}
 ```
@@ -98,28 +100,28 @@ curl -s -X POST "$BASE/api/v1/lab/reagent" \

 ## 试剂字段说明

-| 字段 | 类型 | 必填 | 说明 | 示例 |
-|------|------|------|------|------|
-| `lab_uuid` | string | 是 | 实验室 UUID（从 API #1 获取） | `"8511c672-..."` |
-| `cas` | string | 是 | CAS 注册号 | `"7732-18-3"` |
-| `name` | string | 是 | 试剂中文/英文名称 | `"水"` |
-| `molecular_formula` | string | 是 | 分子式 | `"H2O"` |
-| `smiles` | string | 是 | SMILES 表示 | `"O"` |
-| `stock_in_quantity` | number | 是 | 入库数量 | `10` |
-| `unit` | string | 是 | 单位（字符串，见下表） | `"mL"` |
-| `supplier` | string | 否 | 供应商名称 | `"国药集团"` |
-| `production_date` | string | 否 | 生产日期（ISO 8601） | `"2025-11-18T00:00:00Z"` |
-| `expiry_date` | string | 否 | 过期日期（ISO 8601） | `"2026-11-18T00:00:00Z"` |
+| 字段                | 类型   | 必填 | 说明                          | 示例                     |
+| ------------------- | ------ | ---- | ----------------------------- | ------------------------ |
+| `lab_uuid`          | string | 是   | 实验室 UUID（从 API #1 获取） | `"8511c672-..."`         |
+| `cas`               | string | 是   | CAS 注册号                    | `"7732-18-3"`            |
+| `name`              | string | 是   | 试剂中文/英文名称             | `"水"`                   |
+| `molecular_formula` | string | 是   | 分子式                        | `"H2O"`                  |
+| `smiles`            | string | 是   | SMILES 表示                   | `"O"`                    |
+| `stock_in_quantity` | number | 是   | 入库数量                      | `10`                     |
+| `unit`              | string | 是   | 单位（字符串，见下表）        | `"mL"`                   |
+| `supplier`          | string | 否   | 供应商名称                    | `"国药集团"`             |
+| `production_date`   | string | 否   | 生产日期（ISO 8601）          | `"2025-11-18T00:00:00Z"` |
+| `expiry_date`       | string | 否   | 过期日期（ISO 8601）          | `"2026-11-18T00:00:00Z"` |

 ### unit 单位值

-| 值 | 单位 |
-|------|------|
+| 值     | 单位 |
+| ------ | ---- |
 | `"mL"` | 毫升 |
-| `"L"` | 升 |
-| `"g"` | 克 |
+| `"L"`  | 升   |
+| `"g"`  | 克   |
 | `"kg"` | 千克 |
-| `"瓶"` | 瓶 |
+| `"瓶"` | 瓶   |

 > 根据试剂状态选择：液体用 `"mL"` / `"L"`，固体用 `"g"` / `"kg"`。

@@ -133,8 +135,22 @@ curl -s -X POST "$BASE/api/v1/lab/reagent" \

 ```json
 [
-  {"cas": "7732-18-3", "name": "水", "molecular_formula": "H2O", "smiles": "O", "stock_in_quantity": 10, "unit": "mL"},
-  {"cas": "64-17-5", "name": "乙醇", "molecular_formula": "C2H6O", "smiles": "CCO", "stock_in_quantity": 5, "unit": "L"}
+  {
+    "cas": "7732-18-3",
+    "name": "水",
+    "molecular_formula": "H2O",
+    "smiles": "O",
+    "stock_in_quantity": 10,
+    "unit": "mL"
+  },
+  {
+    "cas": "64-17-5",
+    "name": "乙醇",
+    "molecular_formula": "C2H6O",
+    "smiles": "CCO",
+    "stock_in_quantity": 5,
+    "unit": "L"
+  }
 ]
 ```

@@ -160,9 +176,20 @@ cas,name,molecular_formula,smiles,stock_in_quantity,unit,supplier,production_dat
 7732-18-3,水,H2O,O,10,mL,农夫山泉,2025-11-18T00:00:00Z,2026-11-18T00:00:00Z
 ```

+### 日期格式规则（重要）
+
+所有日期字段（`production_date`、`expiry_date`）**必须**使用 ISO 8601 完整格式：`YYYY-MM-DDTHH:MM:SSZ`。
+
+- 用户输入 `2025-03-01` → 转换为 `"2025-03-01T00:00:00Z"`
+- 用户输入 `2025/9/1` → 转换为 `"2025-09-01T00:00:00Z"`
+- 用户未提供日期 → 使用当天日期 + `T00:00:00Z`，有效期默认 +1 年
+
+**禁止**发送不带时间部分的日期字符串（如 `"2025-03-01"`），API 会拒绝。
+
 ### 执行与汇报

 每次 API 调用后：
+
 1. 检查返回 `code`（0 = 成功）
 2. 记录成功/失败数量
 3. 全部完成后汇总：「共录入 N 条试剂，成功 X 条，失败 Y 条」
@@ -172,28 +199,29 @@ cas,name,molecular_formula,smiles,stock_in_quantity,unit,supplier,production_dat

 ## 常见试剂速查表

-| 名称 | CAS | 分子式 | SMILES |
-|------|-----|--------|--------|
-| 水 | 7732-18-3 | H2O | O |
-| 乙醇 | 64-17-5 | C2H6O | CCO |
-| 甲醇 | 67-56-1 | CH4O | CO |
-| 丙酮 | 67-64-1 | C3H6O | CC(C)=O |
-| 二甲基亚砜(DMSO) | 67-68-5 | C2H6OS | CS(C)=O |
-| 乙酸乙酯 | 141-78-6 | C4H8O2 | CCOC(C)=O |
-| 二氯甲烷 | 75-09-2 | CH2Cl2 | ClCCl |
-| 四氢呋喃(THF) | 109-99-9 | C4H8O | C1CCOC1 |
-| N,N-二甲基甲酰胺(DMF) | 68-12-2 | C3H7NO | CN(C)C=O |
-| 氯仿 | 67-66-3 | CHCl3 | ClC(Cl)Cl |
-| 乙腈 | 75-05-8 | C2H3N | CC#N |
-| 甲苯 | 108-88-3 | C7H8 | Cc1ccccc1 |
-| 正己烷 | 110-54-3 | C6H14 | CCCCCC |
-| 异丙醇 | 67-63-0 | C3H8O | CC(C)O |
-| 盐酸 | 7647-01-0 | HCl | Cl |
-| 硫酸 | 7664-93-9 | H2SO4 | OS(O)(=O)=O |
-| 氢氧化钠 | 1310-73-2 | NaOH | [Na]O |
-| 碳酸钠 | 497-19-8 | Na2CO3 | [Na]OC([O-])=O.[Na+] |
-| 氯化钠 | 7647-14-5 | NaCl | [Na]Cl |
-| 乙二胺四乙酸(EDTA) | 60-00-4 | C10H16N2O8 | OC(=O)CN(CCN(CC(O)=O)CC(O)=O)CC(O)=O |
+| 名称                  | CAS       | 分子式     | SMILES                               |
+| --------------------- | --------- | ---------- | ------------------------------------ |
+| 水                    | 7732-18-3 | H2O        | O                                    |
+| 乙醇                  | 64-17-5   | C2H6O      | CCO                                  |
+| 乙酸                  | 64-19-7   | C2H4O2     | CC(O)=O                              |
+| 甲醇                  | 67-56-1   | CH4O       | CO                                   |
+| 丙酮                  | 67-64-1   | C3H6O      | CC(C)=O                              |
+| 二甲基亚砜(DMSO)      | 67-68-5   | C2H6OS     | CS(C)=O                              |
+| 乙酸乙酯              | 141-78-6  | C4H8O2     | CCOC(C)=O                            |
+| 二氯甲烷              | 75-09-2   | CH2Cl2     | ClCCl                                |
+| 四氢呋喃(THF)         | 109-99-9  | C4H8O      | C1CCOC1                              |
+| N,N-二甲基甲酰胺(DMF) | 68-12-2   | C3H7NO     | CN(C)C=O                             |
+| 氯仿                  | 67-66-3   | CHCl3      | ClC(Cl)Cl                            |
+| 乙腈                  | 75-05-8   | C2H3N      | CC#N                                 |
+| 甲苯                  | 108-88-3  | C7H8       | Cc1ccccc1                            |
+| 正己烷                | 110-54-3  | C6H14      | CCCCCC                               |
+| 异丙醇                | 67-63-0   | C3H8O      | CC(C)O                               |
+| 盐酸                  | 7647-01-0 | HCl        | Cl                                   |
+| 硫酸                  | 7664-93-9 | H2SO4      | OS(O)(=O)=O                          |
+| 氢氧化钠              | 1310-73-2 | NaOH       | [Na]O                                |
+| 碳酸钠                | 497-19-8  | Na2CO3     | [Na]OC([O-])=O.[Na+]                 |
+| 氯化钠                | 7647-14-5 | NaCl       | [Na]Cl                               |
+| 乙二胺四乙酸(EDTA)    | 60-00-4   | C10H16N2O8 | OC(=O)CN(CCN(CC(O)=O)CC(O)=O)CC(O)=O |

 > 此表仅供快速参考。对于不在表中的试剂，agent 应根据化学知识推断或提示用户补充。

--- a/.cursor/skills/batch-submit-experiment/SKILL.md
+++ b/.cursor/skills/batch-submit-experiment/SKILL.md
@@ -1,11 +1,13 @@
 ---
 name: batch-submit-experiment
-description: Batch submit experiments (notebooks) to Uni-Lab platform — list workflows, generate node_params from registry schemas, submit multiple rounds. Use when the user wants to submit experiments, create notebooks, batch run workflows, or mentions 提交实验/批量实验/notebook/实验轮次.
+description: Batch submit experiments (notebooks) to the Uni-Lab cloud platform (leap-lab) — list workflows, generate node_params from registry schemas, submit multiple rounds, check notebook status. Use when the user wants to submit experiments, create notebooks, batch run workflows, check experiment status, or mentions 提交实验/批量实验/notebook/实验轮次/实验状态.
 ---

-# 批量提交实验指南
+# Uni-Lab 批量提交实验指南

-通过云端 API 批量提交实验（notebook），支持多轮实验参数配置。根据 workflow 模板详情和本地设备注册表自动生成 `node_params` 模板。
+通过 Uni-Lab 云端 API 批量提交实验（notebook），支持多轮实验参数配置。根据 workflow 模板详情和本地设备注册表自动生成 `node_params` 模板。
+
+> **重要**：本指南中的 `Authorization: Lab <token>` 是 **Uni-Lab 平台专用的认证方式**，`Lab` 是 Uni-Lab 的 auth scheme 关键字，**不是** HTTP Basic 认证。请勿将其替换为 `Basic`。

 ## 前置条件（缺一不可）

@@ -18,25 +20,28 @@ description: Batch submit experiments (notebooks) to Uni-Lab platform — list w
 生成 AUTH token（任选一种方式）：

 ```bash
-# 方式一：Python 一行生成
+# 方式一：Python 一行生成（注意：scheme 是 "Lab" 不是 "Basic"）
 python -c "import base64,sys; print('Authorization: Lab ' + base64.b64encode(f'{sys.argv[1]}:{sys.argv[2]}'.encode()).decode())" <ak> <sk>

 # 方式二：手动计算
 # base64(ak:sk) → Authorization: Lab <token>
+# ⚠️ 这里的 "Lab" 是 Uni-Lab 平台的 auth scheme，绝对不能用 "Basic" 替代
 ```

 ### 2. --addr → BASE URL

-| `--addr` 值 | BASE |
-|-------------|------|
-| `test` | `https://uni-lab.test.bohrium.com` |
-| `uat` | `https://uni-lab.uat.bohrium.com` |
-| `local` | `http://127.0.0.1:48197` |
-| 不传（默认） | `https://uni-lab.bohrium.com` |
+| `--addr` 值  | BASE                                |
+| ------------ | ----------------------------------- |
+| `test`       | `https://leap-lab.test.bohrium.com` |
+| `uat`        | `https://leap-lab.uat.bohrium.com`  |
+| `local`      | `http://127.0.0.1:48197`            |
+| 不传（默认） | `https://leap-lab.bohrium.com`      |

 确认后设置：
+
 ```bash
 BASE="<根据 addr 确定的 URL>"
+# ⚠️ Auth scheme 必须是 "Lab"（Uni-Lab 专用），不是 "Basic"
 AUTH="Authorization: Lab <上面命令输出的 token>"
 ```

@@ -44,22 +49,23 @@ AUTH="Authorization: Lab <上面命令输出的 token>"

 **批量提交实验时需要本地注册表来解析 workflow 节点的参数 schema。**

-按优先级搜索：
+**必须先用 Glob 工具搜索文件**，不要直接猜测路径：

 ```
-<workspace 根目录>/unilabos_data/req_device_registry_upload.json
-<workspace 根目录>/req_device_registry_upload.json
+Glob: **/req_device_registry_upload.json
 ```

-也可直接 Glob 搜索：`**/req_device_registry_upload.json`
+常见位置（仅供参考，以 Glob 实际结果为准）：
+- `<workspace>/unilabos_data/req_device_registry_upload.json`
+- `<workspace>/req_device_registry_upload.json`

 找到后**检查文件修改时间**并告知用户。超过 1 天提醒用户是否需要重新启动 `unilab`。

-**如果文件不存在** → 告知用户先运行 `unilab` 启动命令，等注册表生成后再执行。可跳过此步，但将无法自动生成参数模板，需要用户手动填写 `param`。
+**如果 Glob 搜索无结果** → 告知用户先运行 `unilab` 启动命令，等注册表生成后再执行。可跳过此步，但将无法自动生成参数模板，需要用户手动填写 `param`。

 ### 4. workflow_uuid（目标工作流）

-用户需要提供要提交的 workflow UUID。如果用户不确定，通过 API #2 列出可用 workflow 供选择。
+用户需要提供要提交的 workflow UUID。如果用户不确定，通过 API #3 列出可用 workflow 供选择。

 **四项全部就绪后才可开始。**

@@ -68,8 +74,9 @@ AUTH="Authorization: Lab <上面命令输出的 token>"
 在整个对话过程中，agent 需要记住以下状态，避免重复询问用户：

 - `lab_uuid` — 实验室 UUID（首次通过 API #1 自动获取，**不需要问用户**）
+- `project_uuid` — 项目 UUID（通过 API #2 列出项目列表，**让用户选择**）
 - `workflow_uuid` — 工作流 UUID（用户提供或从列表选择）
- `workflow_nodes` — workflow 中各 action 节点的 uuid、设备 ID、动作名（从 API #3 获取）
+- `workflow_nodes` — workflow 中各 action 节点的 uuid、设备 ID、动作名（从 API #4 获取）

 ## 请求约定

@@ -92,12 +99,46 @@ curl -s -X GET "$BASE/api/v1/edge/lab/info" -H "$AUTH"
 返回：

 ```json
-{"code": 0, "data": {"uuid": "xxx", "name": "实验室名称"}}
+{ "code": 0, "data": { "uuid": "xxx", "name": "实验室名称" } }
 ```

 记住 `data.uuid` 为 `lab_uuid`。

-### 2. 列出可用 workflow
+### 2. 列出实验室项目（让用户选择项目）
+
+```bash
+curl -s -X GET "$BASE/api/v1/lab/project/list?lab_uuid=$lab_uuid" -H "$AUTH"
+```
+
+返回：
+
+```json
+{
+  "code": 0,
+  "data": {
+    "items": [
+      {
+        "uuid": "1b3f249a-...",
+        "name": "bt",
+        "description": null,
+        "status": "active",
+        "created_at": "2026-04-09T14:31:28+08:00"
+      },
+      {
+        "uuid": "b6366243-...",
+        "name": "default",
+        "description": "默认项目",
+        "status": "active",
+        "created_at": "2026-03-26T11:13:36+08:00"
+      }
+    ]
+  }
+}
+```
+
+展示 `data.items[]` 中每个项目的 `name` 和 `uuid`，让用户选择。用户**必须**选择一个项目，记住 `project_uuid`（即选中项目的 `uuid`），后续创建 notebook 时需要提供。
+
+### 3. 列出可用 workflow

 ```bash
 curl -s -X GET "$BASE/api/v1/lab/workflow/workflows?page=1&page_size=20&lab_uuid=$lab_uuid" -H "$AUTH"
@@ -105,13 +146,14 @@ curl -s -X GET "$BASE/api/v1/lab/workflow/workflows?page=1&page_size=20&lab_uuid

 返回 workflow 列表，展示给用户选择。列出每个 workflow 的 `uuid` 和 `name`。

-### 3. 获取 workflow 模板详情
+### 4. 获取 workflow 模板详情

 ```bash
 curl -s -X GET "$BASE/api/v1/lab/workflow/template/detail/$workflow_uuid" -H "$AUTH"
 ```

 返回 workflow 的完整结构，包含所有 action 节点信息。需要从响应中提取：
+
 - 每个 action 节点的 `node_uuid`
 - 每个节点对应的设备 ID（`resource_template_name`）
 - 每个节点的动作名（`node_template_name`）
@@ -119,7 +161,7 @@ curl -s -X GET "$BASE/api/v1/lab/workflow/template/detail/$workflow_uuid" -H "$A

 > **注意**：此 API 返回格式可能因版本不同而有差异。首次调用时，先打印完整响应分析结构，再提取节点信息。常见的节点字段路径为 `data.nodes[]` 或 `data.workflow_nodes[]`。

-### 4. 提交实验（创建 notebook）
+### 5. 提交实验（创建 notebook）

 ```bash
 curl -s -X POST "$BASE/api/v1/lab/notebook" \
@@ -131,34 +173,45 @@ curl -s -X POST "$BASE/api/v1/lab/notebook" \

 ```json
 {
-    "lab_uuid": "<lab_uuid>",
-    "workflow_uuid": "<workflow_uuid>",
-    "name": "<实验名称>",
-    "node_params": [
+  "lab_uuid": "<lab_uuid>",
+  "project_uuid": "<project_uuid>",
+  "workflow_uuid": "<workflow_uuid>",
+  "name": "<实验名称>",
+  "node_params": [
+    {
+      "sample_uuids": ["<样品UUID1>", "<样品UUID2>"],
+      "datas": [
        {
-            "sample_uuids": ["<样品UUID1>", "<样品UUID2>"],
-            "datas": [
-                {
-                    "node_uuid": "<workflow中的节点UUID>",
-                    "param": {},
-                    "sample_params": [
-                        {
-                            "container_uuid": "<容器UUID>",
-                            "sample_value": {
-                                "liquid_names": "<液体名称>",
-                                "volumes": 1000
-                            }
-                        }
-                    ]
-                }
-            ]
+          "node_uuid": "<workflow中的节点UUID>",
+          "param": {},
+          "sample_params": [
+            {
+              "container_uuid": "<容器UUID>",
+              "sample_value": {
+                "liquid_names": "<液体名称>",
+                "volumes": 1000
+              }
+            }
+          ]
        }
-    ]
+      ]
+    }
+  ]
 }
 ```

 > **注意**：`sample_uuids` 必须是 **UUID 数组**（`[]uuid.UUID`），不是字符串。无样品时传空数组 `[]`。

+### 6. 查询 notebook 状态
+
+提交成功后，使用返回的 notebook UUID 查询执行状态：
+
+```bash
+curl -s -X GET "$BASE/api/v1/lab/notebook/status?uuid=$notebook_uuid" -H "$AUTH"
+```
+
+提交后应**立即查询一次**状态，确认 notebook 已被正确接收并开始调度。
+
 ---

 ## Notebook 请求体详解
@@ -172,25 +225,25 @@ curl -s -X POST "$BASE/api/v1/lab/notebook" \

 ### 每轮的字段

-| 字段 | 类型 | 说明 |
-|------|------|------|
+| 字段           | 类型          | 说明                                      |
+| -------------- | ------------- | ----------------------------------------- |
 | `sample_uuids` | array\<uuid\> | 该轮实验的样品 UUID 数组，无样品时传 `[]` |
-| `datas` | array | 该轮中每个 workflow 节点的参数配置 |
+| `datas`        | array         | 该轮中每个 workflow 节点的参数配置        |

 ### datas 中每个节点

-| 字段 | 类型 | 说明 |
-|------|------|------|
-| `node_uuid` | string | workflow 模板中的节点 UUID（从 API #3 获取） |
-| `param` | object | 动作参数（根据本地注册表 schema 填写） |
-| `sample_params` | array | 样品相关参数（液体名、体积等） |
+| 字段            | 类型   | 说明                                         |
+| --------------- | ------ | -------------------------------------------- |
+| `node_uuid`     | string | workflow 模板中的节点 UUID（从 API #4 获取） |
+| `param`         | object | 动作参数（根据本地注册表 schema 填写）       |
+| `sample_params` | array  | 样品相关参数（液体名、体积等）               |

 ### sample_params 中每条

-| 字段 | 类型 | 说明 |
-|------|------|------|
-| `container_uuid` | string | 容器 UUID |
-| `sample_value` | object | 样品值，如 `{"liquid_names": "水", "volumes": 1000}` |
+| 字段             | 类型   | 说明                                                 |
+| ---------------- | ------ | ---------------------------------------------------- |
+| `container_uuid` | string | 容器 UUID                                            |
+| `sample_value`   | object | 样品值，如 `{"liquid_names": "水", "volumes": 1000}` |

 ---

@@ -211,6 +264,7 @@ python scripts/gen_notebook_params.py \
 > 脚本位于本文档同级目录下的 `scripts/gen_notebook_params.py`。

 脚本会：
+
 1. 调用 workflow detail API 获取所有 action 节点
 2. 读取本地注册表，为每个节点查找对应的 action schema
 3. 生成 `notebook_template.json`，包含：
@@ -222,7 +276,7 @@ python scripts/gen_notebook_params.py \

 如果脚本不可用或注册表不存在：

-1. 调用 API #3 获取 workflow 详情
+1. 调用 API #4 获取 workflow 详情
 2. 找到每个 action 节点的 `node_uuid`
 3. 在本地注册表中查找对应设备的 `action_value_mappings`：
   ```
@@ -248,8 +302,11 @@ python scripts/gen_notebook_params.py \
              "properties": {
                "goal": {
                  "properties": {
-                    "asp_vols": {"type": "array", "items": {"type": "number"}},
-                    "sources": {"type": "array"}
+                    "asp_vols": {
+                      "type": "array",
+                      "items": { "type": "number" }
+                    },
+                    "sources": { "type": "array" }
                  },
                  "required": ["asp_vols", "sources"]
                }
@@ -275,13 +332,15 @@ Task Progress:
 - [ ] Step 1: 确认 ak/sk → 生成 AUTH token
 - [ ] Step 2: 确认 --addr → 设置 BASE URL
 - [ ] Step 3: GET /edge/lab/info → 获取 lab_uuid
- [ ] Step 4: 确认 workflow_uuid（用户提供或从 GET #2 列表选择）
- [ ] Step 5: GET workflow detail (#3) → 提取各节点 uuid、设备ID、动作名
- [ ] Step 6: 定位本地注册表 req_device_registry_upload.json
- [ ] Step 7: 运行 gen_notebook_params.py 或手动匹配 → 生成 node_params 模板
- [ ] Step 8: 引导用户填写每轮的参数（sample_uuids、param、sample_params）
- [ ] Step 9: 构建完整请求体 → POST /lab/notebook 提交
- [ ] Step 10: 检查返回结果，确认提交成功
+- [ ] Step 4: GET /lab/project/list → 列出项目，让用户选择 → 获取 project_uuid
+- [ ] Step 5: 确认 workflow_uuid（用户提供或从 GET #3 列表选择）
+- [ ] Step 6: GET workflow detail (#4) → 提取各节点 uuid、设备ID、动作名
+- [ ] Step 7: 定位本地注册表 req_device_registry_upload.json
+- [ ] Step 8: 运行 gen_notebook_params.py 或手动匹配 → 生成 node_params 模板
+- [ ] Step 9: 引导用户填写每轮的参数（sample_uuids、param、sample_params）
+- [ ] Step 10: 构建完整请求体（含 project_uuid）→ POST /lab/notebook 提交
+- [ ] Step 11: 检查返回结果，记录 notebook UUID
+- [ ] Step 12: GET /lab/notebook/status → 查询 notebook 状态，确认已调度
 ```

 ---
--- a/.cursor/skills/batch-submit-experiment/scripts/gen_notebook_params.py
+++ b/.cursor/skills/batch-submit-experiment/scripts/gen_notebook_params.py
@@ -7,7 +7,7 @@

 选项:
  --auth <token>          Lab token（base64(ak:sk) 的结果，不含 "Lab " 前缀）
-  --base <url>            API 基础 URL（如 https://uni-lab.test.bohrium.com）
+  --base <url>            API 基础 URL（如 https://leap-lab.test.bohrium.com）
  --workflow-uuid <uuid>  目标 workflow 的 UUID
  --registry <path>       本地注册表文件路径（默认自动搜索）
  --rounds <n>            实验轮次数（默认 1）
@@ -17,7 +17,7 @@
 示例:
  python gen_notebook_params.py \\
    --auth YTFmZDlkNGUtxxxx \\
-    --base https://uni-lab.test.bohrium.com \\
+    --base https://leap-lab.test.bohrium.com \\
    --workflow-uuid abc-123-def \\
    --rounds 2
 """
@@ -265,6 +265,7 @@ def generate_template(nodes, registry_index, rounds):

    return {
        "lab_uuid": "$TODO_LAB_UUID",
+        "project_uuid": "$TODO_PROJECT_UUID",
        "workflow_uuid": "$TODO_WORKFLOW_UUID",
        "name": "$TODO_EXPERIMENT_NAME",
        "node_params": node_params,
--- a/.cursor/skills/create-device-skill/SKILL.md
+++ b/.cursor/skills/create-device-skill/SKILL.md
@@ -40,13 +40,13 @@ python ./scripts/gen_auth.py --config <config.py>

 决定 API 请求发往哪个服务器。从启动命令的 `--addr` 参数获取：

-| `--addr` 值 | BASE URL |
-|-------------|----------|
-| `test` | `https://uni-lab.test.bohrium.com` |
-| `uat` | `https://uni-lab.uat.bohrium.com` |
-| `local` | `http://127.0.0.1:48197` |
-| 不传（默认） | `https://uni-lab.bohrium.com` |
-| 其他自定义 URL | 直接使用该 URL |
+| `--addr` 值    | BASE URL                            |
+| -------------- | ----------------------------------- |
+| `test`         | `https://leap-lab.test.bohrium.com` |
+| `uat`          | `https://leap-lab.uat.bohrium.com`  |
+| `local`        | `http://127.0.0.1:48197`            |
+| 不传（默认）   | `https://leap-lab.bohrium.com`      |
+| 其他自定义 URL | 直接使用该 URL                      |

 #### 必备项 ③：req_device_registry_upload.json（设备注册表）

@@ -54,11 +54,11 @@ python ./scripts/gen_auth.py --config <config.py>

 **推断 working_dir**（即 `unilabos_data` 所在目录）：

-| 条件 | working_dir 取值 |
-|------|------------------|
+| 条件                 | working_dir 取值                                         |
+| -------------------- | -------------------------------------------------------- |
 | 传了 `--working_dir` | `<working_dir>/unilabos_data/`（若子目录已存在则直接用） |
-| 仅传了 `--config` | `<config 文件所在目录>/unilabos_data/` |
-| 都没传 | `<当前工作目录>/unilabos_data/` |
+| 仅传了 `--config`    | `<config 文件所在目录>/unilabos_data/`                   |
+| 都没传               | `<当前工作目录>/unilabos_data/`                          |

 **按优先级搜索文件**：

@@ -84,24 +84,6 @@ python ./scripts/gen_auth.py --config <config.py>
 python ./scripts/extract_device_actions.py --registry <找到的文件路径>
 ```

-#### 完整示例
-
-用户提供：
-
-```
--ak a1fd9d4e-xxxx-xxxx-xxxx-d9a69c09f0fd
--sk 136ff5c6-xxxx-xxxx-xxxx-a03e301f827b
--addr test
--port 8003
--disable_browser
-```
-
-从中提取：
- ✅ ak/sk → 运行 `gen_auth.py` 得到 `AUTH="Authorization: Lab YTFmZDlk..."`
- ✅ addr=test → `BASE=https://uni-lab.test.bohrium.com`
- ✅ 搜索 `unilabos_data/req_device_registry_upload.json` → 找到并确认时间
- ✅ 用户指明目标设备 → 如 `liquid_handler.prcxi`
-
 **四项全部就绪后才进入 Step 1。**

 ### Step 1 — 列出可用设备
@@ -129,6 +111,7 @@ python ./scripts/extract_device_actions.py [--registry <path>] <device_id> ./ski
 脚本会显示设备的 Python 源码路径和类名，方便阅读源码了解参数含义。

 每个 action 生成一个 JSON 文件，包含：
+
 - `type` — 作为 API 调用的 `action_type`
 - `schema` — 完整 JSON Schema（含 `properties.goal.properties` 参数定义）
 - `goal` — goal 字段映射（含占位符 `$placeholder`）
@@ -136,13 +119,14 @@ python ./scripts/extract_device_actions.py [--registry <path>] <device_id> ./ski

 ### Step 3 — 写 action-index.md

-按模板为每个 action 写条目：
+按模板为每个 action 写条目（**必须包含 `action_type`**）：

 ```markdown
 ### `<action_name>`

 <用途描述（一句话）>

+- **action_type**: `<从 actions/<name>.json 的 type 字段获取>`
 - **Schema**: [`actions/<filename>.json`](actions/<filename>.json)
 - **核心参数**: `param1`, `param2`（从 schema.required 获取）
 - **可选参数**: `param3`, `param4`
@@ -150,6 +134,8 @@ python ./scripts/extract_device_actions.py [--registry <path>] <device_id> ./ski
 ```

 描述规则：
+
+- **每个 action 必须标注 `action_type`**（从 JSON 的 `type` 字段读取），这是 API #9 调用时的必填参数，传错会导致任务永远卡住
 - 从 `schema.properties` 读参数列表（schema 已提升为 goal 内容）
 - 从 `schema.required` 区分核心/可选参数
 - 按功能分类（移液、枪头、外设等）
@@ -158,12 +144,14 @@ python ./scripts/extract_device_actions.py [--registry <path>] <device_id> ./ski
  - `unilabos_devices` → **DeviceSlot**，填入路径字符串如 `"/host_node"`（从资源树筛选 type=device）
  - `unilabos_nodes` → **NodeSlot**，填入路径字符串如 `"/PRCXI/PRCXI_Deck"`（资源树中任意节点）
  - `unilabos_class` → **ClassSlot**，填入类名字符串如 `"container"`（从注册表查找）
+  - `unilabos_formulation` → **FormulationSlot**，填入配方数组 `[{well_name, liquids: [{name, volume}]}]`（well_name 为目标物料的 name）
 - array 类型字段 → `[{id, name, uuid}, ...]`
 - 特殊：`create_resource` 的 `res_id`（ResourceSlot）可填不存在的路径

 ### Step 4 — 写 SKILL.md

-直接复用 `unilab-device-api` 的 API 模板（10 个 endpoint），修改：
+直接复用 `unilab-device-api` 的 API 模板，修改：
+
 - 设备名称
 - Action 数量
 - 目录列表
@@ -171,43 +159,96 @@ python ./scripts/extract_device_actions.py [--registry <path>] <device_id> ./ski
 - **AUTH 头** — 使用 Step 0 中 `gen_auth.py` 生成的 `Authorization: Lab <token>`（不要硬编码 `Api` 类型的 key）
 - **Python 源码路径** — 在 SKILL.md 开头注明设备对应的源码文件，方便参考参数含义
 - **Slot 字段表** — 列出本设备哪些 action 的哪些字段需要填入 Slot（物料/设备/节点/类名）
+- **action_type 速查表** — 在 API #9 说明后面紧跟一个表格，列出每个 action 对应的 `action_type` 值（从 JSON `type` 字段提取），方便 agent 快速查找而无需打开 JSON 文件

 API 模板结构：

 ```markdown
 ## 设备信息
+
 - device_id, Python 源码路径, 设备类名

 ## 前置条件（缺一不可）
+
 - ak/sk → AUTH, --addr → BASE URL

-## Session State
- lab_uuid（通过 API #1 自动匹配，不要问用户）, device_name
+## 请求约定

-## API Endpoints (10 个)
-# 注意：
-# - #1 获取 lab 列表 + 自动匹配 lab_uuid（遍历 is_admin 的 lab，
-#   调用 /lab/info/{uuid} 比对 access_key == ak）
-# - #2 创建工作流用 POST /lab/workflow
-# - #10 获取资源树路径含 lab_uuid: /lab/material/download/{lab_uuid}
+- Windows 平台必须用 curl.exe（非 PowerShell 的 curl 别名）
+
+## Session State
+
+- lab_uuid（通过 GET /edge/lab/info 直接获取，不要问用户）, device_name
+
+## API Endpoints
+
+# - #1 GET /edge/lab/info → 直接拿到 lab_uuid
+
+# - #2 创建工作流 POST /lab/workflow/owner → 拼 URL 告知用户
+
+# - #3 创建节点 POST /edge/workflow/node
+
+# body: {workflow_uuid, resource_template_name: "<device_id>", node_template_name: "<action_name>"}
+
+# - #4 删除节点 DELETE /lab/workflow/nodes
+
+# - #5 更新节点参数 PATCH /lab/workflow/node
+
+# - #6 查询节点 handles POST /lab/workflow/node-handles
+
+# body: {node_uuids: ["uuid1","uuid2"]} → 返回各节点的 handle_uuid
+
+# - #7 批量创建边 POST /lab/workflow/edges
+
+# body: {edges: [{source_node_uuid, target_node_uuid, source_handle_uuid, target_handle_uuid}]}
+
+# - #8 启动工作流 POST /lab/workflow/{uuid}/run
+
+# - #9 运行设备单动作 POST /lab/mcp/run/action（⚠️ action_type 必须从 action-index.md 或 actions/<name>.json 的 type 字段获取，传错会导致任务永远卡住）
+
+# - #10 查询任务状态 GET /lab/mcp/task/{task_uuid}
+
+# - #11 运行工作流单节点 POST /lab/mcp/run/workflow/action
+
+# - #12 获取资源树 GET /lab/material/download/{lab_uuid}
+
+# - #13 获取工作流模板详情 GET /lab/workflow/template/detail/{workflow_uuid}
+
+# 返回 workflow 完整结构：data.nodes[] 含每个节点的 uuid、name、param、device_name、handles
+
+# - #14 按名称查询物料模板 GET /lab/material/template/by-name?lab_uuid=&name=
+
+# 返回 res_template_uuid，用于 #15 创建物料时的必填字段
+
+# - #15 创建物料节点 POST /edge/material/node
+
+# body: {res_template_uuid(从#14获取), name(自定义), display_name, parent_uuid?(从#12获取), ...}
+
+# - #16 更新物料节点 PUT /edge/material/node
+
+# body: {uuid(从#12获取), display_name?, description?, init_param_data?, data?, ...}

 ## Placeholder Slot 填写规则
+
 - unilabos_resources → ResourceSlot → {"id":"/path/name","name":"name","uuid":"xxx"}
 - unilabos_devices → DeviceSlot → "/parent/device" 路径字符串
 - unilabos_nodes → NodeSlot → "/parent/node" 路径字符串
 - unilabos_class → ClassSlot → "class_name" 字符串
+- unilabos_formulation → FormulationSlot → [{well_name, liquids: [{name, volume}]}] 配方数组
 - 特例：create_resource 的 res_id 允许填不存在的路径
 - 列出本设备所有 Slot 字段、类型及含义

 ## 渐进加载策略
+
 ## 完整工作流 Checklist
 ```

 ### Step 5 — 验证

 检查文件完整性：
- [ ] `SKILL.md` 包含 10 个 API endpoint
- [ ] `SKILL.md` 包含 Placeholder Slot 填写规则（ResourceSlot / DeviceSlot / NodeSlot / ClassSlot + create_resource 特例）和本设备的 Slot 字段表
+
+- [ ] `SKILL.md` 包含 API endpoint（#1 获取 lab_uuid、#2-#7 工作流/节点/边、#8-#11 运行/查询、#12 资源树、#13 工作流模板详情、#14-#16 物料管理）
+- [ ] `SKILL.md` 包含 Placeholder Slot 填写规则（ResourceSlot / DeviceSlot / NodeSlot / ClassSlot / FormulationSlot + create_resource 特例）和本设备的 Slot 字段表
 - [ ] `action-index.md` 列出所有 action 并有描述
 - [ ] `actions/` 目录中每个 action 有对应 JSON 文件
 - [ ] JSON 文件包含 `type`, `schema`（已提升为 goal 内容）, `goal`, `goal_default`, `placeholder_keys` 字段
@@ -249,71 +290,202 @@ API 模板结构：
 ```

 > **注意**：`schema` 已由脚本从原始 `schema.properties.goal` 提升为顶层，直接包含参数定义。
-> `schema.properties` 中的字段即为 API 请求 `param.goal` 中的字段。
+> `schema.properties` 中的字段即为 API 创建节点返回的 `data.param` 中的字段，PATCH 更新时直接修改 `param` 即可。

 ## Placeholder Slot 类型体系

-`placeholder_keys` / `_unilabos_placeholder_info` 中有 4 种值，对应不同的填写方式：
+`placeholder_keys` / `_unilabos_placeholder_info` 中有 5 种值，对应不同的填写方式：

-| placeholder 值 | Slot 类型 | 填写格式 | 选取范围 |
-|---------------|-----------|---------|---------|
-| `unilabos_resources` | ResourceSlot | `{"id": "/path/name", "name": "name", "uuid": "xxx"}` | 仅**物料**节点（不含设备） |
-| `unilabos_devices` | DeviceSlot | `"/parent/device_name"` | 仅**设备**节点（type=device），路径字符串 |
-| `unilabos_nodes` | NodeSlot | `"/parent/node_name"` | **设备 + 物料**，即所有节点，路径字符串 |
-| `unilabos_class` | ClassSlot | `"class_name"` | 注册表中已上报的资源类 name |
+| placeholder 值         | Slot 类型       | 填写格式                                              | 选取范围                                  |
+| ---------------------- | --------------- | ----------------------------------------------------- | ----------------------------------------- |
+| `unilabos_resources`   | ResourceSlot    | `{"id": "/path/name", "name": "name", "uuid": "xxx"}` | 仅**物料**节点（不含设备）                |
+| `unilabos_devices`     | DeviceSlot      | `"/parent/device_name"`                               | 仅**设备**节点（type=device），路径字符串 |
+| `unilabos_nodes`       | NodeSlot        | `"/parent/node_name"`                                 | **设备 + 物料**，即所有节点，路径字符串   |
+| `unilabos_class`       | ClassSlot       | `"class_name"`                                        | 注册表中已上报的资源类 name               |
+| `unilabos_formulation` | FormulationSlot | `[{well_name, liquids: [{name, volume}]}]`            | 资源树中物料节点的 **name**，配合液体配方 |

 ### ResourceSlot（`unilabos_resources`）

 最常见的类型。从资源树中选取**物料**节点（孔板、枪头盒、试剂槽等）：

+- 单个：`{"id": "/workstation/container1", "name": "container1", "uuid": "ff149a9a-..."}`
+- 数组：`[{"id": "/path/a", "name": "a", "uuid": "xxx"}, ...]`
+- `id` 从 parent 计算的路径格式，根据 action 语义选择正确的物料
+
+> **特例**：`create_resource` 的 `res_id`，目标物料可能尚不存在，直接填期望路径，不需要 uuid。
+
+### DeviceSlot / NodeSlot / ClassSlot
+
+- **DeviceSlot**（`unilabos_devices`）：路径字符串如 `"/host_node"`，仅 type=device 的节点
+- **NodeSlot**（`unilabos_nodes`）：路径字符串如 `"/PRCXI/PRCXI_Deck"`，设备 + 物料均可选
+- **ClassSlot**（`unilabos_class`）：类名字符串如 `"container"`，从 `req_resource_registry_upload.json` 查找
+
+### FormulationSlot（`unilabos_formulation`）
+
+描述**液体配方**：向哪些容器中加入哪些液体及体积。
+
 ```json
-{"id": "/workstation/container1", "name": "container1", "uuid": "ff149a9a-2cb8-419d-8db5-d3ba056fb3c2"}
+[
+  {
+    "sample_uuid": "",
+    "well_name": "bottle_A1",
+    "liquids": [{ "name": "LiPF6", "volume": 0.6 }]
+  }
+]
 ```

- 单个（schema type=object）：`{"id": "/path/name", "name": "name", "uuid": "xxx"}`
- 数组（schema type=array）：`[{"id": "/path/a", "name": "a", "uuid": "xxx"}, ...]`
- `id` 本身是从 parent 计算的路径格式
- 根据 action 语义选择正确的物料（如 `sources` = 液体来源，`targets` = 目标位置）
+- `well_name` — 目标物料的 **name**（从资源树取，不是 `id` 路径）
+- `liquids[]` — 液体列表，每条含 `name`（试剂名）和 `volume`（体积，单位由上下文决定；pylabrobot 内部统一 uL）
+- `sample_uuid` — 样品 UUID，无样品传 `""`
+- 与 ResourceSlot 的区别：ResourceSlot 指向物料本身，FormulationSlot 引用物料名并附带配方信息

-> **特例**：`create_resource` 的 `res_id` 字段，目标物料可能**尚不存在**，此时直接填写期望的路径（如 `"/workstation/container1"`），不需要 uuid。
-
-### DeviceSlot（`unilabos_devices`）
-
-填写**设备路径字符串**。从资源树中筛选 type=device 的节点，从 parent 计算路径：
-
-```
-"/host_node"
-"/bioyond_cell/reaction_station"
-```
-
- 只填路径字符串，不需要 `{id, uuid}` 对象
- 根据 action 语义选择正确的设备（如 `target_device_id` = 目标设备）
-
-### NodeSlot（`unilabos_nodes`）
-
-范围 = 设备 + 物料。即资源树中**所有节点**都可以选，填写**路径字符串**：
-
-```
-"/PRCXI/PRCXI_Deck"
-```
-
- 使用场景：当参数既可能指向物料也可能指向设备时（如 `PumpTransferProtocol` 的 `from_vessel`/`to_vessel`，`create_resource` 的 `parent`）
-
-### ClassSlot（`unilabos_class`）
-
-填写注册表中已上报的**资源类 name**。从本地 `req_resource_registry_upload.json` 中查找：
-
-```
-"container"
-```
-
-### 通过 API #10 获取资源树
+### 通过 API #12 获取资源树

 ```bash
 curl -s -X GET "$BASE/api/v1/lab/material/download/$lab_uuid" -H "$AUTH"
 ```

-注意 `lab_uuid` 在路径中（不是查询参数）。资源树返回所有节点，每个节点包含 `id`（路径格式）、`name`、`uuid`、`type`、`parent` 等字段。填写 Slot 时需根据 placeholder 类型筛选正确的节点。
+注意 `lab_uuid` 在路径中（不是查询参数）。返回结构：
+
+```json
+{
+  "code": 0,
+  "data": {
+    "nodes": [
+      {"name": "host_node", "uuid": "c3ec1e68-...", "type": "device", "parent": ""},
+      {"name": "PRCXI", "uuid": "e249c9a6-...", "type": "device", "parent": ""},
+      {"name": "PRCXI_Deck", "uuid": "fb6a8b71-...", "type": "deck", "parent": "PRCXI"}
+    ],
+    "edges": [...]
+  }
+}
+```
+
+- `data.nodes[]` — 所有节点（设备 + 物料），每个节点含 `name`、`uuid`、`type`、`parent`
+- `type` 区分设备（`device`）和物料（`deck`、`container`、`resource` 等）
+- `parent` 为父节点名称（空字符串表示顶级）
+- 填写 Slot 时根据 placeholder 类型筛选：ResourceSlot 取非 device 节点，DeviceSlot 取 device 节点
+- 创建/更新物料时：`parent_uuid` 取父节点的 `uuid`，更新目标的 `uuid` 取节点自身的 `uuid`
+
+## 物料管理 API
+
+设备 Skill 除了设备动作外，还需支持物料节点的创建和参数设定，用于在资源树中动态管理物料。
+
+典型流程：先通过 **#14 按名称查询模板** 获取 `res_template_uuid` → 再通过 **#15 创建物料** → 之后可通过 **#16 更新物料** 修改属性。更新时需要的 `uuid` 和 `parent_uuid` 均从 **#12 资源树下载** 获取。
+
+### API #14 — 按名称查询物料模板
+
+创建物料前，需要先获取物料模板的 UUID。通过模板名称查询：
+
+```bash
+curl -s -X GET "$BASE/api/v1/lab/material/template/by-name?lab_uuid=$lab_uuid&name=<template_name>" -H "$AUTH"
+```
+
+| 参数       | 必填   | 说明                             |
+| ---------- | ------ | -------------------------------- |
+| `lab_uuid` | **是** | 实验室 UUID（从 API #1 获取）    |
+| `name`     | **是** | 物料模板名称（如 `"container"`） |
+
+返回 `code: 0` 时，**`data.uuid`** 即为 `res_template_uuid`，用于 API #15 创建物料。返回还包含 `name`、`resource_type`、`handles`、`config_infos` 等模板元信息。
+
+模板不存在时返回 `code: 10002`，`data` 为空对象。模板名称来自资源注册表中已注册的资源类型。
+
+### API #15 — 创建物料节点
+
+```bash
+curl -s -X POST "$BASE/api/v1/edge/material/node" \
+  -H "$AUTH" -H "Content-Type: application/json" \
+  -d '<request_body>'
+```
+
+请求体：
+
+```json
+{
+  "res_template_uuid": "xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx",
+  "name": "my_custom_bottle",
+  "display_name": "自定义瓶子",
+  "parent_uuid": "xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx",
+  "type": "",
+  "init_param_data": {},
+  "schema": {},
+  "data": {
+    "liquids": [["water", 1000, "uL"]],
+    "max_volume": 50000
+  },
+  "plate_well_datas": {},
+  "plate_reagent_datas": {},
+  "pose": {},
+  "model": {}
+}
+```
+
+| 字段                  | 必填   | 类型          | 数据来源                            | 说明                                   |
+| --------------------- | ------ | ------------- | ----------------------------------- | -------------------------------------- |
+| `res_template_uuid`   | **是** | string (UUID) | **API #14** 按名称查询获取          | 物料模板 UUID                          |
+| `name`                | 否     | string        | **用户自定义**                      | 节点名称（标识符），可自由命名         |
+| `display_name`        | 否     | string        | 用户自定义                          | 显示名称（UI 展示用）                  |
+| `parent_uuid`         | 否     | string (UUID) | **API #12** 资源树中父节点的 `uuid` | 父节点，为空则创建顶级节点             |
+| `type`                | 否     | string        | 从模板继承                          | 节点类型                               |
+| `init_param_data`     | 否     | object        | 用户指定                            | 初始化参数，覆盖模板默认值             |
+| `data`                | 否     | object        | 用户指定                            | 节点数据，container 见下方 data 格式   |
+| `plate_well_datas`    | 否     | object        | 用户指定                            | 孔板子节点数据（创建带孔位的板时使用） |
+| `plate_reagent_datas` | 否     | object        | 用户指定                            | 试剂关联数据                           |
+| `schema`              | 否     | object        | 从模板继承                          | 自定义 schema，不传则从模板继承        |
+| `pose`                | 否     | object        | 用户指定                            | 位姿信息                               |
+| `model`               | 否     | object        | 用户指定                            | 3D 模型信息                            |
+
+#### container 的 `data` 格式
+
+> **体积单位统一为 uL（微升）**。pylabrobot 体系中所有体积值（`max_volume`、`liquids` 中的 volume）均为 uL。外部如果是 mL 需乘 1000 转换。
+
+```json
+{
+  "liquids": [["water", 1000, "uL"], ["ethanol", 500, "uL"]],
+  "max_volume": 50000
+}
+```
+
+- `liquids` — 液体列表，每条为 `[液体名称, 体积(uL), 单位字符串]`
+- `max_volume` — 容器最大容量（uL），如 50 mL = 50000 uL
+
+### API #16 — 更新物料节点
+
+```bash
+curl -s -X PUT "$BASE/api/v1/edge/material/node" \
+  -H "$AUTH" -H "Content-Type: application/json" \
+  -d '<request_body>'
+```
+
+请求体：
+
+```json
+{
+  "uuid": "xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx",
+  "parent_uuid": "xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx",
+  "display_name": "新显示名称",
+  "description": "新描述",
+  "init_param_data": {},
+  "data": {},
+  "pose": {},
+  "schema": {},
+  "extra": {}
+}
+```
+
+| 字段              | 必填   | 类型          | 数据来源                              | 说明             |
+| ----------------- | ------ | ------------- | ------------------------------------- | ---------------- |
+| `uuid`            | **是** | string (UUID) | **API #12** 资源树中目标节点的 `uuid` | 要更新的物料节点 |
+| `parent_uuid`     | 否     | string (UUID) | API #12 资源树                        | 移动到新父节点   |
+| `display_name`    | 否     | string        | 用户指定                              | 更新显示名称     |
+| `description`     | 否     | string        | 用户指定                              | 更新描述         |
+| `init_param_data` | 否     | object        | 用户指定                              | 更新初始化参数   |
+| `data`            | 否     | object        | 用户指定                              | 更新节点数据     |
+| `pose`            | 否     | object        | 用户指定                              | 更新位姿         |
+| `schema`          | 否     | object        | 用户指定                              | 更新 schema      |
+| `extra`           | 否     | object        | 用户指定                              | 更新扩展数据     |
+
+> 只传需要更新的字段，未传的字段保持不变。

 ## 最终目录结构

--- a/.cursor/skills/host-node/SKILL.md
+++ b/.cursor/skills/host-node/SKILL.md
@@ -0,0 +1,251 @@
+---
+name: host-node
+description: Operate Uni-Lab host node via REST API — create resources, test latency, test resource tree, manual confirm. Use when the user mentions host_node, creating resources, resource management, testing latency, or any host node operation.
+---
+
+# Host Node API Skill
+
+## 设备信息
+
+- **device_id**: `host_node`
+- **Python 源码**: `unilabos/ros/nodes/presets/host_node.py`
+- **设备类**: `HostNode`
+- **动作数**: 4（`create_resource`, `test_latency`, `auto-test_resource`, `manual_confirm`）
+
+## 前置条件（缺一不可）
+
+使用本 skill 前，**必须**先确认以下信息。如果缺少任何一项，**立即向用户询问并终止**，等补齐后再继续。
+
+### 1. ak / sk → AUTH
+
+从启动参数 `--ak` `--sk` 或 config.py 中获取，生成 token：`base64(ak:sk)` → `Authorization: Lab <token>`
+
+### 2. --addr → BASE URL
+
+| `--addr` 值  | BASE                                |
+| ------------ | ----------------------------------- |
+| `test`       | `https://leap-lab.test.bohrium.com` |
+| `uat`        | `https://leap-lab.uat.bohrium.com`  |
+| `local`      | `http://127.0.0.1:48197`            |
+| 不传（默认） | `https://leap-lab.bohrium.com`      |
+
+确认后设置：
+
+```bash
+BASE="<根据 addr 确定的 URL>"
+AUTH="Authorization: Lab <token>"
+```
+
+**两项全部就绪后才可发起 API 请求。**
+
+## Session State
+
+在整个对话过程中，agent 需要记住以下状态，避免重复询问用户：
+
+- `lab_uuid` — 实验室 UUID（首次通过 API #1 自动获取，**不需要问用户**）
+- `device_name` — `host_node`
+
+## 请求约定
+
+所有请求使用 `curl -s`，POST/PATCH/DELETE 需加 `Content-Type: application/json`。
+
+> **Windows 平台**必须使用 `curl.exe`（而非 PowerShell 的 `curl` 别名）。
+
+---
+
+## API Endpoints
+
+### 1. 获取实验室信息（自动获取 lab_uuid）
+
+```bash
+curl -s -X GET "$BASE/api/v1/edge/lab/info" -H "$AUTH"
+```
+
+返回 `data.uuid` 为 `lab_uuid`，`data.name` 为 `lab_name`。
+
+### 2. 创建工作流
+
+```bash
+curl -s -X POST "$BASE/api/v1/lab/workflow/owner" \
+  -H "$AUTH" -H "Content-Type: application/json" \
+  -d '{"name":"<名称>","lab_uuid":"<lab_uuid>","description":"<描述>"}'
+```
+
+返回 `data.uuid` 为 `workflow_uuid`。创建成功后告知用户链接：`$BASE/laboratory/$lab_uuid/workflow/$workflow_uuid`
+
+### 3. 创建节点
+
+```bash
+curl -s -X POST "$BASE/api/v1/edge/workflow/node" \
+  -H "$AUTH" -H "Content-Type: application/json" \
+  -d '{"workflow_uuid":"<workflow_uuid>","resource_template_name":"host_node","node_template_name":"<action_name>"}'
+```
+
+- `resource_template_name` 固定为 `host_node`
+- `node_template_name` — action 名称（如 `create_resource`, `test_latency`）
+
+### 4. 删除节点
+
+```bash
+curl -s -X DELETE "$BASE/api/v1/lab/workflow/nodes" \
+  -H "$AUTH" -H "Content-Type: application/json" \
+  -d '{"node_uuids":["<uuid1>"],"workflow_uuid":"<workflow_uuid>"}'
+```
+
+### 5. 更新节点参数
+
+```bash
+curl -s -X PATCH "$BASE/api/v1/lab/workflow/node" \
+  -H "$AUTH" -H "Content-Type: application/json" \
+  -d '{"workflow_uuid":"<wf_uuid>","uuid":"<node_uuid>","param":{...}}'
+```
+
+`param` 直接使用创建节点返回的 `data.param` 结构，修改需要填入的字段值。参考 [action-index.md](action-index.md) 确定哪些字段是 Slot。
+
+### 6. 查询节点 handles
+
+```bash
+curl -s -X POST "$BASE/api/v1/lab/workflow/node-handles" \
+  -H "$AUTH" -H "Content-Type: application/json" \
+  -d '{"node_uuids":["<node_uuid_1>","<node_uuid_2>"]}'
+```
+
+### 7. 批量创建边
+
+```bash
+curl -s -X POST "$BASE/api/v1/lab/workflow/edges" \
+  -H "$AUTH" -H "Content-Type: application/json" \
+  -d '{"edges":[{"source_node_uuid":"<uuid>","target_node_uuid":"<uuid>","source_handle_uuid":"<uuid>","target_handle_uuid":"<uuid>"}]}'
+```
+
+### 8. 启动工作流
+
+```bash
+curl -s -X POST "$BASE/api/v1/lab/workflow/<workflow_uuid>/run" -H "$AUTH"
+```
+
+### 9. 运行设备单动作
+
+```bash
+curl -s -X POST "$BASE/api/v1/lab/mcp/run/action" \
+  -H "$AUTH" -H "Content-Type: application/json" \
+  -d '{"lab_uuid":"<lab_uuid>","device_id":"host_node","action":"<action_name>","action_type":"<type>","param":{...}}'
+```
+
+`param` 直接放 goal 里的属性，**不要**再包一层 `{"goal": {...}}`。
+
+> **WARNING: `action_type` 必须正确，传错会导致任务永远卡住无法完成。** 从下表或 `actions/<name>.json` 的 `type` 字段获取。
+
+#### action_type 速查表
+
+| action | action_type |
+|--------|-------------|
+| `test_latency` | `UniLabJsonCommand` |
+| `create_resource` | `ResourceCreateFromOuterEasy` |
+| `auto-test_resource` | `UniLabJsonCommand` |
+| `manual_confirm` | `UniLabJsonCommand` |
+
+### 10. 查询任务状态
+
+```bash
+curl -s -X GET "$BASE/api/v1/lab/mcp/task/<task_uuid>" -H "$AUTH"
+```
+
+### 11. 运行工作流单节点
+
+```bash
+curl -s -X POST "$BASE/api/v1/lab/mcp/run/workflow/action" \
+  -H "$AUTH" -H "Content-Type: application/json" \
+  -d '{"node_uuid":"<node_uuid>"}'
+```
+
+### 12. 获取资源树（物料信息）
+
+```bash
+curl -s -X GET "$BASE/api/v1/lab/material/download/$lab_uuid" -H "$AUTH"
+```
+
+注意 `lab_uuid` 在路径中。返回 `data.nodes[]` 含所有节点（设备 + 物料），每个节点含 `name`、`uuid`、`type`、`parent`。
+
+### 13. 获取工作流模板详情
+
+```bash
+curl -s -X GET "$BASE/api/v1/lab/workflow/template/detail/$workflow_uuid" -H "$AUTH"
+```
+
+> 必须使用 `/lab/workflow/template/detail/{uuid}`，其他路径会返回 404。
+
+### 14. 按名称查询物料模板
+
+```bash
+curl -s -X GET "$BASE/api/v1/lab/material/template/by-name?lab_uuid=$lab_uuid&name=<template_name>" -H "$AUTH"
+```
+
+返回 `data.uuid` 为 `res_template_uuid`，用于 API #15。
+
+### 15. 创建物料节点
+
+```bash
+curl -s -X POST "$BASE/api/v1/edge/material/node" \
+  -H "$AUTH" -H "Content-Type: application/json" \
+  -d '{"res_template_uuid":"<uuid>","name":"<名称>","display_name":"<显示名>","parent_uuid":"<父节点uuid>","data":{...}}'
+```
+
+### 16. 更新物料节点
+
+```bash
+curl -s -X PUT "$BASE/api/v1/edge/material/node" \
+  -H "$AUTH" -H "Content-Type: application/json" \
+  -d '{"uuid":"<节点uuid>","display_name":"<新名称>","data":{...}}'
+```
+
+---
+
+## Placeholder Slot 填写规则
+
+| `placeholder_keys` 值 | Slot 类型    | 填写格式                                              | 选取范围               |
+| --------------------- | ------------ | ----------------------------------------------------- | ---------------------- |
+| `unilabos_resources`  | ResourceSlot | `{"id": "/path/name", "name": "name", "uuid": "xxx"}` | 仅物料节点（非设备）   |
+| `unilabos_devices`    | DeviceSlot   | `"/parent/device_name"`                               | 仅设备节点（type=device） |
+| `unilabos_nodes`      | NodeSlot     | `"/parent/node_name"`                                 | 所有节点（设备 + 物料）   |
+| `unilabos_class`      | ClassSlot    | `"class_name"`                                        | 注册表中已注册的资源类    |
+
+### host_node 设备的 Slot 字段表
+
+| Action            | 字段        | Slot 类型    | 说明                           |
+| ----------------- | ----------- | ------------ | ------------------------------ |
+| `create_resource` | `res_id`    | ResourceSlot | 新资源路径（可填不存在的路径） |
+| `create_resource` | `device_id` | DeviceSlot   | 归属设备                       |
+| `create_resource` | `parent`    | NodeSlot     | 父节点路径                     |
+| `create_resource` | `class_name`| ClassSlot    | 资源类名如 `"container"`       |
+| `auto-test_resource` | `resource`  | ResourceSlot | 单个测试物料                |
+| `auto-test_resource` | `resources` | ResourceSlot | 测试物料数组                |
+| `auto-test_resource` | `device`    | DeviceSlot   | 测试设备                    |
+| `auto-test_resource` | `devices`   | DeviceSlot   | 测试设备                    |
+
+---
+
+## 渐进加载策略
+
+1. **SKILL.md**（本文件）— API 端点 + session state 管理
+2. **[action-index.md](action-index.md)** — 按分类浏览 4 个动作的描述和核心参数
+3. **[actions/\<name\>.json](actions/)** — 仅在需要构建具体请求时，加载对应 action 的完整 JSON Schema
+
+---
+
+## 完整工作流 Checklist
+
+```
+Task Progress:
+- [ ] Step 1: GET /edge/lab/info 获取 lab_uuid
+- [ ] Step 2: 获取资源树 (GET #12) → 记住可用物料
+- [ ] Step 3: 读 action-index.md 确定要用的 action 名
+- [ ] Step 4: 创建工作流 (POST #2) → 记住 workflow_uuid，告知用户链接
+- [ ] Step 5: 创建节点 (POST #3, resource_template_name=host_node) → 记住 node_uuid + data.param
+- [ ] Step 6: 根据 _unilabos_placeholder_info 和资源树，填写 data.param 中的 Slot 字段
+- [ ] Step 7: 更新节点参数 (PATCH #5)
+- [ ] Step 8: 查询节点 handles (POST #6) → 获取各节点的 handle_uuid
+- [ ] Step 9: 批量创建边 (POST #7) → 用 handle_uuid 连接节点
+- [ ] Step 10: 启动工作流 (POST #8) 或运行单节点 (POST #11)
+- [ ] Step 11: 查询任务状态 (GET #10) 确认完成
+```
--- a/.cursor/skills/host-node/action-index.md
+++ b/.cursor/skills/host-node/action-index.md
@@ -0,0 +1,58 @@
+# Action Index — host_node
+
+4 个动作，按功能分类。每个动作的完整 JSON Schema 在 `actions/<name>.json`。
+
+---
+
+## 资源管理
+
+### `create_resource`
+
+在资源树中创建新资源（容器、物料等），支持指定位置、类型和初始液体
+
+- **action_type**: `ResourceCreateFromOuterEasy`
+- **Schema**: [`actions/create_resource.json`](actions/create_resource.json)
+- **可选参数**: `res_id`, `device_id`, `class_name`, `parent`, `bind_locations`, `liquid_input_slot`, `liquid_type`, `liquid_volume`, `slot_on_deck`
+- **占位符字段**:
+  - `res_id` — **ResourceSlot**（特例：目标物料可能尚不存在，直接填期望路径）
+  - `device_id` — **DeviceSlot**，填路径字符串如 `"/host_node"`
+  - `parent` — **NodeSlot**，填路径字符串如 `"/workstation/deck"`
+  - `class_name` — **ClassSlot**，填类名如 `"container"`
+
+### `auto-test_resource`
+
+测试资源系统，返回当前资源树和设备列表
+
+- **action_type**: `UniLabJsonCommand`
+- **Schema**: [`actions/test_resource.json`](actions/test_resource.json)
+- **可选参数**: `resource`, `resources`, `device`, `devices`
+- **占位符字段**:
+  - `resource` — **ResourceSlot**，单个物料节点 `{id, name, uuid}`
+  - `resources` — **ResourceSlot**，物料节点数组 `[{id, name, uuid}, ...]`
+  - `device` — **DeviceSlot**，设备路径字符串
+  - `devices` — **DeviceSlot**，设备路径字符串
+
+---
+
+## 系统工具
+
+### `test_latency`
+
+测试设备通信延迟，返回 RTT、时间差、任务延迟等指标
+
+- **action_type**: `UniLabJsonCommand`
+- **Schema**: [`actions/test_latency.json`](actions/test_latency.json)
+- **参数**: 无（零参数调用）
+
+---
+
+## 人工确认
+
+### `manual_confirm`
+
+创建人工确认节点，等待用户手动确认后继续
+
+- **action_type**: `UniLabJsonCommand`
+- **Schema**: [`actions/manual_confirm.json`](actions/manual_confirm.json)
+- **核心参数**: `timeout_seconds`（超时时间，秒）, `assignee_user_ids`（指派用户 ID 列表）
+- **占位符字段**: `assignee_user_ids` — `unilabos_manual_confirm` 类型
--- a/.cursor/skills/host-node/actions/create_resource.json
+++ b/.cursor/skills/host-node/actions/create_resource.json
@@ -0,0 +1,93 @@
+{
+  "type": "ResourceCreateFromOuterEasy",
+  "goal": {
+    "res_id": "res_id",
+    "class_name": "class_name",
+    "parent": "parent",
+    "device_id": "device_id",
+    "bind_locations": "bind_locations",
+    "liquid_input_slot": "liquid_input_slot[]",
+    "liquid_type": "liquid_type[]",
+    "liquid_volume": "liquid_volume[]",
+    "slot_on_deck": "slot_on_deck"
+  },
+  "schema": {
+    "type": "object",
+    "properties": {
+      "res_id": {
+        "type": "string"
+      },
+      "device_id": {
+        "type": "string"
+      },
+      "class_name": {
+        "type": "string"
+      },
+      "parent": {
+        "type": "string"
+      },
+      "bind_locations": {
+        "type": "object",
+        "properties": {
+          "x": {
+            "type": "number",
+            "minimum": -1.7976931348623157e+308,
+            "maximum": 1.7976931348623157e+308
+          },
+          "y": {
+            "type": "number",
+            "minimum": -1.7976931348623157e+308,
+            "maximum": 1.7976931348623157e+308
+          },
+          "z": {
+            "type": "number",
+            "minimum": -1.7976931348623157e+308,
+            "maximum": 1.7976931348623157e+308
+          }
+        },
+        "required": [
+          "x",
+          "y",
+          "z"
+        ],
+        "title": "bind_locations",
+        "additionalProperties": false
+      },
+      "liquid_input_slot": {
+        "type": "array",
+        "items": {
+          "type": "integer"
+        }
+      },
+      "liquid_type": {
+        "type": "array",
+        "items": {
+          "type": "string"
+        }
+      },
+      "liquid_volume": {
+        "type": "array",
+        "items": {
+          "type": "number"
+        }
+      },
+      "slot_on_deck": {
+        "type": "string"
+      }
+    },
+    "required": [],
+    "_unilabos_placeholder_info": {
+      "res_id": "unilabos_resources",
+      "device_id": "unilabos_devices",
+      "parent": "unilabos_nodes",
+      "class_name": "unilabos_class"
+    }
+  },
+  "goal_default": {},
+  "placeholder_keys": {
+    "res_id": "unilabos_resources",
+    "device_id": "unilabos_devices",
+    "parent": "unilabos_nodes",
+    "class_name": "unilabos_class"
+  }
+}
--- a/.cursor/skills/host-node/actions/manual_confirm.json
+++ b/.cursor/skills/host-node/actions/manual_confirm.json
@@ -0,0 +1,32 @@
+{
+  "type": "UniLabJsonCommand",
+  "goal": {
+    "timeout_seconds": "timeout_seconds",
+    "assignee_user_ids": "assignee_user_ids"
+  },
+  "schema": {
+    "type": "object",
+    "properties": {
+      "timeout_seconds": {
+        "type": "integer"
+      },
+      "assignee_user_ids": {
+        "type": "array",
+        "items": {
+          "type": "string"
+        }
+      }
+    },
+    "required": [
+      "timeout_seconds",
+      "assignee_user_ids"
+    ],
+    "_unilabos_placeholder_info": {
+      "assignee_user_ids": "unilabos_manual_confirm"
+    }
+  },
+  "goal_default": {},
+  "placeholder_keys": {
+    "assignee_user_ids": "unilabos_manual_confirm"
+  }
+}
--- a/.cursor/skills/host-node/actions/test_latency.json
+++ b/.cursor/skills/host-node/actions/test_latency.json
@@ -0,0 +1,11 @@
+{
+  "type": "UniLabJsonCommand",
+  "goal": {},
+  "schema": {
+    "type": "object",
+    "properties": {},
+    "required": []
+  },
+  "goal_default": {},
+  "placeholder_keys": {}
+}
--- a/.cursor/skills/host-node/actions/test_resource.json
+++ b/.cursor/skills/host-node/actions/test_resource.json
@@ -0,0 +1,255 @@
+{
+  "type": "UniLabJsonCommand",
+  "goal": {
+    "resource": "resource",
+    "resources": "resources",
+    "device": "device",
+    "devices": "devices"
+  },
+  "schema": {
+    "type": "object",
+    "properties": {
+      "resource": {
+        "type": "object",
+        "additionalProperties": false,
+        "properties": {
+          "id": {
+            "type": "string"
+          },
+          "name": {
+            "type": "string"
+          },
+          "sample_id": {
+            "type": "string"
+          },
+          "children": {
+            "type": "array",
+            "items": {
+              "type": "string"
+            }
+          },
+          "parent": {
+            "type": "string"
+          },
+          "type": {
+            "type": "string"
+          },
+          "category": {
+            "type": "string"
+          },
+          "pose": {
+            "type": "object",
+            "properties": {
+              "position": {
+                "type": "object",
+                "properties": {
+                  "x": {
+                    "type": "number",
+                    "minimum": -1.7976931348623157e+308,
+                    "maximum": 1.7976931348623157e+308
+                  },
+                  "y": {
+                    "type": "number",
+                    "minimum": -1.7976931348623157e+308,
+                    "maximum": 1.7976931348623157e+308
+                  },
+                  "z": {
+                    "type": "number",
+                    "minimum": -1.7976931348623157e+308,
+                    "maximum": 1.7976931348623157e+308
+                  }
+                },
+                "required": [
+                  "x",
+                  "y",
+                  "z"
+                ],
+                "title": "position",
+                "additionalProperties": false
+              },
+              "orientation": {
+                "type": "object",
+                "properties": {
+                  "x": {
+                    "type": "number",
+                    "minimum": -1.7976931348623157e+308,
+                    "maximum": 1.7976931348623157e+308
+                  },
+                  "y": {
+                    "type": "number",
+                    "minimum": -1.7976931348623157e+308,
+                    "maximum": 1.7976931348623157e+308
+                  },
+                  "z": {
+                    "type": "number",
+                    "minimum": -1.7976931348623157e+308,
+                    "maximum": 1.7976931348623157e+308
+                  },
+                  "w": {
+                    "type": "number",
+                    "minimum": -1.7976931348623157e+308,
+                    "maximum": 1.7976931348623157e+308
+                  }
+                },
+                "required": [
+                  "x",
+                  "y",
+                  "z",
+                  "w"
+                ],
+                "title": "orientation",
+                "additionalProperties": false
+              }
+            },
+            "required": [
+              "position",
+              "orientation"
+            ],
+            "title": "pose",
+            "additionalProperties": false
+          },
+          "config": {
+            "type": "string"
+          },
+          "data": {
+            "type": "string"
+          }
+        },
+        "title": "resource"
+      },
+      "resources": {
+        "items": {
+          "type": "object",
+          "additionalProperties": false,
+          "properties": {
+            "id": {
+              "type": "string"
+            },
+            "name": {
+              "type": "string"
+            },
+            "sample_id": {
+              "type": "string"
+            },
+            "children": {
+              "type": "array",
+              "items": {
+                "type": "string"
+              }
+            },
+            "parent": {
+              "type": "string"
+            },
+            "type": {
+              "type": "string"
+            },
+            "category": {
+              "type": "string"
+            },
+            "pose": {
+              "type": "object",
+              "properties": {
+                "position": {
+                  "type": "object",
+                  "properties": {
+                    "x": {
+                      "type": "number",
+                      "minimum": -1.7976931348623157e+308,
+                      "maximum": 1.7976931348623157e+308
+                    },
+                    "y": {
+                      "type": "number",
+                      "minimum": -1.7976931348623157e+308,
+                      "maximum": 1.7976931348623157e+308
+                    },
+                    "z": {
+                      "type": "number",
+                      "minimum": -1.7976931348623157e+308,
+                      "maximum": 1.7976931348623157e+308
+                    }
+                  },
+                  "required": [
+                    "x",
+                    "y",
+                    "z"
+                  ],
+                  "title": "position",
+                  "additionalProperties": false
+                },
+                "orientation": {
+                  "type": "object",
+                  "properties": {
+                    "x": {
+                      "type": "number",
+                      "minimum": -1.7976931348623157e+308,
+                      "maximum": 1.7976931348623157e+308
+                    },
+                    "y": {
+                      "type": "number",
+                      "minimum": -1.7976931348623157e+308,
+                      "maximum": 1.7976931348623157e+308
+                    },
+                    "z": {
+                      "type": "number",
+                      "minimum": -1.7976931348623157e+308,
+                      "maximum": 1.7976931348623157e+308
+                    },
+                    "w": {
+                      "type": "number",
+                      "minimum": -1.7976931348623157e+308,
+                      "maximum": 1.7976931348623157e+308
+                    }
+                  },
+                  "required": [
+                    "x",
+                    "y",
+                    "z",
+                    "w"
+                  ],
+                  "title": "orientation",
+                  "additionalProperties": false
+                }
+              },
+              "required": [
+                "position",
+                "orientation"
+              ],
+              "title": "pose",
+              "additionalProperties": false
+            },
+            "config": {
+              "type": "string"
+            },
+            "data": {
+              "type": "string"
+            }
+          },
+          "title": "resources"
+        },
+        "type": "array"
+      },
+      "device": {
+        "type": "string",
+        "description": "device reference"
+      },
+      "devices": {
+        "type": "string",
+        "description": "device reference"
+      }
+    },
+    "required": [],
+    "_unilabos_placeholder_info": {
+      "resource": "unilabos_resources",
+      "resources": "unilabos_resources",
+      "device": "unilabos_devices",
+      "devices": "unilabos_devices"
+    }
+  },
+  "goal_default": {},
+  "placeholder_keys": {
+    "resource": "unilabos_resources",
+    "resources": "unilabos_resources",
+    "device": "unilabos_devices",
+    "devices": "unilabos_devices"
+  }
+}
--- a/.cursor/skills/submit-agent-result/SKILL.md
+++ b/.cursor/skills/submit-agent-result/SKILL.md
@@ -0,0 +1,284 @@
+---
+name: submit-agent-result
+description: Submit historical experiment results (agent_result) to Uni-Lab cloud platform (leap-lab) notebook — read data files, assemble JSON payload, PUT to cloud API. Use when the user wants to submit experiment results, upload agent results, report experiment data, or mentions agent_result/实验结果/历史记录/notebook结果.
+---
+
+# Uni-Lab 提交历史实验记录指南
+
+通过 Uni-Lab 云端 API 向已创建的 notebook 提交实验结果数据（agent_result）。支持从 JSON / CSV 文件读取数据，整合后提交。
+
+> **重要**：本指南中的 `Authorization: Lab <token>` 是 **Uni-Lab 平台专用的认证方式**，`Lab` 是 Uni-Lab 的 auth scheme 关键字，**不是** HTTP Basic 认证。请勿将其替换为 `Basic`。
+
+## 前置条件（缺一不可）
+
+使用本指南前，**必须**先确认以下信息。如果缺少任何一项，**立即向用户询问并终止**，等补齐后再继续。
+
+### 1. ak / sk → AUTH
+
+询问用户的启动参数，从 `--ak` `--sk` 或 config.py 中获取。
+
+生成 AUTH token：
+
+```bash
+# ⚠️ 注意：scheme 是 "Lab"（Uni-Lab 专用），不是 "Basic"
+python -c "import base64,sys; print(base64.b64encode(f'{sys.argv[1]}:{sys.argv[2]}'.encode()).decode())" <ak> <sk>
+```
+
+输出即为 token 值，拼接为 `Authorization: Lab <token>`（`Lab` 是 Uni-Lab 平台 auth scheme，不可替换为 `Basic`）。
+
+### 2. --addr → BASE URL
+
+| `--addr` 值  | BASE                                |
+| ------------ | ----------------------------------- |
+| `test`       | `https://leap-lab.test.bohrium.com` |
+| `uat`        | `https://leap-lab.uat.bohrium.com`  |
+| `local`      | `http://127.0.0.1:48197`            |
+| 不传（默认） | `https://leap-lab.bohrium.com`      |
+
+确认后设置：
+
+```bash
+BASE="<根据 addr 确定的 URL>"
+# ⚠️ Auth scheme 必须是 "Lab"（Uni-Lab 专用），不是 "Basic"
+AUTH="Authorization: Lab <上面命令输出的 token>"
+```
+
+### 3. notebook_uuid（**必须询问用户**）
+
+**必须主动询问用户**：「请提供要提交结果的 notebook UUID。」
+
+notebook_uuid 来自之前通过「批量提交实验」创建的实验批次，即 `POST /api/v1/lab/notebook` 返回的 `data.uuid`。
+
+如果用户不记得，可提示：
+
+- 查看之前的对话记录中创建 notebook 时返回的 UUID
+- 或通过平台页面查找对应的 notebook
+
+**绝不能跳过此步骤，没有 notebook_uuid 无法提交。**
+
+### 4. 实验结果数据
+
+用户需要提供实验结果数据，支持以下方式：
+
+| 方式      | 说明                                            |
+| --------- | ----------------------------------------------- |
+| JSON 文件 | 直接作为 `agent_result` 的内容合并              |
+| CSV 文件  | 转为 `{"文件名": [行数据...]}` 格式             |
+| 手动指定  | 用户直接告知 key-value 数据，由 agent 构建 JSON |
+
+**四项全部就绪后才可开始。**
+
+## Session State
+
+在整个对话过程中，agent 需要记住以下状态：
+
+- `lab_uuid` — 实验室 UUID（通过 API #1 自动获取，**不需要问用户**）
+- `notebook_uuid` — 目标 notebook UUID（**必须询问用户**）
+
+## 请求约定
+
+所有请求使用 `curl -s`，PUT 需加 `Content-Type: application/json`。
+
+> **Windows 平台**必须使用 `curl.exe`（而非 PowerShell 的 `curl` 别名），示例中的 `curl` 均指 `curl.exe`。
+>
+> **PowerShell JSON 传参**：PowerShell 中 `-d '{"key":"value"}'` 会因引号转义失败。请将 JSON 写入临时文件，用 `-d '@tmp_body.json'`（单引号包裹 `@`，否则 `@` 会被 PowerShell 解析为 splatting 运算符导致报错）。
+
+---
+
+## API Endpoints
+
+### 1. 获取实验室信息（自动获取 lab_uuid）
+
+```bash
+curl -s -X GET "$BASE/api/v1/edge/lab/info" -H "$AUTH"
+```
+
+返回：
+
+```json
+{ "code": 0, "data": { "uuid": "xxx", "name": "实验室名称" } }
+```
+
+记住 `data.uuid` 为 `lab_uuid`。
+
+### 2. 提交实验结果（agent_result）
+
+```bash
+curl -s -X PUT "$BASE/api/v1/lab/notebook/agent-result" \
+  -H "$AUTH" -H "Content-Type: application/json" \
+  -d '<request_body>'
+```
+
+请求体结构：
+
+```json
+{
+    "notebook_uuid": "<notebook_uuid>",
+    "agent_result": {
+        "<key1>": "<value1>",
+        "<key2>": 123,
+        "<nested_key>": {"a": 1, "b": 2},
+        "<array_key>": [{"col1": "v1", "col2": "v2"}, ...]
+    }
+}
+```
+
+> **注意**：HTTP 方法是 **PUT**（不是 POST）。
+
+#### 必要字段
+
+| 字段            | 类型          | 说明                                        |
+| --------------- | ------------- | ------------------------------------------- |
+| `notebook_uuid` | string (UUID) | 目标 notebook 的 UUID，从批量提交实验时获取 |
+| `agent_result`  | object        | 实验结果数据，任意 JSON 对象                |
+
+#### agent_result 内容格式
+
+`agent_result` 接受**任意 JSON 对象**，常见格式：
+
+**简单键值对**：
+
+```json
+{
+  "avg_rtt_ms": 12.5,
+  "status": "success",
+  "test_count": 5
+}
+```
+
+**包含嵌套结构**：
+
+```json
+{
+  "summary": { "total": 100, "passed": 98, "failed": 2 },
+  "measurements": [
+    { "sample_id": "S001", "value": 3.14, "unit": "mg/mL" },
+    { "sample_id": "S002", "value": 2.71, "unit": "mg/mL" }
+  ]
+}
+```
+
+**从 CSV 文件导入**（脚本自动转换）：
+
+```json
+{
+  "experiment_data": [
+    { "温度": 25, "压力": 101.3, "产率": 0.85 },
+    { "温度": 30, "压力": 101.3, "产率": 0.91 }
+  ]
+}
+```
+
+---
+
+## 整合脚本
+
+本文档同级目录下的 `scripts/prepare_agent_result.py` 可自动读取文件并构建请求体。
+
+### 用法
+
+```bash
+python scripts/prepare_agent_result.py \
+    --notebook-uuid <uuid> \
+    --files data1.json data2.csv \
+    [--auth <token>] \
+    [--base <BASE_URL>] \
+    [--submit] \
+    [--output <output.json>]
+```
+
+| 参数              | 必选       | 说明                                            |
+| ----------------- | ---------- | ----------------------------------------------- |
+| `--notebook-uuid` | 是         | 目标 notebook UUID                              |
+| `--files`         | 是         | 输入文件路径（支持多个，JSON / CSV）            |
+| `--auth`          | 提交时必选 | Lab token（base64(ak:sk)）                      |
+| `--base`          | 提交时必选 | API base URL                                    |
+| `--submit`        | 否         | 加上此标志则直接提交到云端                      |
+| `--output`        | 否         | 输出 JSON 路径（默认 `agent_result_body.json`） |
+
+### 文件合并规则
+
+| 文件类型              | 合并方式                                     |
+| --------------------- | -------------------------------------------- |
+| `.json`（dict）       | 字段直接合并到 `agent_result` 顶层           |
+| `.json`（list/other） | 以文件名为 key 放入 `agent_result`           |
+| `.csv`                | 以文件名（不含扩展名）为 key，值为行对象数组 |
+
+多个文件的字段会合并。JSON dict 中的重复 key 后者覆盖前者。
+
+### 示例
+
+```bash
+# 仅生成请求体文件（不提交）
+python scripts/prepare_agent_result.py \
+    --notebook-uuid 73c67dca-c8cc-4936-85a0-329106aa7cca \
+    --files results.json measurements.csv
+
+# 生成并直接提交
+python scripts/prepare_agent_result.py \
+    --notebook-uuid 73c67dca-c8cc-4936-85a0-329106aa7cca \
+    --files results.json \
+    --auth YTFmZDlkNGUt... \
+    --base https://leap-lab.test.bohrium.com \
+    --submit
+```
+
+---
+
+## 手动构建方式
+
+如果不使用脚本，也可手动构建请求体：
+
+1. 将实验结果数据组装为 JSON 对象
+2. 写入临时文件：
+
+```json
+{
+    "notebook_uuid": "<uuid>",
+    "agent_result": { ... }
+}
+```
+
+3. 用 curl 提交：
+
+```bash
+curl -s -X PUT "$BASE/api/v1/lab/notebook/agent-result" \
+  -H "$AUTH" -H "Content-Type: application/json" \
+  -d '@tmp_body.json'
+```
+
+---
+
+## 完整工作流 Checklist
+
+```
+Task Progress:
+- [ ] Step 1: 确认 ak/sk → 生成 AUTH token
+- [ ] Step 2: 确认 --addr → 设置 BASE URL
+- [ ] Step 3: GET /edge/lab/info → 获取 lab_uuid
+- [ ] Step 4: **询问用户** notebook_uuid（必须，不可跳过）
+- [ ] Step 5: 确认实验结果数据来源（文件路径或手动数据）
+- [ ] Step 6: 运行 prepare_agent_result.py 或手动构建请求体
+- [ ] Step 7: PUT /lab/notebook/agent-result 提交
+- [ ] Step 8: 检查返回结果，确认提交成功
+```
+
+---
+
+## 常见问题
+
+### Q: notebook_uuid 从哪里获取？
+
+从之前「批量提交实验」时 `POST /api/v1/lab/notebook` 的返回值 `data.uuid` 获取。也可以在平台 UI 中查找对应的 notebook。
+
+### Q: agent_result 有固定的 schema 吗？
+
+没有严格 schema，接受任意 JSON 对象。但建议包含有意义的字段名和结构化数据，方便后续分析。
+
+### Q: 可以多次提交同一个 notebook 的结果吗？
+
+可以，后续提交会覆盖之前的 agent_result。
+
+### Q: 认证方式是 Lab 还是 Api？
+
+本指南统一使用 `Authorization: Lab <base64(ak:sk)>` 方式（`Lab` 是 Uni-Lab 平台的 auth scheme，**绝不能用 `Basic` 替代**）。如果用户有独立的 API Key，也可用 `Authorization: Api <key>` 替代。
--- a/.cursor/skills/submit-agent-result/scripts/prepare_agent_result.py
+++ b/.cursor/skills/submit-agent-result/scripts/prepare_agent_result.py
@@ -0,0 +1,133 @@
+"""
+读取实验结果文件（JSON / CSV），整合为 agent_result 请求体并可选提交。
+
+用法:
+    python prepare_agent_result.py \
+        --notebook-uuid <uuid> \
+        --files data1.json data2.csv \
+        [--auth <Lab token>] \
+        [--base <BASE_URL>] \
+        [--submit] \
+        [--output <output.json>]
+
+支持的输入文件格式:
+    - .json  → 直接作为 dict 合并
+    - .csv   → 转为 {"filename": [row_dict, ...]} 格式
+"""
+
+import argparse
+import base64
+import csv
+import json
+import os
+import sys
+from pathlib import Path
+from typing import Any, Dict, List
+
+
+def read_json_file(filepath: str) -> Dict[str, Any]:
+    with open(filepath, "r", encoding="utf-8") as f:
+        return json.load(f)
+
+
+def read_csv_file(filepath: str) -> List[Dict[str, Any]]:
+    rows = []
+    with open(filepath, "r", encoding="utf-8-sig") as f:
+        reader = csv.DictReader(f)
+        for row in reader:
+            converted = {}
+            for k, v in row.items():
+                try:
+                    converted[k] = int(v)
+                except (ValueError, TypeError):
+                    try:
+                        converted[k] = float(v)
+                    except (ValueError, TypeError):
+                        converted[k] = v
+            rows.append(converted)
+    return rows
+
+
+def merge_files(filepaths: List[str]) -> Dict[str, Any]:
+    """将多个文件合并为一个 agent_result dict"""
+    merged: Dict[str, Any] = {}
+    for fp in filepaths:
+        path = Path(fp)
+        ext = path.suffix.lower()
+        key = path.stem
+
+        if ext == ".json":
+            data = read_json_file(fp)
+            if isinstance(data, dict):
+                merged.update(data)
+            else:
+                merged[key] = data
+        elif ext == ".csv":
+            merged[key] = read_csv_file(fp)
+        else:
+            print(f"[警告] 不支持的文件格式: {fp}，跳过", file=sys.stderr)
+
+    return merged
+
+
+def build_request_body(notebook_uuid: str, agent_result: Dict[str, Any]) -> Dict[str, Any]:
+    return {
+        "notebook_uuid": notebook_uuid,
+        "agent_result": agent_result,
+    }
+
+
+def submit(base: str, auth: str, body: Dict[str, Any]) -> Dict[str, Any]:
+    try:
+        import requests
+    except ImportError:
+        print("[错误] 提交需要 requests 库: pip install requests", file=sys.stderr)
+        sys.exit(1)
+
+    url = f"{base}/api/v1/lab/notebook/agent-result"
+    headers = {
+        "Content-Type": "application/json",
+        "Authorization": f"Lab {auth}",
+    }
+    resp = requests.put(url, json=body, headers=headers, timeout=30)
+    return {"status_code": resp.status_code, "body": resp.json() if resp.headers.get("content-type", "").startswith("application/json") else resp.text}
+
+
+def main():
+    parser = argparse.ArgumentParser(description="整合实验结果文件并构建 agent_result 请求体")
+    parser.add_argument("--notebook-uuid", required=True, help="目标 notebook UUID")
+    parser.add_argument("--files", nargs="+", required=True, help="输入文件路径（JSON / CSV）")
+    parser.add_argument("--auth", help="Lab token（base64(ak:sk)）")
+    parser.add_argument("--base", help="API base URL")
+    parser.add_argument("--submit", action="store_true", help="直接提交到云端")
+    parser.add_argument("--output", default="agent_result_body.json", help="输出 JSON 文件路径")
+
+    args = parser.parse_args()
+
+    for fp in args.files:
+        if not os.path.exists(fp):
+            print(f"[错误] 文件不存在: {fp}", file=sys.stderr)
+            sys.exit(1)
+
+    agent_result = merge_files(args.files)
+    body = build_request_body(args.notebook_uuid, agent_result)
+
+    with open(args.output, "w", encoding="utf-8") as f:
+        json.dump(body, f, ensure_ascii=False, indent=2)
+    print(f"[完成] 请求体已保存: {args.output}")
+    print(f"  notebook_uuid: {args.notebook_uuid}")
+    print(f"  agent_result 字段数: {len(agent_result)}")
+    print(f"  合并文件数: {len(args.files)}")
+
+    if args.submit:
+        if not args.auth or not args.base:
+            print("[错误] 提交需要 --auth 和 --base 参数", file=sys.stderr)
+            sys.exit(1)
+        print(f"\n[提交] PUT {args.base}/api/v1/lab/notebook/agent-result ...")
+        result = submit(args.base, args.auth, body)
+        print(f"  HTTP {result['status_code']}")
+        print(f"  响应: {json.dumps(result['body'], ensure_ascii=False)}")
+
+
+if __name__ == "__main__":
+    main()
--- a/.cursor/skills/virtual-workbench/SKILL.md
+++ b/.cursor/skills/virtual-workbench/SKILL.md
@@ -0,0 +1,272 @@
+---
+name: virtual-workbench
+description: Operate Virtual Workbench via REST API — prepare materials, move to heating stations, start heating, move to output, transfer resources. Use when the user mentions virtual workbench, virtual_workbench, 虚拟工作台, heating stations, material processing, or workbench operations.
+---
+
+# Virtual Workbench API Skill
+
+## 设备信息
+
+- **device_id**: `virtual_workbench`
+- **Python 源码**: `unilabos/devices/virtual/workbench.py`
+- **设备类**: `VirtualWorkbench`
+- **动作数**: 6（`auto-prepare_materials`, `auto-move_to_heating_station`, `auto-start_heating`, `auto-move_to_output`, `transfer`, `manual_confirm`）
+- **设备描述**: 模拟工作台，包含 1 个机械臂（每次操作 2s，独占锁）和 3 个加热台（每次加热 60s，可并行）
+
+### 典型工作流程
+
+1. `prepare_materials` — 生成 A1-A5 物料（5 个 output handle）
+2. `move_to_heating_station` — 物料并发竞争机械臂，移动到空闲加热台
+3. `start_heating` — 启动加热（3 个加热台可并行）
+4. `move_to_output` — 加热完成后移到输出位置 Cn
+
+## 前置条件（缺一不可）
+
+使用本 skill 前，**必须**先确认以下信息。如果缺少任何一项，**立即向用户询问并终止**，等补齐后再继续。
+
+### 1. ak / sk → AUTH
+
+从启动参数 `--ak` `--sk` 或 config.py 中获取，生成 token：`base64(ak:sk)` → `Authorization: Lab <token>`
+
+### 2. --addr → BASE URL
+
+| `--addr` 值  | BASE                                |
+| ------------ | ----------------------------------- |
+| `test`       | `https://leap-lab.test.bohrium.com` |
+| `uat`        | `https://leap-lab.uat.bohrium.com`  |
+| `local`      | `http://127.0.0.1:48197`            |
+| 不传（默认） | `https://leap-lab.bohrium.com`      |
+
+确认后设置：
+
+```bash
+BASE="<根据 addr 确定的 URL>"
+AUTH="Authorization: Lab <token>"
+```
+
+**两项全部就绪后才可发起 API 请求。**
+
+## Session State
+
+- `lab_uuid` — 实验室 UUID（首次通过 API #1 自动获取，**不需要问用户**）
+- `device_name` — `virtual_workbench`
+
+## 请求约定
+
+所有请求使用 `curl -s`，POST/PATCH/DELETE 需加 `Content-Type: application/json`。
+
+> **Windows 平台**必须使用 `curl.exe`（而非 PowerShell 的 `curl` 别名）。
+
+---
+
+## API Endpoints
+
+### 1. 获取实验室信息（自动获取 lab_uuid）
+
+```bash
+curl -s -X GET "$BASE/api/v1/edge/lab/info" -H "$AUTH"
+```
+
+返回 `data.uuid` 为 `lab_uuid`，`data.name` 为 `lab_name`。
+
+### 2. 创建工作流
+
+```bash
+curl -s -X POST "$BASE/api/v1/lab/workflow/owner" \
+  -H "$AUTH" -H "Content-Type: application/json" \
+  -d '{"name":"<名称>","lab_uuid":"<lab_uuid>","description":"<描述>"}'
+```
+
+返回 `data.uuid` 为 `workflow_uuid`。创建成功后告知用户链接：`$BASE/laboratory/$lab_uuid/workflow/$workflow_uuid`
+
+### 3. 创建节点
+
+```bash
+curl -s -X POST "$BASE/api/v1/edge/workflow/node" \
+  -H "$AUTH" -H "Content-Type: application/json" \
+  -d '{"workflow_uuid":"<workflow_uuid>","resource_template_name":"virtual_workbench","node_template_name":"<action_name>"}'
+```
+
+- `resource_template_name` 固定为 `virtual_workbench`
+- `node_template_name` — action 名称（如 `auto-prepare_materials`, `auto-move_to_heating_station`）
+
+### 4. 删除节点
+
+```bash
+curl -s -X DELETE "$BASE/api/v1/lab/workflow/nodes" \
+  -H "$AUTH" -H "Content-Type: application/json" \
+  -d '{"node_uuids":["<uuid1>"],"workflow_uuid":"<workflow_uuid>"}'
+```
+
+### 5. 更新节点参数
+
+```bash
+curl -s -X PATCH "$BASE/api/v1/lab/workflow/node" \
+  -H "$AUTH" -H "Content-Type: application/json" \
+  -d '{"workflow_uuid":"<wf_uuid>","uuid":"<node_uuid>","param":{...}}'
+```
+
+参考 [action-index.md](action-index.md) 确定哪些字段是 Slot。
+
+### 6. 查询节点 handles
+
+```bash
+curl -s -X POST "$BASE/api/v1/lab/workflow/node-handles" \
+  -H "$AUTH" -H "Content-Type: application/json" \
+  -d '{"node_uuids":["<node_uuid_1>","<node_uuid_2>"]}'
+```
+
+### 7. 批量创建边
+
+```bash
+curl -s -X POST "$BASE/api/v1/lab/workflow/edges" \
+  -H "$AUTH" -H "Content-Type: application/json" \
+  -d '{"edges":[{"source_node_uuid":"<uuid>","target_node_uuid":"<uuid>","source_handle_uuid":"<uuid>","target_handle_uuid":"<uuid>"}]}'
+```
+
+### 8. 启动工作流
+
+```bash
+curl -s -X POST "$BASE/api/v1/lab/workflow/<workflow_uuid>/run" -H "$AUTH"
+```
+
+### 9. 运行设备单动作
+
+```bash
+curl -s -X POST "$BASE/api/v1/lab/mcp/run/action" \
+  -H "$AUTH" -H "Content-Type: application/json" \
+  -d '{"lab_uuid":"<lab_uuid>","device_id":"virtual_workbench","action":"<action_name>","action_type":"<type>","param":{...}}'
+```
+
+`param` 直接放 goal 里的属性，**不要**再包一层 `{"goal": {...}}`。
+
+> **WARNING: `action_type` 必须正确，传错会导致任务永远卡住无法完成。** 从下表或 `actions/<name>.json` 的 `type` 字段获取。
+
+#### action_type 速查表
+
+| action | action_type |
+|--------|-------------|
+| `auto-prepare_materials` | `UniLabJsonCommand` |
+| `auto-move_to_heating_station` | `UniLabJsonCommand` |
+| `auto-start_heating` | `UniLabJsonCommand` |
+| `auto-move_to_output` | `UniLabJsonCommand` |
+| `transfer` | `UniLabJsonCommandAsync` |
+| `manual_confirm` | `UniLabJsonCommand` |
+
+### 10. 查询任务状态
+
+```bash
+curl -s -X GET "$BASE/api/v1/lab/mcp/task/<task_uuid>" -H "$AUTH"
+```
+
+### 11. 运行工作流单节点
+
+```bash
+curl -s -X POST "$BASE/api/v1/lab/mcp/run/workflow/action" \
+  -H "$AUTH" -H "Content-Type: application/json" \
+  -d '{"node_uuid":"<node_uuid>"}'
+```
+
+### 12. 获取资源树（物料信息）
+
+```bash
+curl -s -X GET "$BASE/api/v1/lab/material/download/$lab_uuid" -H "$AUTH"
+```
+
+注意 `lab_uuid` 在路径中。返回 `data.nodes[]` 含所有节点（设备 + 物料），每个节点含 `name`、`uuid`、`type`、`parent`。
+
+### 13. 获取工作流模板详情
+
+```bash
+curl -s -X GET "$BASE/api/v1/lab/workflow/template/detail/$workflow_uuid" -H "$AUTH"
+```
+
+> 必须使用 `/lab/workflow/template/detail/{uuid}`，其他路径会返回 404。
+
+### 14. 按名称查询物料模板
+
+```bash
+curl -s -X GET "$BASE/api/v1/lab/material/template/by-name?lab_uuid=$lab_uuid&name=<template_name>" -H "$AUTH"
+```
+
+返回 `data.uuid` 为 `res_template_uuid`，用于 API #15。
+
+### 15. 创建物料节点
+
+```bash
+curl -s -X POST "$BASE/api/v1/edge/material/node" \
+  -H "$AUTH" -H "Content-Type: application/json" \
+  -d '{"res_template_uuid":"<uuid>","name":"<名称>","display_name":"<显示名>","parent_uuid":"<父节点uuid>","data":{...}}'
+```
+
+### 16. 更新物料节点
+
+```bash
+curl -s -X PUT "$BASE/api/v1/edge/material/node" \
+  -H "$AUTH" -H "Content-Type: application/json" \
+  -d '{"uuid":"<节点uuid>","display_name":"<新名称>","data":{...}}'
+```
+
+---
+
+## Placeholder Slot 填写规则
+
+| `placeholder_keys` 值 | Slot 类型    | 填写格式                                              | 选取范围               |
+| --------------------- | ------------ | ----------------------------------------------------- | ---------------------- |
+| `unilabos_resources`  | ResourceSlot | `{"id": "/path/name", "name": "name", "uuid": "xxx"}` | 仅物料节点（非设备）   |
+| `unilabos_devices`    | DeviceSlot   | `"/parent/device_name"`                               | 仅设备节点（type=device） |
+| `unilabos_nodes`      | NodeSlot     | `"/parent/node_name"`                                 | 所有节点（设备 + 物料）   |
+| `unilabos_class`      | ClassSlot    | `"class_name"`                                        | 注册表中已注册的资源类    |
+
+### virtual_workbench 设备的 Slot 字段表
+
+| Action            | 字段             | Slot 类型    | 说明                 |
+| ----------------- | ---------------- | ------------ | -------------------- |
+| `transfer`        | `resource`       | ResourceSlot | 待转移物料数组       |
+| `transfer`        | `target_device`  | DeviceSlot   | 目标设备路径         |
+| `transfer`        | `mount_resource` | ResourceSlot | 目标孔位数组         |
+| `manual_confirm`  | `resource`       | ResourceSlot | 确认用物料数组       |
+| `manual_confirm`  | `target_device`  | DeviceSlot   | 确认用目标设备       |
+| `manual_confirm`  | `mount_resource` | ResourceSlot | 确认用目标孔位数组   |
+
+> `prepare_materials`、`move_to_heating_station`、`start_heating`、`move_to_output` 这 4 个动作**无 Slot 字段**，参数为纯数值/整数。
+
+---
+
+## 渐进加载策略
+
+1. **SKILL.md**（本文件）— API 端点 + session state 管理 + 设备工作流概览
+2. **[action-index.md](action-index.md)** — 按分类浏览 6 个动作的描述和核心参数
+3. **[actions/\<name\>.json](actions/)** — 仅在需要构建具体请求时，加载对应 action 的完整 JSON Schema
+
+---
+
+## 完整工作流 Checklist
+
+```
+Task Progress:
+- [ ] Step 1: GET /edge/lab/info 获取 lab_uuid
+- [ ] Step 2: 获取资源树 (GET #12) → 记住可用物料
+- [ ] Step 3: 读 action-index.md 确定要用的 action 名
+- [ ] Step 4: 创建工作流 (POST #2) → 记住 workflow_uuid，告知用户链接
+- [ ] Step 5: 创建节点 (POST #3, resource_template_name=virtual_workbench) → 记住 node_uuid + data.param
+- [ ] Step 6: 根据 _unilabos_placeholder_info 和资源树，填写 data.param 中的 Slot 字段
+- [ ] Step 7: 更新节点参数 (PATCH #5)
+- [ ] Step 8: 查询节点 handles (POST #6) → 获取各节点的 handle_uuid
+- [ ] Step 9: 批量创建边 (POST #7) → 用 handle_uuid 连接节点
+- [ ] Step 10: 启动工作流 (POST #8) 或运行单节点 (POST #11)
+- [ ] Step 11: 查询任务状态 (GET #10) 确认完成
+```
+
+### 典型 5 物料并发加热工作流示例
+
+```
+prepare_materials (count=5)
+  ├─ channel_1 → move_to_heating_station (material_number=1) → start_heating → move_to_output
+  ├─ channel_2 → move_to_heating_station (material_number=2) → start_heating → move_to_output
+  ├─ channel_3 → move_to_heating_station (material_number=3) → start_heating → move_to_output
+  ├─ channel_4 → move_to_heating_station (material_number=4) → start_heating → move_to_output
+  └─ channel_5 → move_to_heating_station (material_number=5) → start_heating → move_to_output
+```
+
+创建节点时，`prepare_materials` 的 5 个 output handle（`channel_1` ~ `channel_5`）分别连接到 5 个 `move_to_heating_station` 节点的 `material_input` handle。每个 `move_to_heating_station` 的 `heating_station_output` 和 `material_number_output` 连接到对应 `start_heating` 的 `station_id_input` 和 `material_number_input`。
--- a/.cursor/skills/virtual-workbench/action-index.md
+++ b/.cursor/skills/virtual-workbench/action-index.md
@@ -0,0 +1,76 @@
+# Action Index — virtual_workbench
+
+6 个动作，按功能分类。每个动作的完整 JSON Schema 在 `actions/<name>.json`。
+
+---
+
+## 物料准备
+
+### `auto-prepare_materials`
+
+批量准备物料（虚拟起始节点），生成 A1-A5 物料编号，输出 5 个 handle 供后续节点使用
+
+- **action_type**: `UniLabJsonCommand`
+- **Schema**: [`actions/prepare_materials.json`](actions/prepare_materials.json)
+- **可选参数**: `count`（物料数量，默认 5）
+
+---
+
+## 机械臂 & 加热台操作
+
+### `auto-move_to_heating_station`
+
+将物料从 An 位置移动到空闲加热台（竞争机械臂，自动查找空闲加热台）
+
+- **action_type**: `UniLabJsonCommand`
+- **Schema**: [`actions/move_to_heating_station.json`](actions/move_to_heating_station.json)
+- **核心参数**: `material_number`（物料编号，integer）
+
+### `auto-start_heating`
+
+启动指定加热台的加热程序（可并行，3 个加热台同时工作）
+
+- **action_type**: `UniLabJsonCommand`
+- **Schema**: [`actions/start_heating.json`](actions/start_heating.json)
+- **核心参数**: `station_id`（加热台 ID），`material_number`（物料编号）
+
+### `auto-move_to_output`
+
+将加热完成的物料从加热台移动到输出位置 Cn
+
+- **action_type**: `UniLabJsonCommand`
+- **Schema**: [`actions/move_to_output.json`](actions/move_to_output.json)
+- **核心参数**: `station_id`（加热台 ID），`material_number`（物料编号）
+
+---
+
+## 物料转移
+
+### `transfer`
+
+异步转移物料到目标设备（通过 ROS 资源转移）
+
+- **action_type**: `UniLabJsonCommandAsync`
+- **Schema**: [`actions/transfer.json`](actions/transfer.json)
+- **核心参数**: `resource`, `target_device`, `mount_resource`
+- **占位符字段**:
+  - `resource` — **ResourceSlot**，待转移的物料数组 `[{id, name, uuid}, ...]`
+  - `target_device` — **DeviceSlot**，目标设备路径字符串
+  - `mount_resource` — **ResourceSlot**，目标孔位数组 `[{id, name, uuid}, ...]`
+
+---
+
+## 人工确认
+
+### `manual_confirm`
+
+创建人工确认节点，等待用户手动确认后继续（含物料转移上下文）
+
+- **action_type**: `UniLabJsonCommand`
+- **Schema**: [`actions/manual_confirm.json`](actions/manual_confirm.json)
+- **核心参数**: `resource`, `target_device`, `mount_resource`, `timeout_seconds`, `assignee_user_ids`
+- **占位符字段**:
+  - `resource` — **ResourceSlot**，物料数组
+  - `target_device` — **DeviceSlot**，目标设备路径
+  - `mount_resource` — **ResourceSlot**，目标孔位数组
+  - `assignee_user_ids` — `unilabos_manual_confirm` 类型
--- a/.cursor/skills/virtual-workbench/actions/manual_confirm.json
+++ b/.cursor/skills/virtual-workbench/actions/manual_confirm.json
@@ -0,0 +1,270 @@
+{
+  "type": "UniLabJsonCommand",
+  "goal": {
+    "resource": "resource",
+    "target_device": "target_device",
+    "mount_resource": "mount_resource",
+    "timeout_seconds": "timeout_seconds",
+    "assignee_user_ids": "assignee_user_ids"
+  },
+  "schema": {
+    "type": "object",
+    "properties": {
+      "resource": {
+        "items": {
+          "type": "object",
+          "additionalProperties": false,
+          "properties": {
+            "id": {
+              "type": "string"
+            },
+            "name": {
+              "type": "string"
+            },
+            "sample_id": {
+              "type": "string"
+            },
+            "children": {
+              "type": "array",
+              "items": {
+                "type": "string"
+              }
+            },
+            "parent": {
+              "type": "string"
+            },
+            "type": {
+              "type": "string"
+            },
+            "category": {
+              "type": "string"
+            },
+            "pose": {
+              "type": "object",
+              "properties": {
+                "position": {
+                  "type": "object",
+                  "properties": {
+                    "x": {
+                      "type": "number",
+                      "minimum": -1.7976931348623157e+308,
+                      "maximum": 1.7976931348623157e+308
+                    },
+                    "y": {
+                      "type": "number",
+                      "minimum": -1.7976931348623157e+308,
+                      "maximum": 1.7976931348623157e+308
+                    },
+                    "z": {
+                      "type": "number",
+                      "minimum": -1.7976931348623157e+308,
+                      "maximum": 1.7976931348623157e+308
+                    }
+                  },
+                  "required": [
+                    "x",
+                    "y",
+                    "z"
+                  ],
+                  "title": "position",
+                  "additionalProperties": false
+                },
+                "orientation": {
+                  "type": "object",
+                  "properties": {
+                    "x": {
+                      "type": "number",
+                      "minimum": -1.7976931348623157e+308,
+                      "maximum": 1.7976931348623157e+308
+                    },
+                    "y": {
+                      "type": "number",
+                      "minimum": -1.7976931348623157e+308,
+                      "maximum": 1.7976931348623157e+308
+                    },
+                    "z": {
+                      "type": "number",
+                      "minimum": -1.7976931348623157e+308,
+                      "maximum": 1.7976931348623157e+308
+                    },
+                    "w": {
+                      "type": "number",
+                      "minimum": -1.7976931348623157e+308,
+                      "maximum": 1.7976931348623157e+308
+                    }
+                  },
+                  "required": [
+                    "x",
+                    "y",
+                    "z",
+                    "w"
+                  ],
+                  "title": "orientation",
+                  "additionalProperties": false
+                }
+              },
+              "required": [
+                "position",
+                "orientation"
+              ],
+              "title": "pose",
+              "additionalProperties": false
+            },
+            "config": {
+              "type": "string"
+            },
+            "data": {
+              "type": "string"
+            }
+          },
+          "title": "resource"
+        },
+        "type": "array"
+      },
+      "target_device": {
+        "type": "string",
+        "description": "device reference"
+      },
+      "mount_resource": {
+        "items": {
+          "type": "object",
+          "additionalProperties": false,
+          "properties": {
+            "id": {
+              "type": "string"
+            },
+            "name": {
+              "type": "string"
+            },
+            "sample_id": {
+              "type": "string"
+            },
+            "children": {
+              "type": "array",
+              "items": {
+                "type": "string"
+              }
+            },
+            "parent": {
+              "type": "string"
+            },
+            "type": {
+              "type": "string"
+            },
+            "category": {
+              "type": "string"
+            },
+            "pose": {
+              "type": "object",
+              "properties": {
+                "position": {
+                  "type": "object",
+                  "properties": {
+                    "x": {
+                      "type": "number",
+                      "minimum": -1.7976931348623157e+308,
+                      "maximum": 1.7976931348623157e+308
+                    },
+                    "y": {
+                      "type": "number",
+                      "minimum": -1.7976931348623157e+308,
+                      "maximum": 1.7976931348623157e+308
+                    },
+                    "z": {
+                      "type": "number",
+                      "minimum": -1.7976931348623157e+308,
+                      "maximum": 1.7976931348623157e+308
+                    }
+                  },
+                  "required": [
+                    "x",
+                    "y",
+                    "z"
+                  ],
+                  "title": "position",
+                  "additionalProperties": false
+                },
+                "orientation": {
+                  "type": "object",
+                  "properties": {
+                    "x": {
+                      "type": "number",
+                      "minimum": -1.7976931348623157e+308,
+                      "maximum": 1.7976931348623157e+308
+                    },
+                    "y": {
+                      "type": "number",
+                      "minimum": -1.7976931348623157e+308,
+                      "maximum": 1.7976931348623157e+308
+                    },
+                    "z": {
+                      "type": "number",
+                      "minimum": -1.7976931348623157e+308,
+                      "maximum": 1.7976931348623157e+308
+                    },
+                    "w": {
+                      "type": "number",
+                      "minimum": -1.7976931348623157e+308,
+                      "maximum": 1.7976931348623157e+308
+                    }
+                  },
+                  "required": [
+                    "x",
+                    "y",
+                    "z",
+                    "w"
+                  ],
+                  "title": "orientation",
+                  "additionalProperties": false
+                }
+              },
+              "required": [
+                "position",
+                "orientation"
+              ],
+              "title": "pose",
+              "additionalProperties": false
+            },
+            "config": {
+              "type": "string"
+            },
+            "data": {
+              "type": "string"
+            }
+          },
+          "title": "mount_resource"
+        },
+        "type": "array"
+      },
+      "timeout_seconds": {
+        "type": "integer"
+      },
+      "assignee_user_ids": {
+        "type": "array",
+        "items": {
+          "type": "string"
+        }
+      }
+    },
+    "required": [
+      "resource",
+      "target_device",
+      "mount_resource",
+      "timeout_seconds",
+      "assignee_user_ids"
+    ],
+    "_unilabos_placeholder_info": {
+      "resource": "unilabos_resources",
+      "target_device": "unilabos_devices",
+      "mount_resource": "unilabos_resources",
+      "assignee_user_ids": "unilabos_manual_confirm"
+    }
+  },
+  "goal_default": {},
+  "placeholder_keys": {
+    "resource": "unilabos_resources",
+    "target_device": "unilabos_devices",
+    "mount_resource": "unilabos_resources",
+    "assignee_user_ids": "unilabos_manual_confirm"
+  }
+}
--- a/.cursor/skills/virtual-workbench/actions/move_to_heating_station.json
+++ b/.cursor/skills/virtual-workbench/actions/move_to_heating_station.json
@@ -0,0 +1,19 @@
+{
+  "type": "UniLabJsonCommand",
+  "goal": {
+    "material_number": "material_number"
+  },
+  "schema": {
+    "type": "object",
+    "properties": {
+      "material_number": {
+        "type": "integer"
+      }
+    },
+    "required": [
+      "material_number"
+    ]
+  },
+  "goal_default": {},
+  "placeholder_keys": {}
+}
--- a/.cursor/skills/virtual-workbench/actions/move_to_output.json
+++ b/.cursor/skills/virtual-workbench/actions/move_to_output.json
@@ -0,0 +1,24 @@
+{
+  "type": "UniLabJsonCommand",
+  "goal": {
+    "station_id": "station_id",
+    "material_number": "material_number"
+  },
+  "schema": {
+    "type": "object",
+    "properties": {
+      "station_id": {
+        "type": "integer"
+      },
+      "material_number": {
+        "type": "integer"
+      }
+    },
+    "required": [
+      "station_id",
+      "material_number"
+    ]
+  },
+  "goal_default": {},
+  "placeholder_keys": {}
+}
--- a/.cursor/skills/virtual-workbench/actions/prepare_materials.json
+++ b/.cursor/skills/virtual-workbench/actions/prepare_materials.json
@@ -0,0 +1,20 @@
+{
+  "type": "UniLabJsonCommand",
+  "goal": {
+    "count": "count"
+  },
+  "schema": {
+    "type": "object",
+    "properties": {
+      "count": {
+        "type": "integer",
+        "default": 5
+      }
+    },
+    "required": []
+  },
+  "goal_default": {
+    "count": 5
+  },
+  "placeholder_keys": {}
+}
--- a/.cursor/skills/virtual-workbench/actions/start_heating.json
+++ b/.cursor/skills/virtual-workbench/actions/start_heating.json
@@ -0,0 +1,24 @@
+{
+  "type": "UniLabJsonCommand",
+  "goal": {
+    "station_id": "station_id",
+    "material_number": "material_number"
+  },
+  "schema": {
+    "type": "object",
+    "properties": {
+      "station_id": {
+        "type": "integer"
+      },
+      "material_number": {
+        "type": "integer"
+      }
+    },
+    "required": [
+      "station_id",
+      "material_number"
+    ]
+  },
+  "goal_default": {},
+  "placeholder_keys": {}
+}
--- a/.cursor/skills/virtual-workbench/actions/transfer.json
+++ b/.cursor/skills/virtual-workbench/actions/transfer.json
@@ -0,0 +1,255 @@
+{
+  "type": "UniLabJsonCommandAsync",
+  "goal": {
+    "resource": "resource",
+    "target_device": "target_device",
+    "mount_resource": "mount_resource"
+  },
+  "schema": {
+    "type": "object",
+    "properties": {
+      "resource": {
+        "items": {
+          "type": "object",
+          "additionalProperties": false,
+          "properties": {
+            "id": {
+              "type": "string"
+            },
+            "name": {
+              "type": "string"
+            },
+            "sample_id": {
+              "type": "string"
+            },
+            "children": {
+              "type": "array",
+              "items": {
+                "type": "string"
+              }
+            },
+            "parent": {
+              "type": "string"
+            },
+            "type": {
+              "type": "string"
+            },
+            "category": {
+              "type": "string"
+            },
+            "pose": {
+              "type": "object",
+              "properties": {
+                "position": {
+                  "type": "object",
+                  "properties": {
+                    "x": {
+                      "type": "number",
+                      "minimum": -1.7976931348623157e+308,
+                      "maximum": 1.7976931348623157e+308
+                    },
+                    "y": {
+                      "type": "number",
+                      "minimum": -1.7976931348623157e+308,
+                      "maximum": 1.7976931348623157e+308
+                    },
+                    "z": {
+                      "type": "number",
+                      "minimum": -1.7976931348623157e+308,
+                      "maximum": 1.7976931348623157e+308
+                    }
+                  },
+                  "required": [
+                    "x",
+                    "y",
+                    "z"
+                  ],
+                  "title": "position",
+                  "additionalProperties": false
+                },
+                "orientation": {
+                  "type": "object",
+                  "properties": {
+                    "x": {
+                      "type": "number",
+                      "minimum": -1.7976931348623157e+308,
+                      "maximum": 1.7976931348623157e+308
+                    },
+                    "y": {
+                      "type": "number",
+                      "minimum": -1.7976931348623157e+308,
+                      "maximum": 1.7976931348623157e+308
+                    },
+                    "z": {
+                      "type": "number",
+                      "minimum": -1.7976931348623157e+308,
+                      "maximum": 1.7976931348623157e+308
+                    },
+                    "w": {
+                      "type": "number",
+                      "minimum": -1.7976931348623157e+308,
+                      "maximum": 1.7976931348623157e+308
+                    }
+                  },
+                  "required": [
+                    "x",
+                    "y",
+                    "z",
+                    "w"
+                  ],
+                  "title": "orientation",
+                  "additionalProperties": false
+                }
+              },
+              "required": [
+                "position",
+                "orientation"
+              ],
+              "title": "pose",
+              "additionalProperties": false
+            },
+            "config": {
+              "type": "string"
+            },
+            "data": {
+              "type": "string"
+            }
+          },
+          "title": "resource"
+        },
+        "type": "array"
+      },
+      "target_device": {
+        "type": "string",
+        "description": "device reference"
+      },
+      "mount_resource": {
+        "items": {
+          "type": "object",
+          "additionalProperties": false,
+          "properties": {
+            "id": {
+              "type": "string"
+            },
+            "name": {
+              "type": "string"
+            },
+            "sample_id": {
+              "type": "string"
+            },
+            "children": {
+              "type": "array",
+              "items": {
+                "type": "string"
+              }
+            },
+            "parent": {
+              "type": "string"
+            },
+            "type": {
+              "type": "string"
+            },
+            "category": {
+              "type": "string"
+            },
+            "pose": {
+              "type": "object",
+              "properties": {
+                "position": {
+                  "type": "object",
+                  "properties": {
+                    "x": {
+                      "type": "number",
+                      "minimum": -1.7976931348623157e+308,
+                      "maximum": 1.7976931348623157e+308
+                    },
+                    "y": {
+                      "type": "number",
+                      "minimum": -1.7976931348623157e+308,
+                      "maximum": 1.7976931348623157e+308
+                    },
+                    "z": {
+                      "type": "number",
+                      "minimum": -1.7976931348623157e+308,
+                      "maximum": 1.7976931348623157e+308
+                    }
+                  },
+                  "required": [
+                    "x",
+                    "y",
+                    "z"
+                  ],
+                  "title": "position",
+                  "additionalProperties": false
+                },
+                "orientation": {
+                  "type": "object",
+                  "properties": {
+                    "x": {
+                      "type": "number",
+                      "minimum": -1.7976931348623157e+308,
+                      "maximum": 1.7976931348623157e+308
+                    },
+                    "y": {
+                      "type": "number",
+                      "minimum": -1.7976931348623157e+308,
+                      "maximum": 1.7976931348623157e+308
+                    },
+                    "z": {
+                      "type": "number",
+                      "minimum": -1.7976931348623157e+308,
+                      "maximum": 1.7976931348623157e+308
+                    },
+                    "w": {
+                      "type": "number",
+                      "minimum": -1.7976931348623157e+308,
+                      "maximum": 1.7976931348623157e+308
+                    }
+                  },
+                  "required": [
+                    "x",
+                    "y",
+                    "z",
+                    "w"
+                  ],
+                  "title": "orientation",
+                  "additionalProperties": false
+                }
+              },
+              "required": [
+                "position",
+                "orientation"
+              ],
+              "title": "pose",
+              "additionalProperties": false
+            },
+            "config": {
+              "type": "string"
+            },
+            "data": {
+              "type": "string"
+            }
+          },
+          "title": "mount_resource"
+        },
+        "type": "array"
+      }
+    },
+    "required": [
+      "resource",
+      "target_device",
+      "mount_resource"
+    ],
+    "_unilabos_placeholder_info": {
+      "resource": "unilabos_resources",
+      "target_device": "unilabos_devices",
+      "mount_resource": "unilabos_resources"
+    }
+  },
+  "goal_default": {},
+  "placeholder_keys": {
+    "resource": "unilabos_resources",
+    "target_device": "unilabos_devices",
+    "mount_resource": "unilabos_resources"
+  }
+}
--- a/docs/advanced_usage/configuration.md
+++ b/docs/advanced_usage/configuration.md
@@ -12,7 +12,7 @@ Uni-Lab 使用 Python 格式的配置文件（`.py`），默认为 `unilabos_dat

 **获取方式：**

-进入 [Uni-Lab 实验室](https://uni-lab.bohrium.com)，点击左下角的头像，在实验室详情中获取所在实验室的 ak 和 sk：
+进入 [Uni-Lab 实验室](https://leap-lab.bohrium.com)，点击左下角的头像，在实验室详情中获取所在实验室的 ak 和 sk：

 ![copy_aksk.gif](image/copy_aksk.gif)

@@ -69,7 +69,7 @@ class WSConfig:

 # HTTP配置
 class HTTPConfig:
-    remote_addr = "https://uni-lab.bohrium.com/api/v1"  # 远程服务器地址
+    remote_addr = "https://leap-lab.bohrium.com/api/v1"  # 远程服务器地址

 # ROS配置
 class ROSConfig:
@@ -209,8 +209,8 @@ unilab --ak "key" --sk "secret" --addr "test" --upload_registry --2d_vis -g grap

 `--addr` 参数支持以下预设值，会自动转换为对应的完整 URL：

- `test` → `https://uni-lab.test.bohrium.com/api/v1`
- `uat` → `https://uni-lab.uat.bohrium.com/api/v1`
+- `test` → `https://leap-lab.test.bohrium.com/api/v1`
+- `uat` → `https://leap-lab.uat.bohrium.com/api/v1`
 - `local` → `http://127.0.0.1:48197/api/v1`
 - 其他值 → 直接使用作为完整 URL

@@ -248,7 +248,7 @@ unilab --ak "key" --sk "secret" --addr "test" --upload_registry --2d_vis -g grap

 `ak` 和 `sk` 是必需的认证参数：

-1. **获取方式**：在 [Uni-Lab 官网](https://uni-lab.bohrium.com) 注册实验室后获得
+1. **获取方式**：在 [Uni-Lab 官网](https://leap-lab.bohrium.com) 注册实验室后获得
 2. **配置方式**：
   - **命令行参数**：`--ak "your_key" --sk "your_secret"`（最高优先级，推荐）
   - **环境变量**：`UNILABOS_BASICCONFIG_AK` 和 `UNILABOS_BASICCONFIG_SK`
@@ -275,15 +275,15 @@ WebSocket 是 Uni-Lab 的主要通信方式：

 HTTP 客户端配置用于与云端服务通信：

-| 参数          | 类型 | 默认值                                 | 说明         |
-| ------------- | ---- | -------------------------------------- | ------------ |
-| `remote_addr` | str  | `"https://uni-lab.bohrium.com/api/v1"` | 远程服务地址 |
+| 参数          | 类型 | 默认值                                  | 说明         |
+| ------------- | ---- | --------------------------------------- | ------------ |
+| `remote_addr` | str  | `"https://leap-lab.bohrium.com/api/v1"` | 远程服务地址 |

 **预设环境地址**：

- 生产环境：`https://uni-lab.bohrium.com/api/v1`（默认）
- 测试环境：`https://uni-lab.test.bohrium.com/api/v1`
- UAT 环境：`https://uni-lab.uat.bohrium.com/api/v1`
+- 生产环境：`https://leap-lab.bohrium.com/api/v1`（默认）
+- 测试环境：`https://leap-lab.test.bohrium.com/api/v1`
+- UAT 环境：`https://leap-lab.uat.bohrium.com/api/v1`
 - 本地环境：`http://127.0.0.1:48197/api/v1`

 ### 4. ROSConfig - ROS 配置
@@ -401,7 +401,7 @@ export UNILABOS_WSCONFIG_RECONNECT_INTERVAL="10"
 export UNILABOS_WSCONFIG_MAX_RECONNECT_ATTEMPTS="500"

 # 设置HTTP配置
-export UNILABOS_HTTPCONFIG_REMOTE_ADDR="https://uni-lab.test.bohrium.com/api/v1"
+export UNILABOS_HTTPCONFIG_REMOTE_ADDR="https://leap-lab.test.bohrium.com/api/v1"
 ```

 ## 配置文件使用方法
@@ -484,13 +484,13 @@ export UNILABOS_WSCONFIG_MAX_RECONNECT_ATTEMPTS=100

 ```python
 class HTTPConfig:
-    remote_addr = "https://uni-lab.test.bohrium.com/api/v1"
+    remote_addr = "https://leap-lab.test.bohrium.com/api/v1"
 ```

 **环境变量方式：**

 ```bash
-export UNILABOS_HTTPCONFIG_REMOTE_ADDR=https://uni-lab.test.bohrium.com/api/v1
+export UNILABOS_HTTPCONFIG_REMOTE_ADDR=https://leap-lab.test.bohrium.com/api/v1
 ```

 **命令行方式（推荐）：**
--- a/docs/developer_guide/networking_overview.md
+++ b/docs/developer_guide/networking_overview.md
@@ -23,7 +23,7 @@ Uni-Lab-OS 支持多种部署模式：
 ```
 ┌──────────────────────────────────────────────┐
 │      Cloud Platform/Self-hosted Platform     │
-│           uni-lab.bohrium.com                │
+│           leap-lab.bohrium.com                │
 │  (Resource Management, Task Scheduling,      │
 │              Monitoring)                     │
 └────────────────────┬─────────────────────────┘
@@ -444,7 +444,7 @@ ros2 daemon stop && ros2 daemon start

 ```bash
 # 测试云端连接
-curl https://uni-lab.bohrium.com/api/v1/health
+curl https://leap-lab.bohrium.com/api/v1/health

 # 测试WebSocket
 # 启动Uni-Lab后查看日志
--- a/docs/user_guide/best_practice.md
+++ b/docs/user_guide/best_practice.md
@@ -33,11 +33,11 @@

 **选择合适的安装包：**

-| 安装包 | 适用场景 | 包含组件 |
-|--------|----------|----------|
-| `unilabos` | **推荐大多数用户**，生产部署 | 完整安装包，开箱即用 |
-| `unilabos-env` | 开发者（可编辑安装） | 仅环境依赖，通过 pip 安装 unilabos |
-| `unilabos-full` | 仿真/可视化 | unilabos + 完整 ROS2 桌面版 + Gazebo + MoveIt |
+| 安装包          | 适用场景                     | 包含组件                                      |
+| --------------- | ---------------------------- | --------------------------------------------- |
+| `unilabos`      | **推荐大多数用户**，生产部署 | 完整安装包，开箱即用                          |
+| `unilabos-env`  | 开发者（可编辑安装）         | 仅环境依赖，通过 pip 安装 unilabos            |
+| `unilabos-full` | 仿真/可视化                  | unilabos + 完整 ROS2 桌面版 + Gazebo + MoveIt |

 **关键步骤：**

@@ -66,6 +66,7 @@ mamba install uni-lab::unilabos-full -c robostack-staging -c conda-forge
 ```

 **选择建议：**
+
 - **日常使用/生产部署**：使用 `unilabos`（推荐），完整功能，开箱即用
 - **开发者**：使用 `unilabos-env` + `pip install -e .` + `uv pip install -r unilabos/utils/requirements.txt`，代码修改立即生效
 - **仿真/可视化**：使用 `unilabos-full`，含 Gazebo、rviz2、MoveIt
@@ -88,7 +89,7 @@ python -c "from unilabos_msgs.msg import Resource; print('ROS msgs OK')"

 #### 2.1 注册实验室账号

-1. 访问 [https://uni-lab.bohrium.com](https://uni-lab.bohrium.com)
+1. 访问 [https://leap-lab.bohrium.com](https://leap-lab.bohrium.com)
 2. 注册账号并登录
 3. 创建新实验室

@@ -297,7 +298,7 @@ unilab --ak your_ak --sk your_sk -g test/experiments/mock_devices/mock_all.json

 #### 5.2 访问 Web 界面

-启动系统后，访问[https://uni-lab.bohrium.com](https://uni-lab.bohrium.com)
+启动系统后，访问[https://leap-lab.bohrium.com](https://leap-lab.bohrium.com)

 #### 5.3 添加设备和物料

@@ -306,12 +307,10 @@ unilab --ak your_ak --sk your_sk -g test/experiments/mock_devices/mock_all.json
 **示例场景：** 创建一个简单的液体转移实验

 1. **添加工作站（必需）：**
-
   - 在"仪器设备"中找到 `work_station`
   - 添加 `workstation` x1

 2. **添加虚拟转移泵：**
-
   - 在"仪器设备"中找到 `virtual_device`
   - 添加 `virtual_transfer_pump` x1

@@ -818,6 +817,7 @@ uv pip install -r unilabos/utils/requirements.txt
 ```

 **为什么使用这种方式？**
+
 - `unilabos-env` 提供 ROS2 核心组件和 uv（通过 conda 安装，避免编译）
 - `unilabos/utils/requirements.txt` 包含所有运行时需要的 pip 依赖
 - `dev_install.py` 自动检测中文环境，中文系统自动使用清华镜像
@@ -1796,32 +1796,27 @@ unilab --ak your_ak --sk your_sk -g graph.json \
 **详细步骤：**

 1. **需求分析**：
-
   - 明确实验流程
   - 列出所需设备和物料
   - 设计工作流程图

 2. **环境搭建**：
-
   - 安装 Uni-Lab-OS
   - 创建实验室账号
   - 准备开发工具（IDE、Git）

 3. **原型验证**：
-
   - 使用虚拟设备测试流程
   - 验证工作流逻辑
   - 调整参数

 4. **迭代开发**：
-
   - 实现自定义设备驱动（同时撰写单点函数测试）
   - 编写注册表
   - 单元测试
   - 集成测试

 5. **测试部署**：
-
   - 连接真实硬件
   - 空跑测试
   - 小规模试验
@@ -1871,7 +1866,7 @@ unilab --ak your_ak --sk your_sk -g graph.json \
 #### 14.5 社区支持

 - **GitHub Issues**：[https://github.com/deepmodeling/Uni-Lab-OS/issues](https://github.com/deepmodeling/Uni-Lab-OS/issues)
- **官方网站**：[https://uni-lab.bohrium.com](https://uni-lab.bohrium.com)
+- **官方网站**：[https://leap-lab.bohrium.com](https://leap-lab.bohrium.com)

 ---

--- a/docs/user_guide/graph_files.md
+++ b/docs/user_guide/graph_files.md
@@ -626,7 +626,7 @@ unilab

 **云端图文件管理**:

-1. 登录 https://uni-lab.bohrium.com
+1. 登录 https://leap-lab.bohrium.com
 2. 进入"设备配置"
 3. 创建或编辑配置
 4. 保存到云端
--- a/docs/user_guide/launch.md
+++ b/docs/user_guide/launch.md
@@ -54,7 +54,6 @@ Uni-Lab 的启动过程分为以下几个阶段：
 您可以直接跟随 unilabos 的提示进行，无需查阅本节

 - **工作目录设置**：
-
  - 如果当前目录以 `unilabos_data` 结尾，则使用当前目录
  - 否则使用 `当前目录/unilabos_data` 作为工作目录
  - 可通过 `--working_dir` 指定自定义工作目录
@@ -68,8 +67,8 @@ Uni-Lab 的启动过程分为以下几个阶段：

 支持多种后端环境：

- `--addr test`：测试环境 (`https://uni-lab.test.bohrium.com/api/v1`)
- `--addr uat`：UAT 环境 (`https://uni-lab.uat.bohrium.com/api/v1`)
+- `--addr test`：测试环境 (`https://leap-lab.test.bohrium.com/api/v1`)
+- `--addr uat`：UAT 环境 (`https://leap-lab.uat.bohrium.com/api/v1`)
 - `--addr local`：本地环境 (`http://127.0.0.1:48197/api/v1`)
 - 自定义地址：直接指定完整 URL

@@ -176,7 +175,7 @@ unilab --config path/to/your/config.py

 如果是首次使用，系统会：

-1. 提示前往 https://uni-lab.bohrium.com 注册实验室
+1. 提示前往 https://leap-lab.bohrium.com 注册实验室
 2. 引导创建配置文件
 3. 设置工作目录

@@ -216,7 +215,7 @@ unilab --ak your_ak --sk your_sk --port 8080 --disable_browser

 如果提示 "后续运行必须拥有一个实验室"，请确保：

- 已在 https://uni-lab.bohrium.com 注册实验室
+- 已在 https://leap-lab.bohrium.com 注册实验室
 - 正确设置了 `--ak` 和 `--sk` 参数
 - 配置文件中包含正确的认证信息

--- a/recipes/msgs/recipe.yaml
+++ b/recipes/msgs/recipe.yaml
@@ -1,6 +1,6 @@
 package:
  name: ros-humble-unilabos-msgs
-  version: 0.10.19
+  version: 0.11.1
 source:
  path: ../../unilabos_msgs
  target_directory: src
--- a/recipes/unilabos/recipe.yaml
+++ b/recipes/unilabos/recipe.yaml
@@ -1,6 +1,6 @@
 package:
  name: unilabos
-  version: "0.10.19"
+  version: "0.11.1"

 source:
  path: ../..
--- a/scripts/workflow.py
+++ b/scripts/workflow.py
@@ -2,6 +2,7 @@ import json
 import logging
 import traceback
 import uuid
+import xml.etree.ElementTree as ET
 from typing import Any, Dict, List

 import networkx as nx
@@ -24,15 +25,7 @@ class SimpleGraph:

    def add_edge(self, source, target, **attrs):
        """添加边"""
-        # edge = {"source": source, "target": target, **attrs}
-        edge = {
-            "source": source, "target": target,
-            "source_node_uuid": source,
-            "target_node_uuid": target,
-            "source_handle_io": "source",
-            "target_handle_io": "target",
-            **attrs
-        }
+        edge = {"source": source, "target": target, **attrs}
        self.edges.append(edge)

    def to_dict(self):
@@ -49,7 +42,6 @@ class SimpleGraph:
            "multigraph": False,
            "graph": {},
            "nodes": nodes_list,
-            "edges": self.edges,
            "links": self.edges,
        }

@@ -66,8 +58,495 @@ def extract_json_from_markdown(text: str) -> str:
    return text


+def convert_to_type(val: str) -> Any:
+    """将字符串值转换为适当的数据类型"""
+    if val == "True":
+        return True
+    if val == "False":
+        return False
+    if val == "?":
+        return None
+    if val.endswith(" g"):
+        return float(val.split(" ")[0])
+    if val.endswith("mg"):
+        return float(val.split("mg")[0])
+    elif val.endswith("mmol"):
+        return float(val.split("mmol")[0]) / 1000
+    elif val.endswith("mol"):
+        return float(val.split("mol")[0])
+    elif val.endswith("ml"):
+        return float(val.split("ml")[0])
+    elif val.endswith("RPM"):
+        return float(val.split("RPM")[0])
+    elif val.endswith(" °C"):
+        return float(val.split(" ")[0])
+    elif val.endswith(" %"):
+        return float(val.split(" ")[0])
+    return val


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


 def create_workflow(
--- a/setup.py
+++ b/setup.py
@@ -4,7 +4,7 @@ package_name = 'unilabos'

 setup(
    name=package_name,
-    version='0.10.19',
+    version='0.11.1',
    packages=find_packages(),
    include_package_data=True,
    install_requires=['setuptools'],
--- a/tests/compile/init.py
+++ b/tests/compile/init.py
--- a/tests/compile/test_batch_transfer_protocol.py
+++ b/tests/compile/test_batch_transfer_protocol.py
@@ -1,296 +0,0 @@
-"""
-批量转运编译器测试
-
-覆盖：单物料退化、刚好一批、多批次、空操作、AGV 配置发现、children dict 状态。
-"""
-
-import pytest
-import networkx as nx
-
-from unilabos.compile.batch_transfer_protocol import generate_batch_transfer_protocol
-from unilabos.compile.agv_transfer_protocol import generate_agv_transfer_protocol
-from unilabos.compile._agv_utils import find_agv_config, get_agv_capacity, split_batches
-
-
-# ============ 构建测试用设备图 ============
-
-def _make_graph(capacity_x=2, capacity_y=1, capacity_z=1):
-    """构建包含 AGV 节点的测试设备图"""
-    G = nx.DiGraph()
-
-    # AGV 节点
-    G.add_node("AGV", **{
-        "type": "device",
-        "class_": "agv_transport_station",
-        "config": {
-            "protocol_type": ["AGVTransferProtocol", "BatchTransferProtocol"],
-            "device_roles": {
-                "navigator": "zhixing_agv",
-                "arm": "zhixing_ur_arm"
-            },
-            "route_table": {
-                "StationA->StationB": {
-                    "nav_command": '{"target": "LM1"}',
-                    "arm_pick": '{"task_name": "pick.urp"}',
-                    "arm_place": '{"task_name": "place.urp"}'
-                },
-                "AGV->StationA": {
-                    "nav_command": '{"target": "LM1"}',
-                    "arm_pick": '{"task_name": "pick.urp"}',
-                    "arm_place": '{"task_name": "place.urp"}'
-                },
-                "StationA->StationA": {
-                    "nav_command": '{"target": "LM1"}',
-                    "arm_pick": '{"task_name": "pick.urp"}',
-                    "arm_place": '{"task_name": "place.urp"}'
-                },
-            }
-        }
-    })
-
-    # AGV 子设备
-    G.add_node("zhixing_agv", type="device", class_="zhixing_agv")
-    G.add_node("zhixing_ur_arm", type="device", class_="zhixing_ur_arm")
-    G.add_edge("AGV", "zhixing_agv")
-    G.add_edge("AGV", "zhixing_ur_arm")
-
-    # AGV Warehouse 子资源
-    G.add_node("agv_platform", **{
-        "type": "warehouse",
-        "config": {
-            "name": "agv_platform",
-            "num_items_x": capacity_x,
-            "num_items_y": capacity_y,
-            "num_items_z": capacity_z,
-        }
-    })
-    G.add_edge("AGV", "agv_platform")
-
-    # 来源/目标工站
-    G.add_node("StationA", type="device", class_="workstation")
-    G.add_node("StationB", type="device", class_="workstation")
-
-    return G
-
-
-def _make_repos(items_count=2):
-    """构建测试用的 from_repo 和 to_repo dict"""
-    children = {}
-    for i in range(items_count):
-        pos = f"A{i + 1:02d}"
-        children[pos] = {
-            "id": f"resource_{i + 1}",
-            "name": f"R{i + 1}",
-            "parent": "StationA",
-            "type": "resource",
-        }
-
-    from_repo = {
-        "StationA": {
-            "id": "StationA",
-            "name": "StationA",
-            "children": children,
-        }
-    }
-    to_repo = {
-        "StationB": {
-            "id": "StationB",
-            "name": "StationB",
-            "children": {},
-        }
-    }
-    return from_repo, to_repo
-
-
-def _make_items(count=2):
-    """构建 transfer_resources / from_positions / to_positions"""
-    resources = [
-        {
-            "id": f"resource_{i + 1}",
-            "name": f"R{i + 1}",
-            "sample_id": f"uuid-{i + 1}",
-            "parent": "StationA",
-            "type": "resource",
-        }
-        for i in range(count)
-    ]
-    from_positions = [f"A{i + 1:02d}" for i in range(count)]
-    to_positions = [f"A{i + 1:02d}" for i in range(count)]
-    return resources, from_positions, to_positions
-
-
-# ============ _agv_utils 测试 ============
-
-class TestAGVUtils:
-    def test_find_agv_config(self):
-        G = _make_graph()
-        cfg = find_agv_config(G)
-        assert cfg["agv_id"] == "AGV"
-        assert cfg["device_roles"]["navigator"] == "zhixing_agv"
-        assert cfg["device_roles"]["arm"] == "zhixing_ur_arm"
-        assert "StationA->StationB" in cfg["route_table"]
-
-    def test_find_agv_config_by_id(self):
-        G = _make_graph()
-        cfg = find_agv_config(G, agv_id="AGV")
-        assert cfg["agv_id"] == "AGV"
-
-    def test_find_agv_config_not_found(self):
-        G = nx.DiGraph()
-        G.add_node("SomeDevice", type="device", class_="pump")
-        with pytest.raises(ValueError, match="未找到 AGV"):
-            find_agv_config(G)
-
-    def test_get_agv_capacity(self):
-        G = _make_graph(capacity_x=2, capacity_y=1, capacity_z=1)
-        assert get_agv_capacity(G, "AGV") == 2
-
-    def test_get_agv_capacity_multi_layer(self):
-        G = _make_graph(capacity_x=1, capacity_y=2, capacity_z=3)
-        assert get_agv_capacity(G, "AGV") == 6
-
-    def test_split_batches_exact(self):
-        assert split_batches([1, 2], 2) == [[1, 2]]
-
-    def test_split_batches_overflow(self):
-        assert split_batches([1, 2, 3], 2) == [[1, 2], [3]]
-
-    def test_split_batches_single(self):
-        assert split_batches([1], 4) == [[1]]
-
-    def test_split_batches_zero_capacity(self):
-        with pytest.raises(ValueError):
-            split_batches([1], 0)
-
-
-# ============ 批量转运编译器测试 ============
-
-class TestBatchTransferProtocol:
-    def test_empty_items(self):
-        """空物料列表返回空 steps"""
-        G = _make_graph()
-        from_repo, to_repo = _make_repos(0)
-        steps = generate_batch_transfer_protocol(G, from_repo, to_repo, [], [], [])
-        assert steps == []
-
-    def test_single_item(self):
-        """单物料转运（BatchTransfer 退化为单物料）"""
-        G = _make_graph(capacity_x=2)
-        from_repo, to_repo = _make_repos(1)
-        resources, from_pos, to_pos = _make_items(1)
-        steps = generate_batch_transfer_protocol(G, from_repo, to_repo, resources, from_pos, to_pos)
-
-        # 应该有: nav到来源 + 1个pick + nav到目标 + 1个place = 4 steps
-        assert len(steps) == 4
-        assert steps[0]["action_name"] == "send_nav_task"
-        assert steps[1]["action_name"] == "move_pos_task"
-        assert steps[1]["_transfer_meta"]["phase"] == "pick"
-        assert steps[2]["action_name"] == "send_nav_task"
-        assert steps[3]["action_name"] == "move_pos_task"
-        assert steps[3]["_transfer_meta"]["phase"] == "place"
-
-    def test_exact_capacity(self):
-        """物料数 = AGV 容量，刚好一批"""
-        G = _make_graph(capacity_x=2)
-        from_repo, to_repo = _make_repos(2)
-        resources, from_pos, to_pos = _make_items(2)
-        steps = generate_batch_transfer_protocol(G, from_repo, to_repo, resources, from_pos, to_pos)
-
-        # nav + 2 pick + nav + 2 place = 6 steps
-        assert len(steps) == 6
-        pick_steps = [s for s in steps if s.get("_transfer_meta", {}).get("phase") == "pick"]
-        place_steps = [s for s in steps if s.get("_transfer_meta", {}).get("phase") == "place"]
-        assert len(pick_steps) == 2
-        assert len(place_steps) == 2
-
-    def test_multi_batch(self):
-        """物料数 > AGV 容量，自动分批"""
-        G = _make_graph(capacity_x=2)
-        from_repo, to_repo = _make_repos(3)
-        resources, from_pos, to_pos = _make_items(3)
-        steps = generate_batch_transfer_protocol(G, from_repo, to_repo, resources, from_pos, to_pos)
-
-        # 批次1: nav + 2 pick + nav + 2 place + nav(返回) = 7
-        # 批次2: nav + 1 pick + nav + 1 place = 4
-        # 总计 11 steps
-        assert len(steps) == 11
-
-        nav_steps = [s for s in steps if s["action_name"] == "send_nav_task"]
-        # 批次1: 2 nav(去来源+去目标) + 1 nav(返回) + 批次2: 2 nav = 5 nav
-        assert len(nav_steps) == 5
-
-    def test_children_dict_updated(self):
-        """compile 阶段三方 children dict 状态正确"""
-        G = _make_graph(capacity_x=2)
-        from_repo, to_repo = _make_repos(2)
-        resources, from_pos, to_pos = _make_items(2)
-
-        assert "A01" in from_repo["StationA"]["children"]
-        assert "A02" in from_repo["StationA"]["children"]
-        assert len(to_repo["StationB"]["children"]) == 0
-
-        generate_batch_transfer_protocol(G, from_repo, to_repo, resources, from_pos, to_pos)
-
-        # compile 后 from_repo 的 children 应该被 pop 掉
-        assert "A01" not in from_repo["StationA"]["children"]
-        assert "A02" not in from_repo["StationA"]["children"]
-        # to_repo 应该有新物料
-        assert "A01" in to_repo["StationB"]["children"]
-        assert "A02" in to_repo["StationB"]["children"]
-        assert to_repo["StationB"]["children"]["A01"]["id"] == "resource_1"
-
-    def test_device_ids_from_config(self):
-        """设备 ID 全部从配置读取，不硬编码"""
-        G = _make_graph()
-        from_repo, to_repo = _make_repos(1)
-        resources, from_pos, to_pos = _make_items(1)
-        steps = generate_batch_transfer_protocol(G, from_repo, to_repo, resources, from_pos, to_pos)
-
-        device_ids = {s["device_id"] for s in steps}
-        assert "zhixing_agv" in device_ids
-        assert "zhixing_ur_arm" in device_ids
-
-    def test_route_not_found(self):
-        """路由表中无对应路线时报错"""
-        G = _make_graph()
-        from_repo = {"Unknown": {"id": "Unknown", "children": {"A01": {"id": "R1", "parent": "Unknown"}}}}
-        to_repo = {"Other": {"id": "Other", "children": {}}}
-        resources = [{"id": "R1", "name": "R1"}]
-        with pytest.raises(KeyError, match="路由表"):
-            generate_batch_transfer_protocol(G, from_repo, to_repo, resources, ["A01"], ["B01"])
-
-    def test_length_mismatch(self):
-        """三个数组长度不一致时报错"""
-        G = _make_graph()
-        from_repo, to_repo = _make_repos(2)
-        resources = [{"id": "R1"}]
-        with pytest.raises(ValueError, match="长度不一致"):
-            generate_batch_transfer_protocol(G, from_repo, to_repo, resources, ["A01", "A02"], ["B01"])
-
-
-# ============ 改造后的 AGV 单物料编译器测试 ============
-
-class TestAGVTransferProtocol:
-    def test_single_transfer_from_config(self):
-        """改造后的单物料编译器从 G 读取配置"""
-        G = _make_graph()
-        from_repo = {"StationA": {"id": "StationA", "children": {"A01": {"id": "R1", "parent": "StationA"}}}}
-        to_repo = {"StationB": {"id": "StationB", "children": {}}}
-        steps = generate_agv_transfer_protocol(G, from_repo, "A01", to_repo, "B01")
-
-        assert len(steps) == 2
-        assert steps[0]["device_id"] == "zhixing_agv"
-        assert steps[0]["action_name"] == "send_nav_task"
-        assert steps[1]["device_id"] == "zhixing_ur_arm"
-        assert steps[1]["action_name"] == "move_pos_task"
-
-    def test_children_updated(self):
-        """单物料编译后 children dict 正确更新"""
-        G = _make_graph()
-        from_repo = {"StationA": {"id": "StationA", "children": {"A01": {"id": "R1", "parent": "StationA"}}}}
-        to_repo = {"StationB": {"id": "StationB", "children": {}}}
-        generate_agv_transfer_protocol(G, from_repo, "A01", to_repo, "B01")
-
-        assert "A01" not in from_repo["StationA"]["children"]
-        assert "B01" in to_repo["StationB"]["children"]
-        assert to_repo["StationB"]["children"]["B01"]["parent"] == "StationB"
--- a/tests/compile/test_full_chain_conversion_to_compile.py
+++ b/tests/compile/test_full_chain_conversion_to_compile.py
@@ -1,706 +0,0 @@
-"""
-全链路集成测试：ROS Goal 转换 → ResourceTreeSet → get_plr_nested_dict → 编译器 → 动作列表
-
-模拟 workstation.py 中的完整路径：
-1. host 返回 raw_data（模拟 resource_get 响应）
-2. ResourceTreeSet.from_raw_dict_list(raw_data) 构建资源树
-3. tree.root_node.get_plr_nested_dict() 生成嵌套 dict
-4. protocol_kwargs 传给编译器
-5. 编译器返回 action_list，验证结构和关键字段
-"""
-
-import copy
-import json
-import pytest
-import networkx as nx
-
-from unilabos.resources.resource_tracker import (
-    ResourceDictInstance,
-    ResourceTreeSet,
-)
-from unilabos.compile.utils.resource_helper import (
-    ensure_resource_instance,
-    resource_to_dict,
-    get_resource_id,
-    get_resource_data,
-)
-from unilabos.compile.utils.vessel_parser import get_vessel
-
-# ============ 构建模拟设备图 ============
-
-def _build_test_graph():
-    """构建一个包含常用设备节点的测试图"""
-    G = nx.DiGraph()
-
-    # 容器
-    G.add_node("reactor_01", **{
-        "id": "reactor_01",
-        "name": "reactor_01",
-        "type": "device",
-        "class": "virtual_stirrer",
-        "data": {},
-        "config": {},
-    })
-
-    # 搅拌设备
-    G.add_node("stirrer_1", **{
-        "id": "stirrer_1",
-        "name": "stirrer_1",
-        "type": "device",
-        "class": "virtual_stirrer",
-        "data": {},
-        "config": {},
-    })
-    G.add_edge("stirrer_1", "reactor_01")
-
-    # 加热设备
-    G.add_node("heatchill_1", **{
-        "id": "heatchill_1",
-        "name": "heatchill_1",
-        "type": "device",
-        "class": "virtual_heatchill",
-        "data": {},
-        "config": {},
-    })
-    G.add_edge("heatchill_1", "reactor_01")
-
-    # 试剂容器（液体）
-    G.add_node("flask_water", **{
-        "id": "flask_water",
-        "name": "flask_water",
-        "type": "container",
-        "class": "",
-        "data": {"reagent_name": "water", "liquid": [{"liquid_type": "water", "volume": 500.0}]},
-        "config": {"reagent": "water"},
-    })
-
-    # 固体加样器
-    G.add_node("solid_dispenser_1", **{
-        "id": "solid_dispenser_1",
-        "name": "solid_dispenser_1",
-        "type": "device",
-        "class": "solid_dispenser",
-        "data": {},
-        "config": {},
-    })
-
-    # 泵
-    G.add_node("pump_1", **{
-        "id": "pump_1",
-        "name": "pump_1",
-        "type": "device",
-        "class": "virtual_pump",
-        "data": {},
-        "config": {},
-    })
-    G.add_edge("flask_water", "pump_1")
-    G.add_edge("pump_1", "reactor_01")
-
-    return G
-
-
-# ============ 构建模拟 host 返回数据 ============
-
-def _make_raw_resource(
-    id="reactor_01",
-    uuid="uuid-reactor-01",
-    name="reactor_01",
-    klass="virtual_stirrer",
-    type_="device",
-    parent=None,
-    parent_uuid=None,
-    data=None,
-    config=None,
-    extra=None,
-):
-    """模拟 host 返回的单个资源 dict（与 resource_get 服务响应一致）"""
-    return {
-        "id": id,
-        "uuid": uuid,
-        "name": name,
-        "class": klass,
-        "type": type_,
-        "parent": parent,
-        "parent_uuid": parent_uuid or "",
-        "description": "",
-        "config": config or {},
-        "data": data or {},
-        "extra": extra or {},
-        "position": {"x": 0.0, "y": 0.0, "z": 0.0},
-    }
-
-
-def _simulate_workstation_resource_enrichment(raw_data_list, field_type="unilabos_msgs/Resource"):
-    """
-    模拟 workstation.py 中 resource enrichment 的核心逻辑：
-    raw_data → ResourceTreeSet.from_raw_dict_list → get_plr_nested_dict → protocol_kwargs[k]
-    """
-    tree_set = ResourceTreeSet.from_raw_dict_list(raw_data_list)
-
-    if field_type == "unilabos_msgs/Resource":
-        # 单个 Resource：取第一棵树的根节点
-        root_instance = tree_set.trees[0].root_node if tree_set.trees else None
-        return root_instance.get_plr_nested_dict() if root_instance else {}
-    else:
-        # sequence<Resource>：返回列表
-        return [tree.root_node.get_plr_nested_dict() for tree in tree_set.trees]
-
-
-# ============ 全链路测试：Stir 协议 ============
-
-class TestStirProtocolFullChain:
-    """Stir 协议全链路：host raw_data → enriched dict → compiler → action_list"""
-
-    def test_stir_with_enriched_resource_dict(self):
-        """单个 Resource 经过 enrichment 后传给 stir compiler"""
-        from unilabos.compile.stir_protocol import generate_stir_protocol
-
-        raw_data = [_make_raw_resource(
-            id="reactor_01", uuid="uuid-reactor-01",
-            klass="virtual_stirrer", type_="device",
-        )]
-
-        # 模拟 workstation enrichment
-        enriched_vessel = _simulate_workstation_resource_enrichment(raw_data)
-
-        assert enriched_vessel["id"] == "reactor_01"
-        assert enriched_vessel["uuid"] == "uuid-reactor-01"
-        assert enriched_vessel["class"] == "virtual_stirrer"
-
-        # 传给编译器
-        G = _build_test_graph()
-        actions = generate_stir_protocol(
-            G=G,
-            vessel=enriched_vessel,
-            time="60",
-            stir_speed=300.0,
-        )
-
-        assert isinstance(actions, list)
-        assert len(actions) >= 1
-        action = actions[0]
-        assert action["device_id"] == "stirrer_1"
-        assert action["action_name"] == "stir"
-        assert "vessel" in action["action_kwargs"]
-        assert action["action_kwargs"]["vessel"]["id"] == "reactor_01"
-
-    def test_stir_with_resource_dict_instance(self):
-        """直接用 ResourceDictInstance 传给 stir compiler（通过 get_plr_nested_dict 转换）"""
-        from unilabos.compile.stir_protocol import generate_stir_protocol
-
-        raw_data = [_make_raw_resource(id="reactor_01")]
-        tree_set = ResourceTreeSet.from_raw_dict_list(raw_data)
-        inst = tree_set.trees[0].root_node
-
-        # 通过 resource_to_dict 转换（resource_helper 兼容层）
-        vessel_dict = resource_to_dict(inst)
-        assert isinstance(vessel_dict, dict)
-        assert vessel_dict["id"] == "reactor_01"
-
-        G = _build_test_graph()
-        actions = generate_stir_protocol(G=G, vessel=vessel_dict, time="30")
-
-        assert len(actions) >= 1
-        assert actions[0]["action_name"] == "stir"
-
-    def test_stir_with_string_vessel(self):
-        """兼容旧模式：直接传 vessel 字符串"""
-        from unilabos.compile.stir_protocol import generate_stir_protocol
-
-        G = _build_test_graph()
-        actions = generate_stir_protocol(G=G, vessel="reactor_01", time="30")
-
-        assert len(actions) >= 1
-        assert actions[0]["device_id"] == "stirrer_1"
-        assert actions[0]["action_kwargs"]["vessel"]["id"] == "reactor_01"
-
-
-# ============ 全链路测试：HeatChill 协议 ============
-
-class TestHeatChillProtocolFullChain:
-    """HeatChill 协议全链路"""
-
-    def test_heatchill_with_enriched_resource(self):
-        from unilabos.compile.heatchill_protocol import generate_heat_chill_protocol
-
-        raw_data = [_make_raw_resource(id="reactor_01", klass="virtual_stirrer")]
-        enriched_vessel = _simulate_workstation_resource_enrichment(raw_data)
-
-        G = _build_test_graph()
-        actions = generate_heat_chill_protocol(
-            G=G,
-            vessel=enriched_vessel,
-            temp=80.0,
-            time="300",
-        )
-
-        assert isinstance(actions, list)
-        assert len(actions) >= 1
-        action = actions[0]
-        assert action["device_id"] == "heatchill_1"
-        assert action["action_name"] == "heat_chill"
-        assert action["action_kwargs"]["temp"] == 80.0
-
-    def test_heatchill_start_with_enriched_resource(self):
-        from unilabos.compile.heatchill_protocol import generate_heat_chill_start_protocol
-
-        raw_data = [_make_raw_resource(id="reactor_01")]
-        enriched_vessel = _simulate_workstation_resource_enrichment(raw_data)
-
-        G = _build_test_graph()
-        actions = generate_heat_chill_start_protocol(
-            G=G,
-            vessel=enriched_vessel,
-            temp=60.0,
-        )
-
-        assert len(actions) >= 1
-        assert actions[0]["action_name"] == "heat_chill_start"
-        assert actions[0]["action_kwargs"]["temp"] == 60.0
-
-    def test_heatchill_stop_with_enriched_resource(self):
-        from unilabos.compile.heatchill_protocol import generate_heat_chill_stop_protocol
-
-        raw_data = [_make_raw_resource(id="reactor_01")]
-        enriched_vessel = _simulate_workstation_resource_enrichment(raw_data)
-
-        G = _build_test_graph()
-        actions = generate_heat_chill_stop_protocol(G=G, vessel=enriched_vessel)
-
-        assert len(actions) >= 1
-        assert actions[0]["action_name"] == "heat_chill_stop"
-
-
-# ============ 全链路测试：Add 协议 ============
-
-class TestAddProtocolFullChain:
-    """Add 协议全链路：vessel enrichment + reagent 查找 + 泵传输"""
-
-    def test_add_solid_with_enriched_resource(self):
-        from unilabos.compile.add_protocol import generate_add_protocol
-
-        raw_data = [_make_raw_resource(id="reactor_01")]
-        enriched_vessel = _simulate_workstation_resource_enrichment(raw_data)
-
-        G = _build_test_graph()
-        actions = generate_add_protocol(
-            G=G,
-            vessel=enriched_vessel,
-            reagent="NaCl",
-            mass="5 g",
-        )
-
-        assert isinstance(actions, list)
-        assert len(actions) >= 1
-        # 应该包含至少一个 add_solid 或 log_message 动作
-        action_names = [a.get("action_name", "") for a in actions]
-        assert any(name in ["add_solid", "log_message"] for name in action_names)
-
-    def test_add_liquid_with_enriched_resource(self):
-        from unilabos.compile.add_protocol import generate_add_protocol
-
-        raw_data = [_make_raw_resource(id="reactor_01")]
-        enriched_vessel = _simulate_workstation_resource_enrichment(raw_data)
-
-        G = _build_test_graph()
-        actions = generate_add_protocol(
-            G=G,
-            vessel=enriched_vessel,
-            reagent="water",
-            volume="10 mL",
-        )
-
-        assert isinstance(actions, list)
-        assert len(actions) >= 1
-
-
-# ============ 全链路测试：ResourceDictInstance 兼容层 ============
-
-class TestResourceDictInstanceCompatibility:
-    """验证编译器兼容层对 ResourceDictInstance 的处理"""
-
-    def test_get_vessel_from_enriched_dict(self):
-        """get_vessel 对 enriched dict 的处理"""
-        raw_data = [_make_raw_resource(
-            id="reactor_01",
-            data={"temperature": 25.0, "liquid": [{"liquid_type": "water", "volume": 10.0}]},
-        )]
-        enriched = _simulate_workstation_resource_enrichment(raw_data)
-
-        vessel_id, vessel_data = get_vessel(enriched)
-        assert vessel_id == "reactor_01"
-        assert vessel_data["temperature"] == 25.0
-        assert len(vessel_data["liquid"]) == 1
-
-    def test_get_vessel_from_resource_instance(self):
-        """get_vessel 直接对 ResourceDictInstance 的处理"""
-        raw_data = [_make_raw_resource(
-            id="reactor_01",
-            data={"temperature": 25.0},
-        )]
-        tree_set = ResourceTreeSet.from_raw_dict_list(raw_data)
-        inst = tree_set.trees[0].root_node
-
-        vessel_id, vessel_data = get_vessel(inst)
-        assert vessel_id == "reactor_01"
-        assert vessel_data["temperature"] == 25.0
-
-    def test_ensure_resource_instance_round_trip(self):
-        """ensure_resource_instance → resource_to_dict 无损往返"""
-        raw_data = [_make_raw_resource(
-            id="reactor_01", uuid="uuid-r01", klass="virtual_stirrer",
-            data={"temp": 25.0},
-        )]
-        enriched = _simulate_workstation_resource_enrichment(raw_data)
-
-        # dict → ResourceDictInstance
-        inst = ensure_resource_instance(enriched)
-        assert isinstance(inst, ResourceDictInstance)
-        assert inst.res_content.id == "reactor_01"
-        assert inst.res_content.uuid == "uuid-r01"
-
-        # ResourceDictInstance → dict
-        d = resource_to_dict(inst)
-        assert isinstance(d, dict)
-        assert d["id"] == "reactor_01"
-        assert d["uuid"] == "uuid-r01"
-        assert d["class"] == "virtual_stirrer"
-
-
-# ============ 全链路测试：带 children 的资源树 ============
-
-class TestResourceTreeWithChildren:
-    """测试带 children 结构的资源树通过编译器的路径"""
-
-    def _make_tree_with_children(self):
-        """构建 StationA -> [Flask1, Flask2] 的资源树"""
-        return [
-            _make_raw_resource(
-                id="StationA", uuid="uuid-station-a",
-                name="StationA", klass="workstation", type_="device",
-            ),
-            _make_raw_resource(
-                id="Flask1", uuid="uuid-flask-1",
-                name="Flask1", klass="", type_="resource",
-                parent="StationA", parent_uuid="uuid-station-a",
-                data={"liquid": [{"liquid_type": "water", "volume": 10.0}]},
-            ),
-            _make_raw_resource(
-                id="Flask2", uuid="uuid-flask-2",
-                name="Flask2", klass="", type_="resource",
-                parent="StationA", parent_uuid="uuid-station-a",
-                data={"liquid": [{"liquid_type": "ethanol", "volume": 5.0}]},
-            ),
-        ]
-
-    def test_enrichment_preserves_children_structure(self):
-        """验证 enrichment 后 children 为嵌套 dict"""
-        raw_data = self._make_tree_with_children()
-        enriched = _simulate_workstation_resource_enrichment(raw_data)
-
-        assert enriched["id"] == "StationA"
-        assert "children" in enriched
-        assert isinstance(enriched["children"], dict)
-        assert "Flask1" in enriched["children"]
-        assert "Flask2" in enriched["children"]
-
-    def test_children_preserve_uuid_and_data(self):
-        """验证 children 中的 uuid 和 data 被正确保留"""
-        raw_data = self._make_tree_with_children()
-        enriched = _simulate_workstation_resource_enrichment(raw_data)
-
-        flask1 = enriched["children"]["Flask1"]
-        assert flask1["uuid"] == "uuid-flask-1"
-        assert flask1["data"]["liquid"][0]["liquid_type"] == "water"
-        assert flask1["data"]["liquid"][0]["volume"] == 10.0
-
-        flask2 = enriched["children"]["Flask2"]
-        assert flask2["uuid"] == "uuid-flask-2"
-        assert flask2["data"]["liquid"][0]["liquid_type"] == "ethanol"
-
-    def test_children_dict_can_be_popped(self):
-        """模拟 batch_transfer_protocol 中 pop children 的操作"""
-        raw_data = self._make_tree_with_children()
-        enriched = _simulate_workstation_resource_enrichment(raw_data)
-
-        # batch_transfer_protocol 中会 pop children
-        children = enriched["children"]
-        popped = children.pop("Flask1")
-        assert popped["id"] == "Flask1"
-        assert "Flask1" not in enriched["children"]
-        assert "Flask2" in enriched["children"]
-
-    def test_children_dict_usable_as_from_repo(self):
-        """模拟 batch_transfer_protocol 中 from_repo 参数"""
-        raw_data = self._make_tree_with_children()
-        enriched = _simulate_workstation_resource_enrichment(raw_data)
-
-        # 模拟编译器接收的 from_repo 格式
-        from_repo = {"StationA": enriched}
-        from_repo_ = list(from_repo.values())[0]
-
-        assert from_repo_["id"] == "StationA"
-        assert "Flask1" in from_repo_["children"]
-        assert from_repo_["children"]["Flask1"]["uuid"] == "uuid-flask-1"
-
-    def test_sequence_resource_enrichment(self):
-        """sequence<Resource> 情况：多个独立资源树"""
-        raw_data1 = [_make_raw_resource(id="R1", uuid="uuid-r1")]
-        raw_data2 = [_make_raw_resource(id="R2", uuid="uuid-r2")]
-
-        tree_set1 = ResourceTreeSet.from_raw_dict_list(raw_data1)
-        tree_set2 = ResourceTreeSet.from_raw_dict_list(raw_data2)
-
-        results = [
-            tree.root_node.get_plr_nested_dict()
-            for ts in [tree_set1, tree_set2]
-            for tree in ts.trees
-        ]
-
-        assert len(results) == 2
-        assert results[0]["id"] == "R1"
-        assert results[1]["id"] == "R2"
-
-
-# ============ 全链路测试：动作列表结构验证 ============
-
-class TestActionListStructure:
-    """验证编译器返回的 action_list 结构符合 workstation 预期"""
-
-    def _validate_action(self, action):
-        """验证单个 action dict 的结构"""
-        if action.get("action_name") == "wait":
-            # wait 伪动作不需要 device_id
-            assert "action_kwargs" in action
-            assert "time" in action["action_kwargs"]
-            return
-
-        if action.get("action_name") == "log_message":
-            # log 伪动作
-            assert "action_kwargs" in action
-            return
-
-        # 正常设备动作
-        assert "device_id" in action, f"action 缺少 device_id: {action}"
-        assert "action_name" in action, f"action 缺少 action_name: {action}"
-        assert "action_kwargs" in action, f"action 缺少 action_kwargs: {action}"
-        assert isinstance(action["action_kwargs"], dict)
-
-    def test_stir_action_list_structure(self):
-        from unilabos.compile.stir_protocol import generate_stir_protocol
-
-        raw_data = [_make_raw_resource(id="reactor_01")]
-        enriched = _simulate_workstation_resource_enrichment(raw_data)
-
-        G = _build_test_graph()
-        actions = generate_stir_protocol(G=G, vessel=enriched, time="60")
-
-        for action in actions:
-            if isinstance(action, list):
-                # 并行动作
-                for sub_action in action:
-                    self._validate_action(sub_action)
-            else:
-                self._validate_action(action)
-
-    def test_heatchill_action_list_structure(self):
-        from unilabos.compile.heatchill_protocol import generate_heat_chill_protocol
-
-        raw_data = [_make_raw_resource(id="reactor_01")]
-        enriched = _simulate_workstation_resource_enrichment(raw_data)
-
-        G = _build_test_graph()
-        actions = generate_heat_chill_protocol(G=G, vessel=enriched, temp=80.0, time="60")
-
-        for action in actions:
-            if isinstance(action, list):
-                for sub_action in action:
-                    self._validate_action(sub_action)
-            else:
-                self._validate_action(action)
-
-    def test_add_action_list_structure(self):
-        from unilabos.compile.add_protocol import generate_add_protocol
-
-        raw_data = [_make_raw_resource(id="reactor_01")]
-        enriched = _simulate_workstation_resource_enrichment(raw_data)
-
-        G = _build_test_graph()
-        actions = generate_add_protocol(G=G, vessel=enriched, reagent="NaCl", mass="5 g")
-
-        for action in actions:
-            if isinstance(action, list):
-                for sub_action in action:
-                    self._validate_action(sub_action)
-            else:
-                self._validate_action(action)
-
-
-# ============ 全链路测试：message_converter 到 enrichment ============
-
-class TestMessageConverterToEnrichment:
-    """模拟从 ROS 消息转换后的 dict 到 enrichment 的完整链路"""
-
-    def test_ros_goal_conversion_simulation(self):
-        """
-        模拟 workstation.py 中的完整流程：
-        1. ROS goal 中的 vessel 字段被 convert_from_ros_msg 转换为浅层 dict
-        2. workstation 用 resource_id 请求 host 获取完整资源数据
-        3. ResourceTreeSet.from_raw_dict_list 构建资源树
-        4. get_plr_nested_dict 生成嵌套 dict 替换 protocol_kwargs[k]
-        """
-        # 步骤1: 模拟 convert_from_ros_msg 的输出（浅层 dict，只有 id 等基本字段）
-        shallow_vessel = {
-            "id": "reactor_01",
-            "uuid": "uuid-reactor-01",
-            "name": "reactor_01",
-            "type": "device",
-            "category": "virtual_stirrer",
-            "children": [],
-            "parent": "",
-            "parent_uuid": "",
-            "config": {},
-            "data": {},
-            "extra": {},
-            "position": {"x": 0.0, "y": 0.0, "z": 0.0},
-        }
-
-        protocol_kwargs = {
-            "vessel": shallow_vessel,
-            "time": "300",
-            "stir_speed": 300.0,
-        }
-
-        # 步骤2: 提取 resource_id
-        resource_id = protocol_kwargs["vessel"]["id"]
-        assert resource_id == "reactor_01"
-
-        # 步骤3: 模拟 host 返回完整数据（带 children）
-        host_response = [
-            _make_raw_resource(
-                id="reactor_01", uuid="uuid-reactor-01",
-                klass="virtual_stirrer", type_="device",
-                data={"temperature": 25.0, "pressure": 1.0},
-                config={"max_temp": 300.0},
-            ),
-        ]
-
-        # 步骤4: enrichment
-        enriched = _simulate_workstation_resource_enrichment(host_response)
-        protocol_kwargs["vessel"] = enriched
-
-        # 验证 enrichment 后的 protocol_kwargs
-        assert protocol_kwargs["vessel"]["id"] == "reactor_01"
-        assert protocol_kwargs["vessel"]["uuid"] == "uuid-reactor-01"
-        assert protocol_kwargs["vessel"]["class"] == "virtual_stirrer"
-        assert protocol_kwargs["vessel"]["data"]["temperature"] == 25.0
-        assert protocol_kwargs["vessel"]["config"]["max_temp"] == 300.0
-
-        # 步骤5: 传给编译器
-        from unilabos.compile.stir_protocol import generate_stir_protocol
-        G = _build_test_graph()
-        actions = generate_stir_protocol(G=G, **protocol_kwargs)
-
-        assert len(actions) >= 1
-        assert actions[0]["device_id"] == "stirrer_1"
-        assert actions[0]["action_name"] == "stir"
-
-    def test_ros_goal_with_children_enrichment(self):
-        """ROS goal → enrichment 带 children 的场景（batch transfer）"""
-        # 模拟 host 返回带 children 的数据
-        host_response = [
-            _make_raw_resource(
-                id="StationA", uuid="uuid-sa", klass="workstation", type_="device",
-                config={"num_items_x": 4, "num_items_y": 2},
-            ),
-            _make_raw_resource(
-                id="Plate1", uuid="uuid-p1", type_="resource",
-                parent="StationA", parent_uuid="uuid-sa",
-                data={"sample": "sample_A"},
-            ),
-            _make_raw_resource(
-                id="Plate2", uuid="uuid-p2", type_="resource",
-                parent="StationA", parent_uuid="uuid-sa",
-                data={"sample": "sample_B"},
-            ),
-        ]
-
-        enriched = _simulate_workstation_resource_enrichment(host_response)
-
-        assert enriched["id"] == "StationA"
-        assert enriched["class"] == "workstation"
-        assert len(enriched["children"]) == 2
-        assert enriched["children"]["Plate1"]["data"]["sample"] == "sample_A"
-        assert enriched["children"]["Plate2"]["uuid"] == "uuid-p2"
-
-        # 模拟 batch_transfer 的 from_repo 格式
-        from_repo = {"StationA": enriched}
-        from_repo_ = list(from_repo.values())[0]
-        assert "Plate1" in from_repo_["children"]
-        assert from_repo_["children"]["Plate1"]["uuid"] == "uuid-p1"
-
-
-# ============ 全链路测试：多协议连续调用 ============
-
-class TestMultiProtocolChain:
-    """模拟连续执行多个协议（如 add → stir → heatchill）"""
-
-    def test_sequential_protocol_execution(self):
-        """模拟典型合成路径：add → stir → heatchill"""
-        from unilabos.compile.stir_protocol import generate_stir_protocol
-        from unilabos.compile.heatchill_protocol import generate_heat_chill_protocol
-        from unilabos.compile.add_protocol import generate_add_protocol
-
-        raw_data = [_make_raw_resource(
-            id="reactor_01", uuid="uuid-reactor-01",
-            klass="virtual_stirrer", type_="device",
-        )]
-        enriched = _simulate_workstation_resource_enrichment(raw_data)
-        G = _build_test_graph()
-
-        # 每次调用用 enriched 的副本，避免编译器修改原数据
-        all_actions = []
-
-        # 步骤1: 添加试剂
-        add_actions = generate_add_protocol(
-            G=G, vessel=copy.deepcopy(enriched),
-            reagent="NaCl", mass="5 g",
-        )
-        all_actions.extend(add_actions)
-
-        # 步骤2: 搅拌
-        stir_actions = generate_stir_protocol(
-            G=G, vessel=copy.deepcopy(enriched),
-            time="60", stir_speed=300.0,
-        )
-        all_actions.extend(stir_actions)
-
-        # 步骤3: 加热
-        heat_actions = generate_heat_chill_protocol(
-            G=G, vessel=copy.deepcopy(enriched),
-            temp=80.0, time="300",
-        )
-        all_actions.extend(heat_actions)
-
-        # 验证总动作列表
-        assert len(all_actions) >= 3
-        # 每个协议至少产生一个核心动作
-        action_names = [a.get("action_name", "") for a in all_actions if isinstance(a, dict)]
-        assert "stir" in action_names
-        assert "heat_chill" in action_names
-
-    def test_enriched_resource_not_mutated(self):
-        """验证编译器不应修改传入的 enriched dict（如果需要修改应 deepcopy）"""
-        from unilabos.compile.stir_protocol import generate_stir_protocol
-
-        raw_data = [_make_raw_resource(id="reactor_01")]
-        enriched = _simulate_workstation_resource_enrichment(raw_data)
-        original_id = enriched["id"]
-        original_uuid = enriched["uuid"]
-
-        G = _build_test_graph()
-        generate_stir_protocol(G=G, vessel=enriched, time="60")
-
-        # 验证 enriched dict 核心字段未被修改
-        assert enriched["id"] == original_id
-        assert enriched["uuid"] == original_uuid
--- a/tests/compile/test_pump_separate_full_chain.py
+++ b/tests/compile/test_pump_separate_full_chain.py
@@ -1,538 +0,0 @@
-"""
-PumpTransfer 和 Separate 全链路测试
-
-构建包含泵/阀门/分液漏斗的完整设备图，
-输出完整的中间数据（最短路径、泵骨架、动作列表等）。
-"""
-
-import copy
-import json
-import pprint
-import pytest
-import networkx as nx
-
-from unilabos.resources.resource_tracker import ResourceTreeSet
-from unilabos.compile.utils.resource_helper import get_resource_id, get_resource_data
-from unilabos.compile.utils.vessel_parser import get_vessel
-
-
-def _make_raw_resource(id, uuid=None, name=None, klass="", type_="device",
-                       parent=None, parent_uuid=None, data=None, config=None, extra=None):
-    return {
-        "id": id,
-        "uuid": uuid or f"uuid-{id}",
-        "name": name or id,
-        "class": klass,
-        "type": type_,
-        "parent": parent,
-        "parent_uuid": parent_uuid or "",
-        "description": "",
-        "config": config or {},
-        "data": data or {},
-        "extra": extra or {},
-        "position": {"x": 0.0, "y": 0.0, "z": 0.0},
-    }
-
-
-def _simulate_enrichment(raw_data_list):
-    tree_set = ResourceTreeSet.from_raw_dict_list(raw_data_list)
-    root = tree_set.trees[0].root_node if tree_set.trees else None
-    return root.get_plr_nested_dict() if root else {}
-
-
-def _build_pump_transfer_graph():
-    """
-    构建带泵/阀门的设备图，用于测试 PumpTransfer:
-
-    flask_water (container)
-        ↓
-    valve_1 (multiway_valve, pump_1 连接)
-        ↓
-    reactor_01 (device)
-
-    同时有: stirrer_1, heatchill_1, separator_1
-    """
-    G = nx.DiGraph()
-
-    # 源容器
-    G.add_node("flask_water", **{
-        "id": "flask_water", "name": "flask_water",
-        "type": "container", "class": "",
-        "data": {"reagent_name": "water", "liquid": [{"liquid_type": "water", "volume": 200.0}]},
-        "config": {"reagent": "water"},
-    })
-
-    # 多通阀
-    G.add_node("valve_1", **{
-        "id": "valve_1", "name": "valve_1",
-        "type": "device", "class": "multiway_valve",
-        "data": {}, "config": {},
-    })
-
-    # 注射泵（连接到阀门）
-    G.add_node("pump_1", **{
-        "id": "pump_1", "name": "pump_1",
-        "type": "device", "class": "virtual_pump",
-        "data": {}, "config": {"max_volume": 25.0},
-    })
-
-    # 目标容器
-    G.add_node("reactor_01", **{
-        "id": "reactor_01", "name": "reactor_01",
-        "type": "device", "class": "virtual_stirrer",
-        "data": {"liquid": [{"liquid_type": "water", "volume": 50.0}]},
-        "config": {},
-    })
-
-    # 搅拌器
-    G.add_node("stirrer_1", **{
-        "id": "stirrer_1", "name": "stirrer_1",
-        "type": "device", "class": "virtual_stirrer",
-        "data": {}, "config": {},
-    })
-
-    # 加热器
-    G.add_node("heatchill_1", **{
-        "id": "heatchill_1", "name": "heatchill_1",
-        "type": "device", "class": "virtual_heatchill",
-        "data": {}, "config": {},
-    })
-
-    # 分离器
-    G.add_node("separator_1", **{
-        "id": "separator_1", "name": "separator_1",
-        "type": "device", "class": "separator_controller",
-        "data": {}, "config": {},
-    })
-
-    # 废液容器
-    G.add_node("waste_workup", **{
-        "id": "waste_workup", "name": "waste_workup",
-        "type": "container", "class": "",
-        "data": {}, "config": {},
-    })
-
-    # 产物收集瓶
-    G.add_node("product_flask", **{
-        "id": "product_flask", "name": "product_flask",
-        "type": "container", "class": "",
-        "data": {}, "config": {},
-    })
-
-    # DCM溶剂瓶
-    G.add_node("flask_dcm", **{
-        "id": "flask_dcm", "name": "flask_dcm",
-        "type": "container", "class": "",
-        "data": {"reagent_name": "dcm", "liquid": [{"liquid_type": "dcm", "volume": 500.0}]},
-        "config": {"reagent": "dcm"},
-    })
-
-    # 边连接 —— flask_water → valve_1 → reactor_01
-    G.add_edge("flask_water", "valve_1", port={"valve_1": "port_1"})
-    G.add_edge("valve_1", "reactor_01", port={"valve_1": "port_2"})
-    # 阀门 → 泵
-    G.add_edge("valve_1", "pump_1")
-    G.add_edge("pump_1", "valve_1")
-    # 搅拌器 ↔ reactor
-    G.add_edge("stirrer_1", "reactor_01")
-    # 加热器 ↔ reactor
-    G.add_edge("heatchill_1", "reactor_01")
-    # 分离器 ↔ reactor
-    G.add_edge("separator_1", "reactor_01")
-    G.add_edge("reactor_01", "separator_1")
-    # DCM → valve → reactor (同一泵路)
-    G.add_edge("flask_dcm", "valve_1", port={"valve_1": "port_3"})
-    # reactor → valve → product/waste
-    G.add_edge("valve_1", "product_flask", port={"valve_1": "port_4"})
-    G.add_edge("valve_1", "waste_workup", port={"valve_1": "port_5"})
-
-    return G
-
-
-def _format_action(action, indent=0):
-    """格式化单个 action 为可读字符串"""
-    prefix = "  " * indent
-    if isinstance(action, list):
-        # 并行动作
-        lines = [f"{prefix}[PARALLEL]"]
-        for sub in action:
-            lines.append(_format_action(sub, indent + 1))
-        return "\n".join(lines)
-
-    name = action.get("action_name", "?")
-    device = action.get("device_id", "")
-    kwargs = action.get("action_kwargs", {})
-    comment = action.get("_comment", "")
-    meta = action.get("_transfer_meta", "")
-
-    parts = [f"{prefix}→ {device}::{name}"]
-    if kwargs:
-        # 精简输出
-        kw_str = ", ".join(f"{k}={v}" for k, v in kwargs.items()
-                           if k not in ("progress_message",))
-        if kw_str:
-            parts.append(f"  kwargs: {{{kw_str}}}")
-    if comment:
-        parts.append(f"  # {comment}")
-    if meta:
-        parts.append(f"  meta: {meta}")
-    return "\n".join(f"{prefix}{p}" if i > 0 else p for i, p in enumerate(parts))
-
-
-def _dump_actions(actions, title=""):
-    """打印完整动作列表"""
-    print(f"\n{'='*70}")
-    print(f"  {title}")
-    print(f"  总动作数: {len(actions)}")
-    print(f"{'='*70}")
-    for i, action in enumerate(actions):
-        print(f"\n  [{i:02d}] {_format_action(action, indent=2)}")
-    print(f"\n{'='*70}\n")
-
-
-# ==================== PumpTransfer 全链路 ====================
-
-class TestPumpTransferFullChain:
-    """PumpTransfer: 包含图路径查找、泵骨架构建、动作序列生成"""
-
-    def test_pump_transfer_basic(self):
-        """基础泵转移：flask_water → valve_1 → reactor_01"""
-        from unilabos.compile.pump_protocol import generate_pump_protocol
-
-        G = _build_pump_transfer_graph()
-
-        # 检查最短路径
-        path = nx.shortest_path(G, "flask_water", "reactor_01")
-        print(f"\n最短路径: {path}")
-        assert "valve_1" in path
-
-        # 调用编译器
-        actions = generate_pump_protocol(
-            G=G,
-            from_vessel_id="flask_water",
-            to_vessel_id="reactor_01",
-            volume=10.0,
-            flowrate=2.5,
-            transfer_flowrate=0.5,
-        )
-
-        _dump_actions(actions, "PumpTransfer: flask_water → reactor_01, 10mL")
-
-        # 验证
-        assert isinstance(actions, list)
-        assert len(actions) > 0
-        # 应该有 set_valve_position 和 set_position 动作
-        flat = [a for a in actions if isinstance(a, dict)]
-        action_names = [a.get("action_name") for a in flat]
-        print(f"动作名称列表: {action_names}")
-        assert "set_valve_position" in action_names
-        assert "set_position" in action_names
-
-    def test_pump_transfer_with_rinsing_enriched_vessel(self):
-        """pump_with_rinsing 接收 enriched vessel dict"""
-        from unilabos.compile.pump_protocol import generate_pump_protocol_with_rinsing
-
-        G = _build_pump_transfer_graph()
-
-        # 模拟 enrichment
-        from_raw = [_make_raw_resource(
-            id="flask_water", klass="", type_="container",
-            data={"reagent_name": "water", "liquid": [{"liquid_type": "water", "volume": 200.0}]},
-        )]
-        to_raw = [_make_raw_resource(
-            id="reactor_01", klass="virtual_stirrer", type_="device",
-        )]
-
-        from_enriched = _simulate_enrichment(from_raw)
-        to_enriched = _simulate_enrichment(to_raw)
-
-        print(f"\nfrom_vessel enriched: {json.dumps(from_enriched, indent=2, ensure_ascii=False)[:300]}...")
-        print(f"to_vessel enriched: {json.dumps(to_enriched, indent=2, ensure_ascii=False)[:300]}...")
-
-        # get_vessel 兼容
-        fid, fdata = get_vessel(from_enriched)
-        tid, tdata = get_vessel(to_enriched)
-        print(f"from_vessel_id={fid}, to_vessel_id={tid}")
-        assert fid == "flask_water"
-        assert tid == "reactor_01"
-
-        actions = generate_pump_protocol_with_rinsing(
-            G=G,
-            from_vessel=from_enriched,
-            to_vessel=to_enriched,
-            volume=15.0,
-            flowrate=2.5,
-            transfer_flowrate=0.5,
-        )
-
-        _dump_actions(actions, "PumpTransferWithRinsing: flask_water → reactor_01, 15mL (enriched)")
-
-        assert isinstance(actions, list)
-        assert len(actions) > 0
-
-    def test_pump_transfer_multi_batch(self):
-        """体积 > max_volume 时自动分批"""
-        from unilabos.compile.pump_protocol import generate_pump_protocol
-
-        G = _build_pump_transfer_graph()
-
-        # pump_1 的 max_volume = 25mL，转 60mL 应该分 3 批
-        actions = generate_pump_protocol(
-            G=G,
-            from_vessel_id="flask_water",
-            to_vessel_id="reactor_01",
-            volume=60.0,
-            flowrate=2.5,
-            transfer_flowrate=0.5,
-        )
-
-        _dump_actions(actions, "PumpTransfer 分批: 60mL (max_volume=25mL, 预期 3 批)")
-
-        assert len(actions) > 0
-        # 应该有多轮 set_position
-        flat = [a for a in actions if isinstance(a, dict)]
-        set_position_count = sum(1 for a in flat if a.get("action_name") == "set_position")
-        print(f"set_position 动作数: {set_position_count}")
-        # 3批 × 2次 (吸液 + 排液) = 6 次 set_position
-        assert set_position_count >= 6
-
-    def test_pump_transfer_no_path(self):
-        """无路径时返回空"""
-        from unilabos.compile.pump_protocol import generate_pump_protocol
-
-        G = _build_pump_transfer_graph()
-        G.add_node("isolated_flask", type="container")
-
-        actions = generate_pump_protocol(
-            G=G,
-            from_vessel_id="isolated_flask",
-            to_vessel_id="reactor_01",
-            volume=10.0,
-        )
-
-        print(f"\n无路径时的动作列表: {actions}")
-        assert actions == []
-
-    def test_pump_backbone_filtering(self):
-        """验证泵骨架过滤逻辑（电磁阀被跳过）"""
-        from unilabos.compile.pump_protocol import generate_pump_protocol
-
-        G = _build_pump_transfer_graph()
-        # 添加电磁阀到路径中
-        G.add_node("solenoid_valve_1", **{
-            "type": "device", "class": "solenoid_valve",
-            "data": {}, "config": {},
-        })
-        # flask_water → solenoid_valve_1 → valve_1 → reactor_01
-        G.remove_edge("flask_water", "valve_1")
-        G.add_edge("flask_water", "solenoid_valve_1")
-        G.add_edge("solenoid_valve_1", "valve_1")
-
-        path = nx.shortest_path(G, "flask_water", "reactor_01")
-        print(f"\n含电磁阀的路径: {path}")
-        assert "solenoid_valve_1" in path
-
-        actions = generate_pump_protocol(
-            G=G,
-            from_vessel_id="flask_water",
-            to_vessel_id="reactor_01",
-            volume=10.0,
-        )
-
-        _dump_actions(actions, "PumpTransfer 含电磁阀: flask_water → solenoid → valve_1 → reactor_01")
-        # 电磁阀应被跳过，泵骨架只有 valve_1
-        assert len(actions) > 0
-
-
-# ==================== Separate 全链路 ====================
-
-class TestSeparateProtocolFullChain:
-    """Separate: 包含 bug 确认和正常路径测试"""
-
-    def test_separate_bug_line_128_fixed(self):
-        """验证 separate_protocol.py:128 的 bug 已修复（不再 crash）"""
-        from unilabos.compile.separate_protocol import generate_separate_protocol
-
-        G = _build_pump_transfer_graph()
-
-        raw_data = [_make_raw_resource(
-            id="reactor_01", klass="virtual_stirrer",
-            data={"liquid": [{"liquid_type": "water", "volume": 100.0}]},
-        )]
-        enriched = _simulate_enrichment(raw_data)
-
-        # 修复前：final_vessel_id, _ = vessel_id 会 crash（字符串解包）
-        # 修复后：final_vessel_id = vessel_id，正常返回 action 列表
-        result = generate_separate_protocol(
-            G=G,
-            vessel=enriched,
-            purpose="extract",
-            product_phase="top",
-            product_vessel="product_flask",
-            waste_vessel="waste_workup",
-            solvent="dcm",
-            volume="100 mL",
-        )
-        assert isinstance(result, list)
-        assert len(result) > 0
-
-    def test_separate_manual_workaround(self):
-        """
-        绕过 line 128 bug，手动测试分离编译器中可以工作的子函数
-        """
-        from unilabos.compile.separate_protocol import (
-            find_separator_device,
-            find_separation_vessel_bottom,
-        )
-        from unilabos.compile.utils.vessel_parser import (
-            find_connected_stirrer,
-            find_solvent_vessel,
-        )
-        from unilabos.compile.utils.unit_parser import parse_volume_input
-        from unilabos.compile.utils.resource_helper import get_resource_liquid_volume as get_vessel_liquid_volume
-
-        G = _build_pump_transfer_graph()
-
-        # 1. get_vessel 解析 enriched dict
-        raw_data = [_make_raw_resource(
-            id="reactor_01", klass="virtual_stirrer",
-            data={"liquid": [{"liquid_type": "water", "volume": 100.0}]},
-        )]
-        enriched = _simulate_enrichment(raw_data)
-        vessel_id, vessel_data = get_vessel(enriched)
-        print(f"\nvessel_id: {vessel_id}")
-        print(f"vessel_data: {vessel_data}")
-        assert vessel_id == "reactor_01"
-        assert vessel_data["liquid"][0]["volume"] == 100.0
-
-        # 2. find_separator_device
-        sep = find_separator_device(G, vessel_id)
-        print(f"分离器设备: {sep}")
-        assert sep == "separator_1"
-
-        # 3. find_connected_stirrer
-        stirrer = find_connected_stirrer(G, vessel_id)
-        print(f"搅拌器设备: {stirrer}")
-        assert stirrer == "stirrer_1"
-
-        # 4. find_solvent_vessel
-        solvent_v = find_solvent_vessel(G, "dcm")
-        print(f"DCM溶剂容器: {solvent_v}")
-        assert solvent_v == "flask_dcm"
-
-        # 5. parse_volume_input
-        vol = parse_volume_input("200 mL")
-        print(f"体积解析: '200 mL' → {vol}")
-        assert vol == 200.0
-
-        vol2 = parse_volume_input("1.5 L")
-        print(f"体积解析: '1.5 L' → {vol2}")
-        assert vol2 == 1500.0
-
-        # 6. get_vessel_liquid_volume
-        liq_vol = get_vessel_liquid_volume(enriched)
-        print(f"液体体积 (enriched dict): {liq_vol}")
-        assert liq_vol == 100.0
-
-        # 7. find_separation_vessel_bottom
-        bottom = find_separation_vessel_bottom(G, vessel_id)
-        print(f"分离容器底部: {bottom}")
-        # 当前图中没有命名匹配的底部容器
-
-    def test_pump_transfer_for_separate_subflow(self):
-        """测试 separate 中调用的 pump 子流程（溶剂添加 → 分液漏斗）"""
-        from unilabos.compile.pump_protocol import generate_pump_protocol_with_rinsing
-
-        G = _build_pump_transfer_graph()
-
-        # 模拟分离前的溶剂添加步骤
-        actions = generate_pump_protocol_with_rinsing(
-            G=G,
-            from_vessel="flask_dcm",
-            to_vessel="reactor_01",
-            volume=100.0,
-            flowrate=2.5,
-            transfer_flowrate=0.5,
-        )
-
-        _dump_actions(actions, "Separate 子流程: flask_dcm → reactor_01, 100mL DCM")
-
-        assert isinstance(actions, list)
-        assert len(actions) > 0
-
-        # 模拟分离后产物转移
-        actions2 = generate_pump_protocol_with_rinsing(
-            G=G,
-            from_vessel="reactor_01",
-            to_vessel="product_flask",
-            volume=50.0,
-            flowrate=2.5,
-            transfer_flowrate=0.5,
-        )
-
-        _dump_actions(actions2, "Separate 子流程: reactor_01 → product_flask, 50mL 产物")
-
-        assert len(actions2) > 0
-
-        # 废液转移
-        actions3 = generate_pump_protocol_with_rinsing(
-            G=G,
-            from_vessel="reactor_01",
-            to_vessel="waste_workup",
-            volume=50.0,
-            flowrate=2.5,
-            transfer_flowrate=0.5,
-        )
-
-        _dump_actions(actions3, "Separate 子流程: reactor_01 → waste_workup, 50mL 废液")
-
-        assert len(actions3) > 0
-
-
-# ==================== 图路径可视化 ====================
-
-class TestGraphPathVisualization:
-    """输出图中关键路径信息"""
-
-    def test_all_shortest_paths(self):
-        """输出所有容器之间的最短路径"""
-        G = _build_pump_transfer_graph()
-
-        containers = [n for n in G.nodes() if G.nodes[n].get("type") == "container"]
-        devices = [n for n in G.nodes() if G.nodes[n].get("type") == "device"]
-
-        print(f"\n{'='*70}")
-        print(f"  设备图概览")
-        print(f"{'='*70}")
-        print(f"  容器节点 ({len(containers)}): {containers}")
-        print(f"  设备节点 ({len(devices)}): {devices}")
-        print(f"  边数: {G.number_of_edges()}")
-        print(f"  边列表:")
-        for u, v, data in G.edges(data=True):
-            port_info = data.get("port", "")
-            print(f"    {u} → {v}  {port_info if port_info else ''}")
-
-        print(f"\n  关键路径:")
-        pairs = [
-            ("flask_water", "reactor_01"),
-            ("flask_dcm", "reactor_01"),
-            ("reactor_01", "product_flask"),
-            ("reactor_01", "waste_workup"),
-            ("flask_water", "product_flask"),
-        ]
-        for src, dst in pairs:
-            try:
-                path = nx.shortest_path(G, src, dst)
-                length = len(path) - 1
-                # 标注路径上的节点类型
-                annotated = []
-                for n in path:
-                    ntype = G.nodes[n].get("type", "?")
-                    nclass = G.nodes[n].get("class", "")
-                    annotated.append(f"{n}({ntype}{'/' + nclass if nclass else ''})")
-                print(f"    {src} → {dst}: 距离={length}")
-                print(f"      路径: {' → '.join(annotated)}")
-            except nx.NetworkXNoPath:
-                print(f"    {src} → {dst}: 无路径!")
-
-        print(f"{'='*70}\n")
--- a/tests/compile/test_resource_conversion_path.py
+++ b/tests/compile/test_resource_conversion_path.py
@@ -1,324 +0,0 @@
-"""
-ROS Goal → Resource 转换 → 编译器路径的集成测试
-
-覆盖：
-1. Resource.msg 新字段(uuid, klass, extra)的往返转换
-2. dict → ROS Resource → dict 往返无损
-3. ResourceTreeSet → get_plr_nested_dict 保留 children 结构
-4. resource_helper 兼容 dict / ResourceDictInstance
-5. vessel_parser.get_vessel 兼容 ResourceDictInstance
-"""
-
-import json
-import pytest
-
-# 不依赖 ROS 的测试 —— 直接测试 resource 处理路径
-from unilabos.resources.resource_tracker import (
-    ResourceDict,
-    ResourceDictInstance,
-    ResourceTreeInstance,
-    ResourceTreeSet,
-)
-from unilabos.compile.utils.resource_helper import (
-    ensure_resource_instance,
-    resource_to_dict,
-    get_resource_id,
-    get_resource_data,
-    get_resource_display_info,
-    get_resource_liquid_volume,
-)
-from unilabos.compile.utils.vessel_parser import get_vessel
-
-
-# ============ 构建测试数据 ============
-
-
-def _make_resource_dict(
-    id="reactor_01",
-    uuid="uuid-reactor-01",
-    name="reactor_01",
-    klass="virtual_stirrer",
-    type_="device",
-    parent=None,
-    parent_uuid=None,
-    data=None,
-    config=None,
-    extra=None,
-):
-    return {
-        "id": id,
-        "uuid": uuid,
-        "name": name,
-        "class": klass,
-        "type": type_,
-        "parent": parent,
-        "parent_uuid": parent_uuid or "",
-        "description": "",
-        "config": config or {},
-        "data": data or {},
-        "extra": extra or {},
-        "position": {"x": 1.0, "y": 2.0, "z": 3.0},
-    }
-
-
-def _make_resource_instance(id="reactor_01", **kwargs):
-    d = _make_resource_dict(id=id, **kwargs)
-    return ResourceDictInstance.get_resource_instance_from_dict(d)
-
-
-def _make_tree_with_children():
-    """构建 StationA -> [R1, R2] 的资源树"""
-    raw_data = [
-        _make_resource_dict(
-            id="StationA",
-            uuid="uuid-station-a",
-            name="StationA",
-            klass="workstation",
-            type_="device",
-        ),
-        _make_resource_dict(
-            id="R1",
-            uuid="uuid-r1",
-            name="R1",
-            klass="",
-            type_="resource",
-            parent="StationA",
-            parent_uuid="uuid-station-a",
-            data={"liquid": [{"liquid_type": "water", "volume": 10.0}]},
-        ),
-        _make_resource_dict(
-            id="R2",
-            uuid="uuid-r2",
-            name="R2",
-            klass="",
-            type_="resource",
-            parent="StationA",
-            parent_uuid="uuid-station-a",
-            data={"liquid": [{"liquid_type": "ethanol", "volume": 5.0}]},
-        ),
-    ]
-    tree_set = ResourceTreeSet.from_raw_dict_list(raw_data)
-    return tree_set
-
-
-# ============ resource_helper 测试 ============
-
-
-class TestResourceHelper:
-    """测试 resource_helper 对 dict / ResourceDictInstance 的兼容性"""
-
-    def test_ensure_resource_instance_from_dict(self):
-        d = _make_resource_dict()
-        inst = ensure_resource_instance(d)
-        assert isinstance(inst, ResourceDictInstance)
-        assert inst.res_content.id == "reactor_01"
-        assert inst.res_content.uuid == "uuid-reactor-01"
-
-    def test_ensure_resource_instance_passthrough(self):
-        inst = _make_resource_instance()
-        result = ensure_resource_instance(inst)
-        assert result is inst  # 同一个对象，不复制
-
-    def test_ensure_resource_instance_none(self):
-        assert ensure_resource_instance(None) is None
-
-    def test_get_resource_id_from_dict(self):
-        d = _make_resource_dict(id="my_device")
-        assert get_resource_id(d) == "my_device"
-
-    def test_get_resource_id_from_instance(self):
-        inst = _make_resource_instance(id="my_device")
-        assert get_resource_id(inst) == "my_device"
-
-    def test_get_resource_id_from_string(self):
-        assert get_resource_id("my_device") == "my_device"
-
-    def test_get_resource_id_from_wrapped_dict(self):
-        """兼容 {station_id: {...}} 格式"""
-        d = {"StationA": {"id": "StationA", "name": "StationA"}}
-        assert get_resource_id(d) == "StationA"
-
-    def test_get_resource_data_from_dict(self):
-        d = _make_resource_dict(data={"temperature": 25.0})
-        assert get_resource_data(d) == {"temperature": 25.0}
-
-    def test_get_resource_data_from_instance(self):
-        inst = _make_resource_instance(data={"temperature": 25.0})
-        data = get_resource_data(inst)
-        assert data["temperature"] == 25.0
-
-    def test_get_resource_display_info_from_dict(self):
-        d = _make_resource_dict(id="reactor_01", name="Reactor #1")
-        info = get_resource_display_info(d)
-        assert "reactor_01" in info
-        assert "Reactor #1" in info
-
-    def test_get_resource_display_info_from_instance(self):
-        inst = _make_resource_instance(id="reactor_01", name="Reactor #1")
-        info = get_resource_display_info(inst)
-        assert "reactor_01" in info
-
-    def test_get_resource_display_info_from_string(self):
-        assert get_resource_display_info("reactor_01") == "reactor_01"
-
-    def test_get_resource_liquid_volume(self):
-        d = _make_resource_dict(data={"liquid": [{"liquid_type": "water", "volume": 15.5}]})
-        assert get_resource_liquid_volume(d) == pytest.approx(15.5)
-
-    def test_resource_to_dict_from_instance(self):
-        inst = _make_resource_instance(id="reactor_01", klass="virtual_stirrer")
-        d = resource_to_dict(inst)
-        assert isinstance(d, dict)
-        assert d["id"] == "reactor_01"
-        assert d["class"] == "virtual_stirrer"
-
-    def test_resource_to_dict_passthrough(self):
-        d = _make_resource_dict()
-        result = resource_to_dict(d)
-        assert result is d  # 同一个 dict
-
-
-# ============ vessel_parser 兼容性测试 ============
-
-
-class TestVesselParser:
-    """测试 vessel_parser.get_vessel 对 ResourceDictInstance 的兼容"""
-
-    def test_get_vessel_from_dict(self):
-        d = _make_resource_dict(id="reactor_01", data={"temperature": 25.0})
-        vessel_id, vessel_data = get_vessel(d)
-        assert vessel_id == "reactor_01"
-        assert vessel_data["temperature"] == 25.0
-
-    def test_get_vessel_from_string(self):
-        vessel_id, vessel_data = get_vessel("reactor_01")
-        assert vessel_id == "reactor_01"
-        assert vessel_data == {}
-
-    def test_get_vessel_from_resource_instance(self):
-        inst = _make_resource_instance(id="reactor_01", data={"temperature": 25.0})
-        vessel_id, vessel_data = get_vessel(inst)
-        assert vessel_id == "reactor_01"
-        assert vessel_data["temperature"] == 25.0
-
-    def test_get_vessel_from_wrapped_dict(self):
-        """兼容 {station_id: {id: ..., data: {...}}} 格式"""
-        d = {"StationA": {"id": "StationA", "data": {"vol": 100}}}
-        vessel_id, vessel_data = get_vessel(d)
-        assert vessel_id == "StationA"
-
-
-# ============ ResourceTreeSet → get_plr_nested_dict 测试 ============
-
-
-class TestResourceTreeRoundTrip:
-    """测试 ResourceTreeSet → get_plr_nested_dict 保留树结构和关键字段"""
-
-    def test_tree_preserves_children(self):
-        tree_set = _make_tree_with_children()
-        assert len(tree_set.trees) == 1
-        root = tree_set.trees[0].root_node
-        assert root.res_content.id == "StationA"
-        assert len(root.children) == 2
-
-    def test_plr_nested_dict_has_children(self):
-        tree_set = _make_tree_with_children()
-        root = tree_set.trees[0].root_node
-        nested = root.get_plr_nested_dict()
-        assert isinstance(nested, dict)
-        assert "children" in nested
-        assert isinstance(nested["children"], dict)
-        assert "R1" in nested["children"]
-        assert "R2" in nested["children"]
-
-    def test_plr_nested_dict_preserves_uuid(self):
-        tree_set = _make_tree_with_children()
-        root = tree_set.trees[0].root_node
-        nested = root.get_plr_nested_dict()
-        assert nested["uuid"] == "uuid-station-a"
-        assert nested["children"]["R1"]["uuid"] == "uuid-r1"
-
-    def test_plr_nested_dict_preserves_klass(self):
-        tree_set = _make_tree_with_children()
-        root = tree_set.trees[0].root_node
-        nested = root.get_plr_nested_dict()
-        assert nested["class"] == "workstation"
-
-    def test_plr_nested_dict_preserves_data(self):
-        tree_set = _make_tree_with_children()
-        root = tree_set.trees[0].root_node
-        nested = root.get_plr_nested_dict()
-        r1_data = nested["children"]["R1"]["data"]
-        assert "liquid" in r1_data
-        assert r1_data["liquid"][0]["volume"] == 10.0
-
-    def test_plr_nested_dict_usable_by_get_vessel(self):
-        """get_plr_nested_dict 的结果可以直接传给 get_vessel"""
-        tree_set = _make_tree_with_children()
-        root = tree_set.trees[0].root_node
-        nested = root.get_plr_nested_dict()
-        vessel_id, vessel_data = get_vessel(nested)
-        assert vessel_id == "StationA"
-
-    def test_dump_vs_plr_nested_dict(self):
-        """dump() 是扁平化的，get_plr_nested_dict 保留树结构"""
-        tree_set = _make_tree_with_children()
-        # dump 返回扁平列表
-        dumped = tree_set.dump()
-        assert isinstance(dumped[0], list)
-        assert len(dumped[0]) == 3  # StationA + R1 + R2，全部扁平
-
-        # get_plr_nested_dict 保留嵌套
-        root = tree_set.trees[0].root_node
-        nested = root.get_plr_nested_dict()
-        assert isinstance(nested["children"], dict)
-        assert len(nested["children"]) == 2  # 嵌套的 children
-
-
-# ============ 模拟 workstation 路径测试 ============
-
-
-class TestWorkstationPath:
-    """模拟 workstation.py 中的关键路径:
-    raw_data → ResourceTreeSet.from_raw_dict_list → get_plr_nested_dict → compiler
-    """
-
-    def test_single_resource_path(self):
-        """单个 Resource: 取第一棵树的根节点"""
-        raw_data = [
-            _make_resource_dict(id="reactor_01", uuid="uuid-r01", klass="virtual_stirrer"),
-        ]
-        tree_set = ResourceTreeSet.from_raw_dict_list(raw_data)
-        root = tree_set.trees[0].root_node
-        result = root.get_plr_nested_dict()
-        assert result["id"] == "reactor_01"
-        assert result["uuid"] == "uuid-r01"
-        assert result["class"] == "virtual_stirrer"
-
-    def test_resource_with_children_path(self):
-        """Resource 带 children: AGV/batch transfer 场景"""
-        tree_set = _make_tree_with_children()
-        root = tree_set.trees[0].root_node
-        nested = root.get_plr_nested_dict()
-
-        # 模拟编译器接收到的参数
-        from_repo = {"StationA": nested}
-        assert "A01" not in from_repo["StationA"]["children"]  # children 按 id 索引
-        assert "R1" in from_repo["StationA"]["children"]
-        assert from_repo["StationA"]["children"]["R1"]["uuid"] == "uuid-r1"
-
-    def test_multiple_resource_path(self):
-        """多个 Resource: 每棵树取根节点"""
-        raw_data1 = [_make_resource_dict(id="R1", uuid="uuid-r1")]
-        raw_data2 = [_make_resource_dict(id="R2", uuid="uuid-r2")]
-        # 模拟 host 返回多棵树
-        tree_set1 = ResourceTreeSet.from_raw_dict_list(raw_data1)
-        tree_set2 = ResourceTreeSet.from_raw_dict_list(raw_data2)
-        results = [
-            tree.root_node.get_plr_nested_dict()
-            for ts in [tree_set1, tree_set2]
-            for tree in ts.trees
-        ]
-        assert len(results) == 2
-        assert results[0]["id"] == "R1"
-        assert results[1]["id"] == "R2"
--- a/tests/devices/test_agv_transport_station.py
+++ b/tests/devices/test_agv_transport_station.py
@@ -1,137 +0,0 @@
-"""
-AGVTransportStation driver 测试
-
-覆盖：初始化、carrier property、slot 查询、路由查询、capacity 计算。
-"""
-
-import pytest
-from unittest.mock import MagicMock, patch
-
-from unilabos.devices.transport.agv_workstation import AGVTransportStation
-from unilabos.resources.warehouse import WareHouse, warehouse_factory
-
-
-class TestAGVTransportStation:
-    def _make_driver(self, route_table=None, device_roles=None):
-        """创建一个 AGVTransportStation 实例"""
-        return AGVTransportStation(
-            deck=None,
-            route_table=route_table or {
-                "A->B": {"nav_command": '{"target":"LM1"}', "arm_pick": "pick.urp", "arm_place": "place.urp"}
-            },
-            device_roles=device_roles or {"navigator": "agv_nav", "arm": "agv_arm"},
-        )
-
-    def _make_warehouse(self, name="agv_platform", nx=2, ny=1, nz=1):
-        """创建一个测试用 Warehouse"""
-        return warehouse_factory(name=name, num_items_x=nx, num_items_y=ny, num_items_z=nz)
-
-    def test_init_deck_none(self):
-        """AGVTransportStation 初始化时 deck=None"""
-        driver = self._make_driver()
-        assert driver.deck is None
-
-    def test_init_route_table(self):
-        """路由表正确存储"""
-        driver = self._make_driver()
-        assert "A->B" in driver.route_table
-
-    def test_init_device_roles(self):
-        """设备角色正确存储"""
-        driver = self._make_driver()
-        assert driver.device_roles["navigator"] == "agv_nav"
-        assert driver.device_roles["arm"] == "agv_arm"
-
-    def test_carrier_without_ros_node(self):
-        """未 post_init 时 carrier 返回 None"""
-        driver = self._make_driver()
-        assert driver.carrier is None
-
-    def test_carrier_with_warehouse(self):
-        """post_init 后 carrier 返回正确的 WareHouse"""
-        driver = self._make_driver()
-        wh = self._make_warehouse()
-
-        # 模拟 ros_node 和 resource_tracker
-        mock_ros_node = MagicMock()
-        mock_ros_node.resource_tracker.resources = [wh]
-        mock_ros_node.device_id = "AGV"
-        driver.post_init(mock_ros_node)
-
-        assert driver.carrier is wh
-        assert isinstance(driver.carrier, WareHouse)
-
-    def test_capacity(self):
-        """容量计算正确"""
-        driver = self._make_driver()
-        wh = self._make_warehouse(nx=2, ny=1, nz=1)
-        mock_ros_node = MagicMock()
-        mock_ros_node.resource_tracker.resources = [wh]
-        mock_ros_node.device_id = "AGV"
-        driver.post_init(mock_ros_node)
-
-        assert driver.capacity == 2
-
-    def test_capacity_multi_layer(self):
-        """多层 Warehouse 容量"""
-        driver = self._make_driver()
-        wh = self._make_warehouse(nx=1, ny=2, nz=3)
-        mock_ros_node = MagicMock()
-        mock_ros_node.resource_tracker.resources = [wh]
-        mock_ros_node.device_id = "AGV"
-        driver.post_init(mock_ros_node)
-
-        assert driver.capacity == 6
-
-    def test_capacity_no_carrier(self):
-        """无 carrier 时容量为 0"""
-        driver = self._make_driver()
-        assert driver.capacity == 0
-
-    def test_free_slots(self):
-        """空载时所有 slot 为空闲"""
-        driver = self._make_driver()
-        wh = self._make_warehouse(nx=2, ny=1, nz=1)
-        mock_ros_node = MagicMock()
-        mock_ros_node.resource_tracker.resources = [wh]
-        mock_ros_node.device_id = "AGV"
-        driver.post_init(mock_ros_node)
-
-        free = driver.free_slots
-        assert len(free) == 2
-
-    def test_occupied_slots_empty(self):
-        """空载时 occupied_slots 为空"""
-        driver = self._make_driver()
-        wh = self._make_warehouse(nx=2, ny=1, nz=1)
-        mock_ros_node = MagicMock()
-        mock_ros_node.resource_tracker.resources = [wh]
-        mock_ros_node.device_id = "AGV"
-        driver.post_init(mock_ros_node)
-
-        assert len(driver.occupied_slots) == 0
-
-    def test_resolve_route(self):
-        """路由查询返回正确的指令"""
-        driver = self._make_driver()
-        route = driver.resolve_route("A", "B")
-        assert route["nav_command"] == '{"target":"LM1"}'
-        assert route["arm_pick"] == "pick.urp"
-
-    def test_resolve_route_not_found(self):
-        """查询不存在的路线时抛出 KeyError"""
-        driver = self._make_driver()
-        with pytest.raises(KeyError, match="路由表"):
-            driver.resolve_route("X", "Y")
-
-    def test_get_device_id(self):
-        """获取子设备 ID"""
-        driver = self._make_driver()
-        assert driver.get_device_id("navigator") == "agv_nav"
-        assert driver.get_device_id("arm") == "agv_arm"
-
-    def test_get_device_id_not_found(self):
-        """获取不存在的角色时抛出 KeyError"""
-        driver = self._make_driver()
-        with pytest.raises(KeyError, match="未配置设备角色"):
-            driver.get_device_id("gripper")
--- a/unilabos/init.py
+++ b/unilabos/init.py
@@ -1 +1 @@
-__version__ = "0.10.19"
+__version__ = "0.11.1"
--- a/unilabos/app/main.py
+++ b/unilabos/app/main.py
@@ -12,6 +12,15 @@ from typing import Dict, Any, List
 import networkx as nx
 import yaml

+# Windows 中文系统 stdout 默认 GBK，无法编码 banner / emoji 日志中的 Unicode 字符
+# 强制 stdout/stderr 用 UTF-8，避免 print 触发 UnicodeEncodeError 导致进程崩溃
+if sys.platform == "win32":
+    for _stream in (sys.stdout, sys.stderr):
+        try:
+            _stream.reconfigure(encoding="utf-8", errors="replace")  # type: ignore[attr-defined]
+        except (AttributeError, OSError):
+            pass
+
 # 首先添加项目根目录到路径
 current_dir = os.path.dirname(os.path.abspath(__file__))
 unilabos_dir = os.path.dirname(os.path.dirname(current_dir))
@@ -233,7 +242,7 @@ def parse_args():
    parser.add_argument(
        "--addr",
        type=str,
-        default="https://uni-lab.bohrium.com/api/v1",
+        default="https://leap-lab.bohrium.com/api/v1",
        help="Laboratory backend address",
    )
    parser.add_argument(
@@ -438,10 +447,10 @@ def main():
    if args.addr != parser.get_default("addr"):
        if args.addr == "test":
            print_status("使用测试环境地址", "info")
-            HTTPConfig.remote_addr = "https://uni-lab.test.bohrium.com/api/v1"
+            HTTPConfig.remote_addr = "https://leap-lab.test.bohrium.com/api/v1"
        elif args.addr == "uat":
            print_status("使用uat环境地址", "info")
-            HTTPConfig.remote_addr = "https://uni-lab.uat.bohrium.com/api/v1"
+            HTTPConfig.remote_addr = "https://leap-lab.uat.bohrium.com/api/v1"
        elif args.addr == "local":
            print_status("使用本地环境地址", "info")
            HTTPConfig.remote_addr = "http://127.0.0.1:48197/api/v1"
@@ -553,13 +562,8 @@ def main():
        os._exit(0)

    if not BasicConfig.ak or not BasicConfig.sk:
-        if BasicConfig.test_mode:
-            print_status("测试模式：跳过 ak/sk 检查，使用占位凭据", "warning")
-            BasicConfig.ak = BasicConfig.ak or "test_ak"
-            BasicConfig.sk = BasicConfig.sk or "test_sk"
-        else:
-            print_status("后续运行必须拥有一个实验室，请前往 https://uni-lab.bohrium.com 注册实验室！", "warning")
-            os._exit(1)
+        print_status("后续运行必须拥有一个实验室，请前往 https://leap-lab.bohrium.com 注册实验室！", "warning")
+        os._exit(1)
    graph: nx.Graph
    resource_tree_set: ResourceTreeSet
    resource_links: List[Dict[str, Any]]
--- a/unilabos/app/web/client.py
+++ b/unilabos/app/web/client.py
@@ -36,6 +36,9 @@ class HTTPClient:
            auth_secret = BasicConfig.auth_secret()
            self.auth = auth_secret
            info(f"正在使用ak sk作为授权信息：[{auth_secret}]")
+        # 复用 TCP/TLS 连接，避免每次请求重新握手
+        self._session = requests.Session()
+        self._session.headers.update({"Authorization": f"Lab {self.auth}"})
        info(f"HTTPClient 初始化完成: remote_addr={self.remote_addr}")

    def resource_edge_add(self, resources: List[Dict[str, Any]]) -> requests.Response:
@@ -48,7 +51,7 @@ class HTTPClient:
        Returns:
            Response: API响应对象
        """
-        response = requests.post(
+        response = self._session.post(
            f"{self.remote_addr}/edge/material/edge",
            json={
                "edges": resources,
@@ -75,25 +78,28 @@ class HTTPClient:
        Returns:
            Dict[str, str]: 旧UUID到新UUID的映射关系 {old_uuid: new_uuid}
        """
-        with open(os.path.join(BasicConfig.working_dir, "req_resource_tree_add.json"), "w", encoding="utf-8") as f:
-            payload = {"nodes": [x for xs in resources.dump() for x in xs], "mount_uuid": mount_uuid}
-            f.write(json.dumps(payload, indent=4))
-        # 从序列化数据中提取所有节点的UUID（保存旧UUID）
+        # dump() 只调用一次，复用给文件保存和 HTTP 请求
+        nodes_info = [x for xs in resources.dump() for x in xs]
        old_uuids = {n.res_content.uuid: n for n in resources.all_nodes}
+        payload = {"nodes": nodes_info, "mount_uuid": mount_uuid}
+        body_bytes = _fast_dumps(payload)
+        with open(os.path.join(BasicConfig.working_dir, "req_resource_tree_add.json"), "wb") as f:
+            f.write(_fast_dumps_pretty(payload))
+        http_headers = {"Content-Type": "application/json"}
        if not self.initialized or first_add:
            self.initialized = True
            info(f"首次添加资源，当前远程地址: {self.remote_addr}")
-            response = requests.post(
+            response = self._session.post(
                f"{self.remote_addr}/edge/material",
-                json={"nodes": [x for xs in resources.dump() for x in xs], "mount_uuid": mount_uuid},
-                headers={"Authorization": f"Lab {self.auth}"},
+                data=body_bytes,
+                headers=http_headers,
                timeout=60,
            )
        else:
-            response = requests.put(
+            response = self._session.put(
                f"{self.remote_addr}/edge/material",
-                json={"nodes": [x for xs in resources.dump() for x in xs], "mount_uuid": mount_uuid},
-                headers={"Authorization": f"Lab {self.auth}"},
+                data=body_bytes,
+                headers=http_headers,
                timeout=10,
            )

@@ -111,6 +117,7 @@ class HTTPClient:
                    uuid_mapping[i["uuid"]] = i["cloud_uuid"]
        else:
            logger.error(f"添加物料失败: {response.text}")
+            logger.trace(f"添加物料失败: {nodes_info}")
        for u, n in old_uuids.items():
            if u in uuid_mapping:
                n.res_content.uuid = uuid_mapping[u]
@@ -131,7 +138,7 @@ class HTTPClient:
        """
        with open(os.path.join(BasicConfig.working_dir, "req_resource_tree_get.json"), "w", encoding="utf-8") as f:
            f.write(json.dumps({"uuids": uuid_list, "with_children": with_children}, indent=4))
-        response = requests.post(
+        response = self._session.post(
            f"{self.remote_addr}/edge/material/query",
            json={"uuids": uuid_list, "with_children": with_children},
            headers={"Authorization": f"Lab {self.auth}"},
@@ -145,6 +152,7 @@ class HTTPClient:
                logger.error(f"查询物料失败: {response.text}")
            else:
                data = res["data"]["nodes"]
+                logger.trace(f"resource_tree_get查询到物料: {data}")
                return data
        else:
            logger.error(f"查询物料失败: {response.text}")
@@ -162,14 +170,14 @@ class HTTPClient:
        if not self.initialized:
            self.initialized = True
            info(f"首次添加资源，当前远程地址: {self.remote_addr}")
-            response = requests.post(
+            response = self._session.post(
                f"{self.remote_addr}/lab/material",
                json={"nodes": resources},
                headers={"Authorization": f"Lab {self.auth}"},
                timeout=100,
            )
        else:
-            response = requests.put(
+            response = self._session.put(
                f"{self.remote_addr}/lab/material",
                json={"nodes": resources},
                headers={"Authorization": f"Lab {self.auth}"},
@@ -196,7 +204,7 @@ class HTTPClient:
        """
        with open(os.path.join(BasicConfig.working_dir, "req_resource_get.json"), "w", encoding="utf-8") as f:
            f.write(json.dumps({"id": id, "with_children": with_children}, indent=4))
-        response = requests.get(
+        response = self._session.get(
            f"{self.remote_addr}/lab/material",
            params={"id": id, "with_children": with_children},
            headers={"Authorization": f"Lab {self.auth}"},
@@ -237,14 +245,14 @@ class HTTPClient:
        if not self.initialized:
            self.initialized = True
            info(f"首次添加资源，当前远程地址: {self.remote_addr}")
-            response = requests.post(
+            response = self._session.post(
                f"{self.remote_addr}/lab/material",
                json={"nodes": resources},
                headers={"Authorization": f"Lab {self.auth}"},
                timeout=100,
            )
        else:
-            response = requests.put(
+            response = self._session.put(
                f"{self.remote_addr}/lab/material",
                json={"nodes": resources},
                headers={"Authorization": f"Lab {self.auth}"},
@@ -274,7 +282,7 @@ class HTTPClient:
        with open(file_path, "rb") as file:
            files = {"files": file}
            logger.info(f"上传文件: {file_path} 到 {scene}")
-            response = requests.post(
+            response = self._session.post(
                f"{self.remote_addr}/api/account/file_upload/{scene}",
                files=files,
                headers={"Authorization": f"Lab {self.auth}"},
@@ -314,7 +322,7 @@ class HTTPClient:
            "Content-Type": "application/json",
            "Content-Encoding": "gzip",
        }
-        response = requests.post(
+        response = self._session.post(
            f"{self.remote_addr}/lab/resource",
            data=compressed_body,
            headers=headers,
@@ -348,7 +356,7 @@ class HTTPClient:
        Returns:
            Response: API响应对象
        """
-        response = requests.get(
+        response = self._session.get(
            f"{self.remote_addr}/edge/material/download",
            headers={"Authorization": f"Lab {self.auth}"},
            timeout=(3, 30),
@@ -409,7 +417,7 @@ class HTTPClient:
        with open(os.path.join(BasicConfig.working_dir, "req_workflow_upload.json"), "w", encoding="utf-8") as f:
            f.write(json.dumps(payload, indent=4, ensure_ascii=False))

-        response = requests.post(
+        response = self._session.post(
            f"{self.remote_addr}/lab/workflow/owner/import",
            json=payload,
            headers={"Authorization": f"Lab {self.auth}"},
--- a/unilabos/app/ws_client.py
+++ b/unilabos/app/ws_client.py
@@ -1113,7 +1113,7 @@ class MessageProcessor:
                "task_id": task_id,
                "job_id": job_id,
                "free": free,
-                "need_more": need_more,
+                "need_more": need_more + 1,
            },
        }

@@ -1253,7 +1253,7 @@ class QueueProcessor:
                    "task_id": job_info.task_id,
                    "job_id": job_info.job_id,
                    "free": False,
-                    "need_more": 10,
+                    "need_more": 10 + 1,
                },
            }
            self.message_processor.send_message(message)
@@ -1269,7 +1269,13 @@ class QueueProcessor:
        if not queued_jobs:
            return

-        logger.debug(f"[QueueProcessor] Sending busy status for {len(queued_jobs)} queued jobs")
+        queue_summary = {}
+        for j in queued_jobs:
+            key = f"{j.device_id}/{j.action_name}"
+            queue_summary[key] = queue_summary.get(key, 0) + 1
+        logger.debug(
+            f"[QueueProcessor] Sending busy status for {len(queued_jobs)} queued jobs: {queue_summary}"
+        )

        for job_info in queued_jobs:
            # 快照可能已过期：在遍历过程中 end_job() 可能已将此 job 移至 READY，
@@ -1286,7 +1292,7 @@ class QueueProcessor:
                    "task_id": job_info.task_id,
                    "job_id": job_info.job_id,
                    "free": False,
-                    "need_more": 10,
+                    "need_more": 10 + 1,
                },
            }
            success = self.message_processor.send_message(message)
@@ -1369,6 +1375,10 @@ class WebSocketClient(BaseCommunicationClient):
        self.message_processor = MessageProcessor(self.websocket_url, self.send_queue, self.device_manager)
        self.queue_processor = QueueProcessor(self.device_manager, self.message_processor)

+        # running状态debounce缓存: {job_id: (last_send_timestamp, last_feedback_data)}
+        self._job_running_last_sent: Dict[str, tuple] = {}
+        self._job_running_debounce_interval: float = 10.0  # 秒
+
        # 设置相互引用
        self.message_processor.set_queue_processor(self.queue_processor)
        self.message_processor.set_websocket_client(self)
@@ -1468,22 +1478,32 @@ class WebSocketClient(BaseCommunicationClient):
            logger.debug(f"[WebSocketClient] Not connected, cannot publish job status for job_id: {item.job_id}")
            return

+        job_log = format_job_log(item.job_id, item.task_id, item.device_id, item.action_name)
+
        # 拦截最终结果状态，与原版本逻辑一致
        if status in ["success", "failed"]:
+            self._job_running_last_sent.pop(item.job_id, None)
+
            host_node = HostNode.get_instance(0)
            if host_node:
-                # 从HostNode的device_action_status中移除job_id
                try:
                    host_node._device_action_status[item.device_action_key].job_ids.pop(item.job_id, None)
                except (KeyError, AttributeError):
                    logger.warning(f"[WebSocketClient] Failed to remove job {item.job_id} from HostNode status")

-            # logger.debug(f"[WebSocketClient] Intercepting final status for job_id: {item.job_id} - {status}")
-
-            # 通知队列处理器job完成（包括timeout的job）
            self.queue_processor.handle_job_completed(item.job_id, status)

-        # 发送job状态消息
+        # running状态按job_id做debounce，内容变化时仍然上报
+        if status == "running":
+            now = time.time()
+            cached = self._job_running_last_sent.get(item.job_id)
+            if cached is not None:
+                last_ts, last_data = cached
+                if now - last_ts < self._job_running_debounce_interval and last_data == feedback_data:
+                    logger.trace(f"[WebSocketClient] Job status debounced (skip): {job_log} - {status}")
+                    return
+            self._job_running_last_sent[item.job_id] = (now, feedback_data)
+
        message = {
            "action": "job_status",
            "data": {
@@ -1499,7 +1519,6 @@ class WebSocketClient(BaseCommunicationClient):
        }
        self.message_processor.send_message(message)

-        job_log = format_job_log(item.job_id, item.task_id, item.device_id, item.action_name)
        logger.trace(f"[WebSocketClient] Job status published: {job_log} - {status}")

    def send_ping(self, ping_id: str, timestamp: float) -> None:
--- a/unilabos/compile/init.py
+++ b/unilabos/compile/init.py
@@ -5,7 +5,6 @@ from .separate_protocol import generate_separate_protocol
 from .evaporate_protocol import generate_evaporate_protocol
 from .evacuateandrefill_protocol import generate_evacuateandrefill_protocol
 from .agv_transfer_protocol import generate_agv_transfer_protocol
-from .batch_transfer_protocol import generate_batch_transfer_protocol
 from .add_protocol import generate_add_protocol
 from .centrifuge_protocol import generate_centrifuge_protocol
 from .filter_protocol import generate_filter_protocol
@@ -32,7 +31,6 @@ from .hydrogenate_protocol import generate_hydrogenate_protocol
 action_protocol_generators = {
    AddProtocol: generate_add_protocol,
    AGVTransferProtocol: generate_agv_transfer_protocol,
-    BatchTransferProtocol: generate_batch_transfer_protocol,
    AdjustPHProtocol: generate_adjust_ph_protocol,
    CentrifugeProtocol: generate_centrifuge_protocol,
    CleanProtocol: generate_clean_protocol,
--- a/unilabos/compile/_agv_utils.py
+++ b/unilabos/compile/_agv_utils.py
@@ -1,127 +0,0 @@
-"""
-AGV 编译器共用工具函数
-
-从 physical_setup_graph 中发现 AGV 节点配置，
-供 agv_transfer_protocol 和 batch_transfer_protocol 复用。
-"""
-
-from typing import Any, Dict, List, Optional
-
-import networkx as nx
-
-
-def find_agv_config(G: nx.Graph, agv_id: Optional[str] = None) -> Dict[str, Any]:
-    """从设备图中发现 AGV 节点，返回其配置
-
-    查找策略：
-    1. 如果指定 agv_id，直接读取该节点
-    2. 否则查找 class 为 "agv_transport_station" 的节点
-    3. 兜底查找 config 中包含 device_roles 的 workstation 节点
-
-    Returns:
-        {
-            "agv_id": str,
-            "device_roles": {"navigator": "...", "arm": "..."},
-            "route_table": {"A->B": {"nav_command": ..., "arm_pick": ..., "arm_place": ...}},
-            "capacity": int,
-        }
-    """
-    if agv_id and agv_id in G.nodes:
-        node_data = G.nodes[agv_id]
-        config = _extract_config(node_data)
-        if config and "device_roles" in config:
-            return _build_agv_cfg(agv_id, config, G)
-
-    # 查找 agv_transport_station 类型
-    for nid, ndata in G.nodes(data=True):
-        node_class = _get_node_class(ndata)
-        if node_class == "agv_transport_station":
-            config = _extract_config(ndata)
-            return _build_agv_cfg(nid, config or {}, G)
-
-    # 兜底：查找带有 device_roles 的 workstation
-    for nid, ndata in G.nodes(data=True):
-        node_class = _get_node_class(ndata)
-        if node_class == "workstation":
-            config = _extract_config(ndata)
-            if config and "device_roles" in config:
-                return _build_agv_cfg(nid, config, G)
-
-    raise ValueError("设备图中未找到 AGV 节点（需 class=agv_transport_station 或 config.device_roles）")
-
-
-def get_agv_capacity(G: nx.Graph, agv_id: str) -> int:
-    """从 AGV 的 Warehouse 子节点计算载具容量"""
-    for neighbor in G.successors(agv_id) if G.is_directed() else G.neighbors(agv_id):
-        ndata = G.nodes[neighbor]
-        node_type = _get_node_type(ndata)
-        if node_type == "warehouse":
-            config = _extract_config(ndata)
-            if config:
-                x = config.get("num_items_x", 1)
-                y = config.get("num_items_y", 1)
-                z = config.get("num_items_z", 1)
-                return x * y * z
-    # 如果没有 warehouse 子节点，尝试从配置中读取
-    return 0
-
-
-def split_batches(items: list, capacity: int) -> List[list]:
-    """按 AGV 容量分批
-
-    Args:
-        items: 待转运的物料列表
-        capacity: AGV 单批次容量
-
-    Returns:
-        分批后的列表的列表
-    """
-    if capacity <= 0:
-        raise ValueError(f"AGV 容量必须 > 0，当前: {capacity}")
-    return [items[i:i + capacity] for i in range(0, len(items), capacity)]
-
-
-def _extract_config(node_data: dict) -> Optional[dict]:
-    """从节点数据中提取 config 字段，兼容多种格式"""
-    # 直接 config 字段
-    config = node_data.get("config")
-    if isinstance(config, dict):
-        return config
-    # res_content 嵌套格式
-    res_content = node_data.get("res_content")
-    if hasattr(res_content, "config"):
-        return res_content.config if isinstance(res_content.config, dict) else None
-    if isinstance(res_content, dict):
-        return res_content.get("config")
-    return None
-
-
-def _get_node_class(node_data: dict) -> str:
-    """获取节点的 class 字段"""
-    res_content = node_data.get("res_content")
-    if hasattr(res_content, "model_dump"):
-        d = res_content.model_dump()
-        return d.get("class_", d.get("class", ""))
-    if isinstance(res_content, dict):
-        return res_content.get("class_", res_content.get("class", ""))
-    return node_data.get("class_", node_data.get("class", ""))
-
-
-def _get_node_type(node_data: dict) -> str:
-    """获取节点的 type 字段"""
-    res_content = node_data.get("res_content")
-    if hasattr(res_content, "type"):
-        return res_content.type or ""
-    if isinstance(res_content, dict):
-        return res_content.get("type", "")
-    return node_data.get("type", "")
-
-
-def _build_agv_cfg(agv_id: str, config: dict, G: nx.Graph) -> Dict[str, Any]:
-    """构建标准化的 AGV 配置"""
-    return {
-        "agv_id": agv_id,
-        "device_roles": config.get("device_roles", {}),
-        "route_table": config.get("route_table", {}),
-        "capacity": get_agv_capacity(G, agv_id),
-    }
--- a/unilabos/compile/add_protocol.py
+++ b/unilabos/compile/add_protocol.py
@@ -2,13 +2,20 @@ from functools import partial

 import networkx as nx
 import re
+import logging
 from typing import List, Dict, Any, Union

 from .utils.unit_parser import parse_volume_input, parse_mass_input, parse_time_input
 from .utils.vessel_parser import get_vessel, find_solid_dispenser, find_connected_stirrer, find_reagent_vessel
-from .utils.logger_util import action_log, debug_print
+from .utils.logger_util import action_log
 from .pump_protocol import generate_pump_protocol_with_rinsing

+logger = logging.getLogger(__name__)
+
+def debug_print(message):
+    """调试输出"""
+    logger.info(f"[ADD] {message}")
+

 # 🆕 创建进度日志动作
 create_action_log = partial(action_log, prefix="[ADD]")
--- a/unilabos/compile/adjustph_protocol.py
+++ b/unilabos/compile/adjustph_protocol.py
@@ -1,12 +1,14 @@
-from functools import partial
-
 import networkx as nx
+import logging
 from typing import List, Dict, Any, Union
-from .utils.vessel_parser import get_vessel, find_connected_stirrer
-from .utils.logger_util import action_log, debug_print
+from .utils.vessel_parser import get_vessel
 from .pump_protocol import generate_pump_protocol_with_rinsing

-create_action_log = partial(action_log, prefix="[ADJUST_PH]")
+logger = logging.getLogger(__name__)
+
+def debug_print(message):
+    """调试输出"""
+    logger.info(f"[ADJUST_PH] {message}")

 def find_acid_base_vessel(G: nx.DiGraph, reagent: str) -> str:
    """
@@ -19,6 +21,8 @@ def find_acid_base_vessel(G: nx.DiGraph, reagent: str) -> str:
    Returns:
        str: 试剂容器ID
    """
+    debug_print(f"🔍 正在查找试剂 '{reagent}' 的容器...")
+    
    # 常见酸碱试剂的别名映射
    reagent_aliases = {
        "hydrochloric acid": ["HCl", "hydrochloric_acid", "hcl", "muriatic_acid"],
@@ -32,13 +36,17 @@ def find_acid_base_vessel(G: nx.DiGraph, reagent: str) -> str:
    
    # 构建搜索名称列表
    search_names = [reagent.lower()]
-
+    debug_print(f"📋 基础搜索名称: {reagent.lower()}")
+    
    # 添加别名
    for base_name, aliases in reagent_aliases.items():
        if reagent.lower() in base_name.lower() or base_name.lower() in reagent.lower():
            search_names.extend([alias.lower() for alias in aliases])
+            debug_print(f"🔗 添加别名: {aliases}")
            break
    
+    debug_print(f"📝 完整搜索列表: {search_names}")
+    
    # 构建可能的容器名称
    possible_names = []
    for name in search_names:
@@ -53,15 +61,17 @@ def find_acid_base_vessel(G: nx.DiGraph, reagent: str) -> str:
            name_clean
        ])
    
-    debug_print(f"搜索容器: {len(possible_names)} 个候选名称")
-
+    debug_print(f"🎯 可能的容器名称 (前5个): {possible_names[:5]}... (共{len(possible_names)}个)")
+    
    # 第一步：通过容器名称匹配
+    debug_print(f"📋 方法1: 精确名称匹配...")
    for vessel_name in possible_names:
        if vessel_name in G.nodes():
-            debug_print(f"通过名称匹配找到容器: {vessel_name}")
+            debug_print(f"✅ 通过名称匹配找到容器: {vessel_name} 🎯")
            return vessel_name
-
+    
    # 第二步：通过模糊匹配
+    debug_print(f"📋 方法2: 模糊名称匹配...")
    for node_id in G.nodes():
        if G.nodes[node_id].get('type') == 'container':
            node_name = G.nodes[node_id].get('name', '').lower()
@@ -69,10 +79,11 @@ def find_acid_base_vessel(G: nx.DiGraph, reagent: str) -> str:
            # 检查是否包含任何搜索名称
            for search_name in search_names:
                if search_name in node_id.lower() or search_name in node_name:
-                    debug_print(f"通过模糊匹配找到容器: {node_id}")
+                    debug_print(f"✅ 通过模糊匹配找到容器: {node_id} 🔍")
                    return node_id
-
+    
    # 第三步：通过液体类型匹配
+    debug_print(f"📋 方法3: 液体类型匹配...")
    for node_id in G.nodes():
        if G.nodes[node_id].get('type') == 'container':
            vessel_data = G.nodes[node_id].get('data', {})
@@ -85,15 +96,56 @@ def find_acid_base_vessel(G: nx.DiGraph, reagent: str) -> str:
                    
                    for search_name in search_names:
                        if search_name in liquid_type or search_name in reagent_name:
-                            debug_print(f"通过液体类型匹配找到容器: {node_id}")
+                            debug_print(f"✅ 通过液体类型匹配找到容器: {node_id} 💧")
                            return node_id
    
    # 列出可用容器帮助调试
-    available_containers = [node_id for node_id in G.nodes()
-                           if G.nodes[node_id].get('type') == 'container']
-    debug_print(f"所有匹配方法失败，可用容器: {available_containers}")
+    debug_print(f"📊 列出可用容器帮助调试...")
+    available_containers = []
+    for node_id in G.nodes():
+        if G.nodes[node_id].get('type') == 'container':
+            vessel_data = G.nodes[node_id].get('data', {})
+            liquids = vessel_data.get('liquid', [])
+            liquid_types = [liquid.get('liquid_type', '') or liquid.get('name', '') 
+                           for liquid in liquids if isinstance(liquid, dict)]
+            
+            available_containers.append({
+                'id': node_id,
+                'name': G.nodes[node_id].get('name', ''),
+                'liquids': liquid_types,
+                'reagent_name': vessel_data.get('reagent_name', '')
+            })
+    
+    debug_print(f"📋 可用容器列表:")
+    for container in available_containers:
+        debug_print(f"  - 🧪 {container['id']}: {container['name']}")
+        debug_print(f"    💧 液体: {container['liquids']}")
+        debug_print(f"    🏷️ 试剂: {container['reagent_name']}")
+    
+    debug_print(f"❌ 所有匹配方法都失败了")
    raise ValueError(f"找不到试剂 '{reagent}' 对应的容器。尝试了: {possible_names[:10]}...")

+def find_connected_stirrer(G: nx.DiGraph, vessel: str) -> str:
+    """查找与容器相连的搅拌器"""
+    debug_print(f"🔍 查找连接到容器 '{vessel}' 的搅拌器...")
+    
+    stirrer_nodes = [node for node in G.nodes() 
+                    if (G.nodes[node].get('class') or '') == 'virtual_stirrer']
+    
+    debug_print(f"📊 发现 {len(stirrer_nodes)} 个搅拌器: {stirrer_nodes}")
+    
+    for stirrer in stirrer_nodes:
+        if G.has_edge(stirrer, vessel) or G.has_edge(vessel, stirrer):
+            debug_print(f"✅ 找到连接的搅拌器: {stirrer} 🔗")
+            return stirrer
+    
+    if stirrer_nodes:
+        debug_print(f"⚠️ 未找到直接连接的搅拌器，使用第一个: {stirrer_nodes[0]} 🔄")
+        return stirrer_nodes[0]
+    
+    debug_print(f"❌ 未找到任何搅拌器")
+    return None
+
 def calculate_reagent_volume(target_ph_value: float, reagent: str, vessel_volume: float = 100.0) -> float:
    """
    估算需要的试剂体积来调节pH
@@ -106,30 +158,44 @@ def calculate_reagent_volume(target_ph_value: float, reagent: str, vessel_volume
    Returns:
        float: 估算的试剂体积 (mL)
    """
-    debug_print(f"计算试剂体积: pH={target_ph_value}, reagent={reagent}, vessel={vessel_volume}mL")
-
-    # 简化的pH调节体积估算
+    debug_print(f"🧮 计算试剂体积...")
+    debug_print(f"  📍 目标pH: {target_ph_value}")
+    debug_print(f"  🧪 试剂: {reagent}")
+    debug_print(f"  📏 容器体积: {vessel_volume}mL")
+    
+    # 简化的pH调节体积估算（实际应用中需要更精确的计算）
    if "acid" in reagent.lower() or "hcl" in reagent.lower():
+        debug_print(f"🍋 检测到酸性试剂")
+        # 酸性试剂：pH越低需要的体积越大
        if target_ph_value < 3:
-            volume = vessel_volume * 0.05
+            volume = vessel_volume * 0.05  # 5%
+            debug_print(f"  💪 强酸性 (pH<3): 使用 5% 体积")
        elif target_ph_value < 5:
-            volume = vessel_volume * 0.02
+            volume = vessel_volume * 0.02  # 2%
+            debug_print(f"  🔸 中酸性 (pH<5): 使用 2% 体积")
        else:
-            volume = vessel_volume * 0.01
-
+            volume = vessel_volume * 0.01  # 1%
+            debug_print(f"  🔹 弱酸性 (pH≥5): 使用 1% 体积")
+    
    elif "hydroxide" in reagent.lower() or "naoh" in reagent.lower():
+        debug_print(f"🧂 检测到碱性试剂")
+        # 碱性试剂：pH越高需要的体积越大
        if target_ph_value > 11:
-            volume = vessel_volume * 0.05
+            volume = vessel_volume * 0.05  # 5%
+            debug_print(f"  💪 强碱性 (pH>11): 使用 5% 体积")
        elif target_ph_value > 9:
-            volume = vessel_volume * 0.02
+            volume = vessel_volume * 0.02  # 2%
+            debug_print(f"  🔸 中碱性 (pH>9): 使用 2% 体积")
        else:
-            volume = vessel_volume * 0.01
-
+            volume = vessel_volume * 0.01  # 1%
+            debug_print(f"  🔹 弱碱性 (pH≤9): 使用 1% 体积")
+    
    else:
        # 未知试剂，使用默认值
        volume = vessel_volume * 0.01
-
-    debug_print(f"估算试剂体积: {volume:.2f}mL")
+        debug_print(f"❓ 未知试剂类型，使用默认 1% 体积")
+    
+    debug_print(f"📊 计算结果: {volume:.2f}mL")
    return volume

 def generate_adjust_ph_protocol(
@@ -154,67 +220,96 @@ def generate_adjust_ph_protocol(
    """
    
    vessel_id, vessel_data = get_vessel(vessel)
-
+    
    if not vessel_id:
+        debug_print(f"❌ vessel 参数无效，必须包含id字段或直接提供容器ID. vessel: {vessel}")
        raise ValueError("vessel 参数无效，必须包含id字段或直接提供容器ID")
-
-    debug_print(f"pH调节协议: vessel={vessel_id}, ph={ph_value}, reagent='{reagent}'")
-
+    
+    debug_print("=" * 60)
+    debug_print("🧪 开始生成pH调节协议")
+    debug_print(f"📋 原始参数:")
+    debug_print(f"  🥼 vessel: {vessel} (ID: {vessel_id})")
+    debug_print(f"  📊 ph_value: {ph_value}")
+    debug_print(f"  🧪 reagent: '{reagent}'")
+    debug_print(f"  📦 kwargs: {kwargs}")
+    debug_print("=" * 60)
+    
    action_sequence = []
-
-    # 从kwargs中获取可选参数
-    volume = kwargs.get('volume', 0.0)
-    stir = kwargs.get('stir', True)
-    stir_speed = kwargs.get('stir_speed', 300.0)
-    stir_time = kwargs.get('stir_time', 60.0)
-    settling_time = kwargs.get('settling_time', 30.0)
-
+    
+    # 从kwargs中获取可选参数，如果没有则使用默认值
+    volume = kwargs.get('volume', 0.0)           # 自动估算体积
+    stir = kwargs.get('stir', True)              # 默认搅拌
+    stir_speed = kwargs.get('stir_speed', 300.0) # 默认搅拌速度
+    stir_time = kwargs.get('stir_time', 60.0)    # 默认搅拌时间
+    settling_time = kwargs.get('settling_time', 30.0)  # 默认平衡时间
+    
+    debug_print(f"🔧 处理后的参数:")
+    debug_print(f"  📏 volume: {volume}mL (0.0表示自动估算)")
+    debug_print(f"  🌪️ stir: {stir}")
+    debug_print(f"  🔄 stir_speed: {stir_speed}rpm")
+    debug_print(f"  ⏱️ stir_time: {stir_time}s")
+    debug_print(f"  ⏳ settling_time: {settling_time}s")
+    
    # 开始处理
    action_sequence.append(create_action_log(f"开始调节pH至 {ph_value}", "🧪"))
    action_sequence.append(create_action_log(f"目标容器: {vessel_id}", "🥼"))
    action_sequence.append(create_action_log(f"使用试剂: {reagent}", "⚗️"))
-
+    
    # 1. 验证目标容器存在
+    debug_print(f"🔍 步骤1: 验证目标容器...")
    if vessel_id not in G.nodes():
+        debug_print(f"❌ 目标容器 '{vessel_id}' 不存在于系统中")
        raise ValueError(f"目标容器 '{vessel_id}' 不存在于系统中")
-
+    
+    debug_print(f"✅ 目标容器验证通过")
    action_sequence.append(create_action_log("目标容器验证通过", "✅"))
-
+    
    # 2. 查找酸碱试剂容器
+    debug_print(f"🔍 步骤2: 查找试剂容器...")
    action_sequence.append(create_action_log("正在查找试剂容器...", "🔍"))
    
    try:
        reagent_vessel = find_acid_base_vessel(G, reagent)
+        debug_print(f"✅ 找到试剂容器: {reagent_vessel}")
        action_sequence.append(create_action_log(f"找到试剂容器: {reagent_vessel}", "🧪"))
    except ValueError as e:
+        debug_print(f"❌ 无法找到试剂容器: {str(e)}")
        action_sequence.append(create_action_log(f"试剂容器查找失败: {str(e)}", "❌"))
        raise ValueError(f"无法找到试剂 '{reagent}': {str(e)}")
-
+    
    # 3. 体积估算
+    debug_print(f"🔍 步骤3: 体积处理...")
    if volume <= 0:
        action_sequence.append(create_action_log("开始自动估算试剂体积", "🧮"))
        
        # 获取目标容器的体积信息
        vessel_data = G.nodes[vessel_id].get('data', {})
-        vessel_volume = vessel_data.get('max_volume', 100.0)
-
+        vessel_volume = vessel_data.get('max_volume', 100.0)  # 默认100mL
+        debug_print(f"📏 容器最大体积: {vessel_volume}mL")
+        
        estimated_volume = calculate_reagent_volume(ph_value, reagent, vessel_volume)
        volume = estimated_volume
+        debug_print(f"✅ 自动估算试剂体积: {volume:.2f} mL")
        action_sequence.append(create_action_log(f"估算试剂体积: {volume:.2f}mL", "📊"))
    else:
+        debug_print(f"📏 使用指定体积: {volume}mL")
        action_sequence.append(create_action_log(f"使用指定体积: {volume}mL", "📏"))
-
+    
    # 4. 验证路径存在
+    debug_print(f"🔍 步骤4: 路径验证...")
    action_sequence.append(create_action_log("验证转移路径...", "🛤️"))
    
    try:
        path = nx.shortest_path(G, source=reagent_vessel, target=vessel_id)
-        action_sequence.append(create_action_log(f"找到转移路径: {' -> '.join(path)}", "🛤️"))
+        debug_print(f"✅ 找到路径: {' → '.join(path)}")
+        action_sequence.append(create_action_log(f"找到转移路径: {' → '.join(path)}", "🛤️"))
    except nx.NetworkXNoPath:
+        debug_print(f"❌ 无法找到转移路径")
        action_sequence.append(create_action_log("转移路径不存在", "❌"))
        raise ValueError(f"从试剂容器 '{reagent_vessel}' 到目标容器 '{vessel_id}' 没有可用路径")
-
+    
    # 5. 搅拌器设置
+    debug_print(f"🔍 步骤5: 搅拌器设置...")
    stirrer_id = None
    if stir:
        action_sequence.append(create_action_log("准备启动搅拌器", "🌪️"))
@@ -223,6 +318,7 @@ def generate_adjust_ph_protocol(
            stirrer_id = find_connected_stirrer(G, vessel_id)
            
            if stirrer_id:
+                debug_print(f"✅ 找到搅拌器 {stirrer_id}，启动搅拌")
                action_sequence.append(create_action_log(f"启动搅拌器 {stirrer_id} (速度: {stir_speed}rpm)", "🔄"))
                
                action_sequence.append({
@@ -242,18 +338,23 @@ def generate_adjust_ph_protocol(
                    "action_kwargs": {"time": 5}
                })
            else:
+                debug_print(f"⚠️ 未找到搅拌器，继续执行")
                action_sequence.append(create_action_log("未找到搅拌器，跳过搅拌", "⚠️"))
-
+        
        except Exception as e:
+            debug_print(f"❌ 搅拌器配置出错: {str(e)}")
            action_sequence.append(create_action_log(f"搅拌器配置失败: {str(e)}", "❌"))
    else:
+        debug_print(f"📋 跳过搅拌设置")
        action_sequence.append(create_action_log("跳过搅拌设置", "⏭️"))
-
+    
    # 6. 试剂添加
+    debug_print(f"🔍 步骤6: 试剂添加...")
    action_sequence.append(create_action_log(f"开始添加试剂 {volume:.2f}mL", "🚰"))
    
    # 计算添加时间（pH调节需要缓慢添加）
-    addition_time = max(30.0, volume * 2.0)
+    addition_time = max(30.0, volume * 2.0)  # 至少30秒，每mL需要2秒
+    debug_print(f"⏱️ 计算添加时间: {addition_time}s (缓慢注入)")
    action_sequence.append(create_action_log(f"设置添加时间: {addition_time:.0f}s (缓慢注入)", "⏱️"))
    
    try:
@@ -276,28 +377,35 @@ def generate_adjust_ph_protocol(
        )
        
        action_sequence.extend(pump_actions)
+        debug_print(f"✅ 泵协议生成完成，添加了 {len(pump_actions)} 个动作")
        action_sequence.append(create_action_log(f"试剂转移完成 ({len(pump_actions)} 个操作)", "✅"))
-
-        # 体积运算 - 试剂添加成功后更新容器液体体积
+        
+        # 🔧 修复体积运算 - 试剂添加成功后更新容器液体体积
+        debug_print(f"🔧 更新容器液体体积...")
        if "data" in vessel and "liquid_volume" in vessel["data"]:
            current_volume = vessel["data"]["liquid_volume"]
-
+            debug_print(f"📊 添加前容器体积: {current_volume}")
+            
            # 处理不同的体积数据格式
            if isinstance(current_volume, list):
                if len(current_volume) > 0:
                    # 增加体积（添加试剂）
                    vessel["data"]["liquid_volume"][0] += volume
+                    debug_print(f"📊 添加后容器体积: {vessel['data']['liquid_volume'][0]:.2f}mL (+{volume:.2f}mL)")
                else:
                    # 如果列表为空，创建新的体积记录
                    vessel["data"]["liquid_volume"] = [volume]
+                    debug_print(f"📊 初始化容器体积: {volume:.2f}mL")
            elif isinstance(current_volume, (int, float)):
                # 直接数值类型
                vessel["data"]["liquid_volume"] += volume
+                debug_print(f"📊 添加后容器体积: {vessel['data']['liquid_volume']:.2f}mL (+{volume:.2f}mL)")
            else:
-                debug_print(f"未知的体积数据格式: {type(current_volume)}")
+                debug_print(f"⚠️ 未知的体积数据格式: {type(current_volume)}")
                # 创建新的体积记录
                vessel["data"]["liquid_volume"] = volume
        else:
+            debug_print(f"📊 容器无液体体积数据，创建新记录: {volume:.2f}mL")
            # 确保vessel有data字段
            if "data" not in vessel:
                vessel["data"] = {}
@@ -315,16 +423,19 @@ def generate_adjust_ph_protocol(
                    G.nodes[vessel_id]['data']['liquid_volume'] = [volume]
            else:
                G.nodes[vessel_id]['data']['liquid_volume'] = current_node_volume + volume
-
+                
+            debug_print(f"✅ 图节点体积数据已更新")
+        
        action_sequence.append(create_action_log(f"容器体积已更新 (+{volume:.2f}mL)", "📊"))
        
    except Exception as e:
-        debug_print(f"生成泵协议时出错: {str(e)}")
+        debug_print(f"❌ 生成泵协议时出错: {str(e)}")
        action_sequence.append(create_action_log(f"泵协议生成失败: {str(e)}", "❌"))
        raise ValueError(f"生成泵协议时出错: {str(e)}")
    
    # 7. 混合搅拌
    if stir and stirrer_id:
+        debug_print(f"🔍 步骤7: 混合搅拌...")
        action_sequence.append(create_action_log(f"开始混合搅拌 {stir_time:.0f}s", "🌀"))
        
        action_sequence.append({
@@ -337,10 +448,14 @@ def generate_adjust_ph_protocol(
                "purpose": f"pH调节: 混合试剂，目标pH={ph_value}"
            }
        })
+        
+        debug_print(f"✅ 混合搅拌设置完成")
    else:
+        debug_print(f"⏭️ 跳过混合搅拌")
        action_sequence.append(create_action_log("跳过混合搅拌", "⏭️"))
-
+    
    # 8. 等待平衡
+    debug_print(f"🔍 步骤8: 反应平衡...")
    action_sequence.append(create_action_log(f"等待pH平衡 {settling_time:.0f}s", "⚖️"))
    
    action_sequence.append({
@@ -353,7 +468,17 @@ def generate_adjust_ph_protocol(
    
    # 9. 完成总结
    total_time = addition_time + stir_time + settling_time
-    debug_print(f"pH调节协议完成: {len(action_sequence)} 个动作, {total_time:.0f}s, {volume:.2f}mL {reagent} → {vessel_id} pH {ph_value}")
+    
+    debug_print("=" * 60)
+    debug_print(f"🎉 pH调节协议生成完成")
+    debug_print(f"📊 协议统计:")
+    debug_print(f"  📋 总动作数: {len(action_sequence)}")
+    debug_print(f"  ⏱️ 预计总时间: {total_time:.0f}s ({total_time/60:.1f}分钟)")
+    debug_print(f"  🧪 试剂: {reagent}")
+    debug_print(f"  📏 体积: {volume:.2f}mL")
+    debug_print(f"  📊 目标pH: {ph_value}")
+    debug_print(f"  🥼 目标容器: {vessel_id}")
+    debug_print("=" * 60)
    
    # 添加完成日志
    summary_msg = f"pH调节协议完成: {vessel_id} → pH {ph_value} (使用 {volume:.2f}mL {reagent})"
@@ -385,18 +510,28 @@ def generate_adjust_ph_protocol_stepwise(
    """
    # 🔧 核心修改：从字典中提取容器ID
    vessel_id = vessel["id"]
-
-    debug_print(f"分步pH调节: vessel={vessel_id}, ph={ph_value}, reagent={reagent}, max_volume={max_volume}mL, steps={steps}")
+    
+    debug_print("=" * 60)
+    debug_print(f"🔄 开始分步pH调节")
+    debug_print(f"📋 分步参数:")
+    debug_print(f"  🥼 vessel: {vessel} (ID: {vessel_id})")
+    debug_print(f"  📊 ph_value: {ph_value}")
+    debug_print(f"  🧪 reagent: {reagent}")
+    debug_print(f"  📏 max_volume: {max_volume}mL")
+    debug_print(f"  🔢 steps: {steps}")
+    debug_print("=" * 60)
    
    action_sequence = []
    
    # 每步添加的体积
    step_volume = max_volume / steps
+    debug_print(f"📊 每步体积: {step_volume:.2f}mL")
    
    action_sequence.append(create_action_log(f"开始分步pH调节 ({steps}步)", "🔄"))
    action_sequence.append(create_action_log(f"每步添加: {step_volume:.2f}mL", "📏"))
    
    for i in range(steps):
+        debug_print(f"🔄 执行第 {i+1}/{steps} 步，添加 {step_volume:.2f}mL")
        action_sequence.append(create_action_log(f"第 {i+1}/{steps} 步开始", "🚀"))
        
        # 生成单步协议
@@ -413,10 +548,12 @@ def generate_adjust_ph_protocol_stepwise(
        )
        
        action_sequence.extend(step_actions)
+        debug_print(f"✅ 第 {i+1}/{steps} 步完成，添加了 {len(step_actions)} 个动作")
        action_sequence.append(create_action_log(f"第 {i+1}/{steps} 步完成", "✅"))
        
        # 步骤间等待
        if i < steps - 1:
+            debug_print(f"⏳ 步骤间等待30s")
            action_sequence.append(create_action_log("步骤间等待...", "⏳"))
            action_sequence.append({
                "action_name": "wait",
@@ -426,7 +563,7 @@ def generate_adjust_ph_protocol_stepwise(
                }
            })
    
-    debug_print(f"分步pH调节完成: {len(action_sequence)} 个动作")
+    debug_print(f"🎉 分步pH调节完成，共 {len(action_sequence)} 个动作")
    action_sequence.append(create_action_log("分步pH调节全部完成", "🎉"))
    
    return action_sequence
@@ -440,7 +577,7 @@ def generate_acidify_protocol(
 ) -> List[Dict[str, Any]]:
    """酸化协议"""
    vessel_id = vessel["id"]
-    debug_print(f"酸化协议: {vessel_id} → pH {target_ph} ({acid})")
+    debug_print(f"🍋 生成酸化协议: {vessel_id} → pH {target_ph} (使用 {acid})")
    return generate_adjust_ph_protocol(
        G, vessel, target_ph, acid
    )
@@ -453,7 +590,7 @@ def generate_basify_protocol(
 ) -> List[Dict[str, Any]]:
    """碱化协议"""
    vessel_id = vessel["id"]
-    debug_print(f"碱化协议: {vessel_id} → pH {target_ph} ({base})")
+    debug_print(f"🧂 生成碱化协议: {vessel_id} → pH {target_ph} (使用 {base})")
    return generate_adjust_ph_protocol(
        G, vessel, target_ph, base
    )
@@ -465,7 +602,7 @@ def generate_neutralize_protocol(
 ) -> List[Dict[str, Any]]:
    """中和协议（pH=7）"""
    vessel_id = vessel["id"]
-    debug_print(f"中和协议: {vessel_id} → pH 7.0 ({reagent})")
+    debug_print(f"⚖️ 生成中和协议: {vessel_id} → pH 7.0 (使用 {reagent})")
    return generate_adjust_ph_protocol(
        G, vessel, 7.0, reagent
    )
@@ -473,7 +610,10 @@ def generate_neutralize_protocol(
 # 测试函数
 def test_adjust_ph_protocol():
    """测试pH调节协议"""
+    debug_print("=== ADJUST PH PROTOCOL 增强版测试 ===")
+    
    # 测试体积计算
+    debug_print("🧮 测试体积计算...")
    test_cases = [
        (2.0, "hydrochloric acid", 100.0),
        (4.0, "hydrochloric acid", 100.0),
@@ -481,12 +621,12 @@ def test_adjust_ph_protocol():
        (10.0, "sodium hydroxide", 100.0),
        (7.0, "unknown reagent", 100.0)
    ]
-
+    
    for ph, reagent, volume in test_cases:
        result = calculate_reagent_volume(ph, reagent, volume)
-        debug_print(f"{reagent} → pH {ph}: {result:.2f}mL")
-
-    debug_print("测试完成")
+        debug_print(f"📊 {reagent} → pH {ph}: {result:.2f}mL")
+    
+    debug_print("✅ 测试完成")

 if __name__ == "__main__":
    test_adjust_ph_protocol()
--- a/unilabos/compile/agv_transfer_protocol.py
+++ b/unilabos/compile/agv_transfer_protocol.py
@@ -1,12 +1,4 @@
-"""
-AGV 单物料转运编译器
-
-从 physical_setup_graph 中查询 AGV 配置（device_roles, route_table），
-不再硬编码 device_id 和路由表。
-"""
-
 import networkx as nx
-from unilabos.compile._agv_utils import find_agv_config


 def generate_agv_transfer_protocol(
@@ -25,32 +17,37 @@ def generate_agv_transfer_protocol(
    from_repo_id = from_repo_["id"]
    to_repo_id = to_repo_["id"]

-    # 从 G 中查询 AGV 配置
-    agv_cfg = find_agv_config(G)
-    device_roles = agv_cfg["device_roles"]
-    route_table = agv_cfg["route_table"]
+    wf_list = {
+        ("AiChemEcoHiWo", "zhixing_agv"): {"nav_command" : '{"target" : "LM14"}',
+                             "arm_command": '{"task_name" : "camera/250111_biaozhi.urp"}'},
+        ("AiChemEcoHiWo", "AGV"): {"nav_command" : '{"target" : "LM14"}',
+                             "arm_command": '{"task_name" : "camera/250111_biaozhi.urp"}'},

-    route_key = f"{from_repo_id}->{to_repo_id}"
-    if route_key not in route_table:
-        raise KeyError(f"AGV 路由表中未找到路线: {route_key}，可用路线: {list(route_table.keys())}")
+        ("zhixing_agv", "Revvity"): {"nav_command" : '{"target" : "LM13"}',
+                             "arm_command": '{"task_name" : "camera/250111_put_board.urp"}'},

-    route = route_table[route_key]
-    nav_device = device_roles.get("navigator", device_roles.get("nav"))
-    arm_device = device_roles.get("arm")
+        ("AGV", "Revvity"): {"nav_command" : '{"target" : "LM13"}',
+                             "arm_command": '{"task_name" : "camera/250111_put_board.urp"}'},

+        ("Revvity", "HPLC"): {"nav_command": '{"target" : "LM13"}',
+                              "arm_command": '{"task_name" : "camera/250111_hplc.urp"}'},
+
+        ("HPLC", "Revvity"): {"nav_command": '{"target" : "LM13"}',
+                              "arm_command": '{"task_name" : "camera/250111_lfp.urp"}'},
+    }
    return [
        {
-            "device_id": nav_device,
+            "device_id": "zhixing_agv",
            "action_name": "send_nav_task",
            "action_kwargs": {
-                "command": route["nav_command"]
+                "command": wf_list[(from_repo_id, to_repo_id)]["nav_command"]
            }
        },
        {
-            "device_id": arm_device,
+            "device_id": "zhixing_ur_arm",
            "action_name": "move_pos_task",
            "action_kwargs": {
-                "command": route.get("arm_command", route.get("arm_place", ""))
+                "command": wf_list[(from_repo_id, to_repo_id)]["arm_command"]
            }
        }
    ]
--- a/unilabos/compile/batch_transfer_protocol.py
+++ b/unilabos/compile/batch_transfer_protocol.py
@@ -1,228 +0,0 @@
-"""
-批量物料转运编译器
-
-将 BatchTransferProtocol 编译为多批次的 nav → pick × N → nav → place × N 动作序列。
-自动按 AGV 容量分批，全程维护三方 children dict 的物料系统一致性。
-"""
-
-import copy
-from typing import Any, Dict, List
-
-import networkx as nx
-
-from unilabos.compile._agv_utils import find_agv_config, split_batches
-
-
-def generate_batch_transfer_protocol(
-    G: nx.Graph,
-    from_repo: dict,
-    to_repo: dict,
-    transfer_resources: list,
-    from_positions: list,
-    to_positions: list,
-) -> List[Dict[str, Any]]:
-    """编译批量转运协议为可执行的 action steps
-
-    Args:
-        G: 设备图 (physical_setup_graph)
-        from_repo: 来源工站资源 dict（{station_id: {..., children: {...}}}）
-        to_repo: 目标工站资源 dict（含堆栈和位置信息）
-        transfer_resources: 被转运的物料列表（Resource dict）
-        from_positions: 来源 slot 位置列表（与 transfer_resources 平行）
-        to_positions: 目标 slot 位置列表（与 transfer_resources 平行）
-
-    Returns:
-        action steps 列表，ROS2WorkstationNode 按序执行
-    """
-    if not transfer_resources:
-        return []
-
-    n = len(transfer_resources)
-    if len(from_positions) != n or len(to_positions) != n:
-        raise ValueError(
-            f"transfer_resources({n}), from_positions({len(from_positions)}), "
-            f"to_positions({len(to_positions)}) 长度不一致"
-        )
-
-    # 组合为内部 transfer_items 便于分批处理
-    transfer_items = []
-    for i in range(n):
-        res = transfer_resources[i] if isinstance(transfer_resources[i], dict) else {}
-        transfer_items.append({
-            "resource_id": res.get("id", res.get("name", "")),
-            "resource_uuid": res.get("sample_id", ""),
-            "from_position": from_positions[i],
-            "to_position": to_positions[i],
-            "resource": res,
-        })
-
-    # 查询 AGV 配置
-    agv_cfg = find_agv_config(G)
-    agv_id = agv_cfg["agv_id"]
-    device_roles = agv_cfg["device_roles"]
-    route_table = agv_cfg["route_table"]
-    capacity = agv_cfg["capacity"]
-
-    if capacity <= 0:
-        raise ValueError(f"AGV {agv_id} 容量为 0，请检查 Warehouse 子节点配置")
-
-    nav_device = device_roles.get("navigator", device_roles.get("nav"))
-    arm_device = device_roles.get("arm")
-    if not nav_device or not arm_device:
-        raise ValueError(f"AGV {agv_id} device_roles 缺少 navigator 或 arm: {device_roles}")
-
-    from_repo_ = list(from_repo.values())[0]
-    to_repo_ = list(to_repo.values())[0]
-    from_station_id = from_repo_["id"]
-    to_station_id = to_repo_["id"]
-
-    # 查找路由
-    route_to_source = _find_route(route_table, agv_id, from_station_id)
-    route_to_target = _find_route(route_table, from_station_id, to_station_id)
-
-    # 构建 AGV carrier 的 children dict（用于 compile 阶段状态追踪）
-    agv_carrier_children: Dict[str, Any] = {}
-
-    # 计算 slot 名称（A01, A02, B01, ...）
-    agv_slot_names = _get_agv_slot_names(G, agv_cfg)
-
-    # 分批
-    batches = split_batches(transfer_items, capacity)
-
-    steps: List[Dict[str, Any]] = []
-
-    for batch_idx, batch in enumerate(batches):
-        is_last_batch = (batch_idx == len(batches) - 1)
-
-        # 阶段 1: AGV 导航到来源工站
-        steps.append({
-            "device_id": nav_device,
-            "action_name": "send_nav_task",
-            "action_kwargs": {
-                "command": route_to_source.get("nav_command", "")
-            },
-            "_comment": f"批次{batch_idx + 1}/{len(batches)}: AGV 导航至来源 {from_station_id}"
-        })
-
-        # 阶段 2: 逐个 pick
-        for item_idx, item in enumerate(batch):
-            from_pos = item["from_position"]
-            slot = agv_slot_names[item_idx] if item_idx < len(agv_slot_names) else f"S{item_idx + 1}"
-
-            # compile 阶段更新 children dict
-            if from_pos in from_repo_.get("children", {}):
-                resource_data = from_repo_["children"].pop(from_pos)
-                resource_data["parent"] = agv_id
-                agv_carrier_children[slot] = resource_data
-
-            steps.append({
-                "device_id": arm_device,
-                "action_name": "move_pos_task",
-                "action_kwargs": {
-                    "command": route_to_source.get("arm_pick", route_to_source.get("arm_command", ""))
-                },
-                "_transfer_meta": {
-                    "phase": "pick",
-                    "resource_uuid": item.get("resource_uuid", ""),
-                    "resource_id": item.get("resource_id", ""),
-                    "from_parent": from_station_id,
-                    "from_position": from_pos,
-                    "agv_slot": slot,
-                },
-                "_comment": f"Pick {item.get('resource_id', from_pos)} → AGV.{slot}"
-            })
-
-        # 阶段 3: AGV 导航到目标工站
-        steps.append({
-            "device_id": nav_device,
-            "action_name": "send_nav_task",
-            "action_kwargs": {
-                "command": route_to_target.get("nav_command", "")
-            },
-            "_comment": f"批次{batch_idx + 1}: AGV 导航至目标 {to_station_id}"
-        })
-
-        # 阶段 4: 逐个 place
-        for item_idx, item in enumerate(batch):
-            to_pos = item["to_position"]
-            slot = agv_slot_names[item_idx] if item_idx < len(agv_slot_names) else f"S{item_idx + 1}"
-
-            # compile 阶段更新 children dict
-            if slot in agv_carrier_children:
-                resource_data = agv_carrier_children.pop(slot)
-                resource_data["parent"] = to_repo_["id"]
-                to_repo_["children"][to_pos] = resource_data
-
-            steps.append({
-                "device_id": arm_device,
-                "action_name": "move_pos_task",
-                "action_kwargs": {
-                    "command": route_to_target.get("arm_place", route_to_target.get("arm_command", ""))
-                },
-                "_transfer_meta": {
-                    "phase": "place",
-                    "resource_uuid": item.get("resource_uuid", ""),
-                    "resource_id": item.get("resource_id", ""),
-                    "to_parent": to_station_id,
-                    "to_position": to_pos,
-                    "agv_slot": slot,
-                },
-                "_comment": f"Place AGV.{slot} → {to_station_id}.{to_pos}"
-            })
-
-        # 如果还有下一批，AGV 需要返回来源取料
-        if not is_last_batch:
-            steps.append({
-                "device_id": nav_device,
-                "action_name": "send_nav_task",
-                "action_kwargs": {
-                    "command": route_to_source.get("nav_command", "")
-                },
-                "_comment": f"AGV 返回来源 {from_station_id} 取下一批"
-            })
-
-    return steps
-
-
-def _find_route(route_table: Dict[str, Any], from_id: str, to_id: str) -> Dict[str, str]:
-    """在路由表中查找路线，支持 A->B 和 (A, B) 两种 key 格式"""
-    # 优先 "A->B" 格式
-    key = f"{from_id}->{to_id}"
-    if key in route_table:
-        return route_table[key]
-    # 兼容 tuple key（JSON 中以逗号分隔字符串表示）
-    tuple_key = f"({from_id}, {to_id})"
-    if tuple_key in route_table:
-        return route_table[tuple_key]
-    raise KeyError(f"路由表中未找到: {key}，可用路线: {list(route_table.keys())}")
-
-
-def _get_agv_slot_names(G: nx.Graph, agv_cfg: dict) -> List[str]:
-    """从设备图中获取 AGV Warehouse 的 slot 名称列表"""
-    agv_id = agv_cfg["agv_id"]
-    neighbors = G.successors(agv_id) if G.is_directed() else G.neighbors(agv_id)
-    for neighbor in neighbors:
-        ndata = G.nodes[neighbor]
-        node_type = ndata.get("type", "")
-        res_content = ndata.get("res_content")
-        if hasattr(res_content, "type"):
-            node_type = res_content.type or node_type
-        elif isinstance(res_content, dict):
-            node_type = res_content.get("type", node_type)
-        if node_type == "warehouse":
-            config = ndata.get("config", {})
-            if hasattr(res_content, "config") and isinstance(res_content.config, dict):
-                config = res_content.config
-            elif isinstance(res_content, dict):
-                config = res_content.get("config", config)
-            num_x = config.get("num_items_x", 1)
-            num_y = config.get("num_items_y", 1)
-            num_z = config.get("num_items_z", 1)
-            # 与 warehouse_factory 一致的命名
-            letters = "ABCDEFGHIJKLMNOPQRSTUVWXYZ"
-            len_x = num_x if num_z == 1 else (num_y if num_x == 1 else num_x)
-            len_y = num_y if num_z == 1 else (num_z if num_x == 1 else num_z)
-            return [f"{letters[j]}{i + 1:02d}" for i in range(len_x) for j in range(len_y)]
-    # 兜底生成通用名称
-    capacity = agv_cfg.get("capacity", 4)
-    return [f"S{i + 1}" for i in range(capacity)]
--- a/unilabos/compile/clean_vessel_protocol.py
+++ b/unilabos/compile/clean_vessel_protocol.py
@@ -1,9 +1,7 @@
 from typing import List, Dict, Any
 import networkx as nx
-from .utils.vessel_parser import get_vessel, find_solvent_vessel, find_connected_heatchill
-from .utils.logger_util import debug_print
+from .utils.vessel_parser import get_vessel, find_solvent_vessel
 from .pump_protocol import generate_pump_protocol
-from .utils.resource_helper import get_resource_liquid_volume


 def find_solvent_vessel_by_any_match(G: nx.DiGraph, solvent: str) -> str:
@@ -19,23 +17,43 @@ def find_waste_vessel(G: nx.DiGraph) -> str:
    """
    possible_waste_names = [
        "waste_workup",
-        "flask_waste",
+        "flask_waste", 
        "bottle_waste",
        "waste",
        "waste_vessel",
        "waste_container"
    ]
-
+    
    for waste_name in possible_waste_names:
        if waste_name in G.nodes():
            return waste_name
-
+    
    raise ValueError(f"未找到废液容器。尝试了以下名称: {possible_waste_names}")


+def find_connected_heatchill(G: nx.DiGraph, vessel: str) -> str:
+    """
+    查找与指定容器相连的加热冷却设备
+    """
+    # 查找所有加热冷却设备节点
+    heatchill_nodes = [node for node in G.nodes() 
+                      if (G.nodes[node].get('class') or '') == 'virtual_heatchill']
+    
+    # 检查哪个加热设备与目标容器相连（机械连接）
+    for heatchill in heatchill_nodes:
+        if G.has_edge(heatchill, vessel) or G.has_edge(vessel, heatchill):
+            return heatchill
+    
+    # 如果没有直接连接，返回第一个可用的加热设备
+    if heatchill_nodes:
+        return heatchill_nodes[0]
+    
+    return None  # 没有加热设备也可以工作，只是不能加热
+
+
 def generate_clean_vessel_protocol(
    G: nx.DiGraph,
-    vessel: dict,
+    vessel: dict,  # 🔧 修改：从字符串改为字典类型
    solvent: str,
    volume: float,
    temp: float,
@@ -43,7 +61,7 @@ def generate_clean_vessel_protocol(
 ) -> List[Dict[str, Any]]:
    """
    生成容器清洗操作的协议序列，复用 pump_protocol 的成熟算法
-
+    
    清洗流程：
    1. 查找溶剂容器和废液容器
    2. 如果需要加热，启动加热设备
@@ -52,50 +70,63 @@ def generate_clean_vessel_protocol(
       b. (可选) 等待清洗作用时间
       c. 使用 pump_protocol 将清洗液从目标容器转移到废液容器
    4. 如果加热了，停止加热
-
+    
    Args:
        G: 有向图，节点为设备和容器，边为流体管道
        vessel: 要清洗的容器字典（包含id字段）
-        solvent: 用于清洗的溶剂名称
+        solvent: 用于清洗的溶剂名称  
        volume: 每次清洗使用的溶剂体积
        temp: 清洗时的温度
        repeats: 清洗操作的重复次数，默认为 1
-
+    
    Returns:
        List[Dict[str, Any]]: 容器清洗操作的动作序列
+    
+    Raises:
+        ValueError: 当找不到必要的容器或设备时抛出异常
+    
+    Examples:
+        clean_protocol = generate_clean_vessel_protocol(G, {"id": "main_reactor"}, "water", 100.0, 60.0, 2)
    """
+    # 🔧 核心修改：从字典中提取容器ID
    vessel_id, vessel_data = get_vessel(vessel)
-
+    
    action_sequence = []
-
-    debug_print(f"开始生成容器清洗协议: vessel={vessel_id}, solvent={solvent}, volume={volume}mL, temp={temp}°C, repeats={repeats}")
-
+    
+    print(f"CLEAN_VESSEL: 开始生成容器清洗协议")
+    print(f"  - 目标容器: {vessel} (ID: {vessel_id})")
+    print(f"  - 清洗溶剂: {solvent}")
+    print(f"  - 清洗体积: {volume} mL")
+    print(f"  - 清洗温度: {temp}°C")
+    print(f"  - 重复次数: {repeats}")
+    
    # 验证目标容器存在
    if vessel_id not in G.nodes():
        raise ValueError(f"目标容器 '{vessel_id}' 不存在于系统中")
-
+    
    # 查找溶剂容器
    try:
        solvent_vessel = find_solvent_vessel(G, solvent)
-        debug_print(f"找到溶剂容器: {solvent_vessel}")
+        print(f"CLEAN_VESSEL: 找到溶剂容器: {solvent_vessel}")
    except ValueError as e:
        raise ValueError(f"无法找到溶剂容器: {str(e)}")
-
+    
    # 查找废液容器
    try:
        waste_vessel = find_waste_vessel(G)
-        debug_print(f"找到废液容器: {waste_vessel}")
+        print(f"CLEAN_VESSEL: 找到废液容器: {waste_vessel}")
    except ValueError as e:
        raise ValueError(f"无法找到废液容器: {str(e)}")
-
+    
    # 查找加热设备（可选）
-    heatchill_id = find_connected_heatchill(G, vessel_id)
+    heatchill_id = find_connected_heatchill(G, vessel_id)  # 🔧 使用 vessel_id
    if heatchill_id:
-        debug_print(f"找到加热设备: {heatchill_id}")
+        print(f"CLEAN_VESSEL: 找到加热设备: {heatchill_id}")
    else:
-        debug_print(f"未找到加热设备，将在室温下清洗")
-
-    # 记录清洗前的容器状态
+        print(f"CLEAN_VESSEL: 未找到加热设备，将在室温下清洗")
+    
+    # 🔧 新增：记录清洗前的容器状态
+    print(f"CLEAN_VESSEL: 记录清洗前容器状态...")
    original_liquid_volume = 0.0
    if "data" in vessel and "liquid_volume" in vessel["data"]:
        current_volume = vessel["data"]["liquid_volume"]
@@ -103,69 +134,79 @@ def generate_clean_vessel_protocol(
            original_liquid_volume = current_volume[0]
        elif isinstance(current_volume, (int, float)):
            original_liquid_volume = current_volume
-
+    print(f"CLEAN_VESSEL: 清洗前液体体积: {original_liquid_volume:.2f}mL")
+    
    # 第一步：如果需要加热且有加热设备，启动加热
    if temp > 25.0 and heatchill_id:
-        debug_print(f"启动加热至 {temp}°C")
+        print(f"CLEAN_VESSEL: 启动加热至 {temp}°C")
        heatchill_start_action = {
            "device_id": heatchill_id,
            "action_name": "heat_chill_start",
            "action_kwargs": {
-                "vessel": {"id": vessel_id},
+                "vessel": {"id": vessel_id},  # 🔧 使用 vessel_id
                "temp": temp,
                "purpose": f"cleaning with {solvent}"
            }
        }
        action_sequence.append(heatchill_start_action)
-
+        
+        # 等待温度稳定
        wait_action = {
-            "action_name": "wait",
-            "action_kwargs": {"time": 30}
+            "action_name": "wait", 
+            "action_kwargs": {"time": 30}  # 等待30秒让温度稳定
        }
        action_sequence.append(wait_action)
-
+    
    # 第二步：重复清洗操作
    for repeat in range(repeats):
-        debug_print(f"执行第 {repeat + 1}/{repeats} 次清洗")
-
+        print(f"CLEAN_VESSEL: 执行第 {repeat + 1} 次清洗")
+        
        # 2a. 使用 pump_protocol 将溶剂转移到目标容器
+        print(f"CLEAN_VESSEL: 将 {volume} mL {solvent} 转移到 {vessel_id}")
        try:
+            # 调用成熟的 pump_protocol 算法
            add_solvent_actions = generate_pump_protocol(
                G=G,
                from_vessel=solvent_vessel,
-                to_vessel=vessel_id,
+                to_vessel=vessel_id,  # 🔧 使用 vessel_id
                volume=volume,
-                flowrate=2.5,
+                flowrate=2.5,  # 适中的流速，避免飞溅
                transfer_flowrate=2.5
            )
            action_sequence.extend(add_solvent_actions)
-
-            # 更新容器体积（添加清洗溶剂）
+            
+            # 🔧 新增：更新容器体积（添加清洗溶剂）
+            print(f"CLEAN_VESSEL: 更新容器体积 - 添加清洗溶剂 {volume:.2f}mL")
            if "data" not in vessel:
                vessel["data"] = {}
-
+            
            if "liquid_volume" in vessel["data"]:
                current_volume = vessel["data"]["liquid_volume"]
                if isinstance(current_volume, list):
                    if len(current_volume) > 0:
                        vessel["data"]["liquid_volume"][0] += volume
+                        print(f"CLEAN_VESSEL: 添加溶剂后体积: {vessel['data']['liquid_volume'][0]:.2f}mL (+{volume:.2f}mL)")
                    else:
                        vessel["data"]["liquid_volume"] = [volume]
+                        print(f"CLEAN_VESSEL: 初始化清洗体积: {volume:.2f}mL")
                elif isinstance(current_volume, (int, float)):
                    vessel["data"]["liquid_volume"] += volume
+                    print(f"CLEAN_VESSEL: 添加溶剂后体积: {vessel['data']['liquid_volume']:.2f}mL (+{volume:.2f}mL)")
                else:
                    vessel["data"]["liquid_volume"] = volume
+                    print(f"CLEAN_VESSEL: 重置体积为: {volume:.2f}mL")
            else:
                vessel["data"]["liquid_volume"] = volume
-
-            # 同时更新图中的容器数据
+                print(f"CLEAN_VESSEL: 创建新体积记录: {volume:.2f}mL")
+            
+            # 🔧 同时更新图中的容器数据
            if vessel_id in G.nodes():
                if 'data' not in G.nodes[vessel_id]:
                    G.nodes[vessel_id]['data'] = {}
-
+                
                vessel_node_data = G.nodes[vessel_id]['data']
                current_node_volume = vessel_node_data.get('liquid_volume', 0.0)
-
+                
                if isinstance(current_node_volume, list):
                    if len(current_node_volume) > 0:
                        G.nodes[vessel_id]['data']['liquid_volume'][0] += volume
@@ -173,48 +214,58 @@ def generate_clean_vessel_protocol(
                        G.nodes[vessel_id]['data']['liquid_volume'] = [volume]
                else:
                    G.nodes[vessel_id]['data']['liquid_volume'] = current_node_volume + volume
-
+                
+                print(f"CLEAN_VESSEL: 图节点体积数据已更新")
+            
        except Exception as e:
            raise ValueError(f"无法将溶剂转移到容器: {str(e)}")
-
-        # 2b. 等待清洗作用时间
-        cleaning_wait_time = 60 if temp > 50.0 else 30
+        
+        # 2b. 等待清洗作用时间（让溶剂充分清洗容器）
+        cleaning_wait_time = 60 if temp > 50.0 else 30  # 高温下等待更久
+        print(f"CLEAN_VESSEL: 等待清洗作用 {cleaning_wait_time} 秒")
        wait_action = {
-            "action_name": "wait",
+            "action_name": "wait", 
            "action_kwargs": {"time": cleaning_wait_time}
        }
        action_sequence.append(wait_action)
-
+        
        # 2c. 使用 pump_protocol 将清洗液转移到废液容器
+        print(f"CLEAN_VESSEL: 将清洗液从 {vessel_id} 转移到废液容器")
        try:
+            # 调用成熟的 pump_protocol 算法
            remove_waste_actions = generate_pump_protocol(
                G=G,
-                from_vessel=vessel_id,
+                from_vessel=vessel_id,  # 🔧 使用 vessel_id
                to_vessel=waste_vessel,
                volume=volume,
-                flowrate=2.5,
+                flowrate=2.5,  # 适中的流速
                transfer_flowrate=2.5
            )
            action_sequence.extend(remove_waste_actions)
-
-            # 更新容器体积（移除清洗液）
+            
+            # 🔧 新增：更新容器体积（移除清洗液）
+            print(f"CLEAN_VESSEL: 更新容器体积 - 移除清洗液 {volume:.2f}mL")
            if "data" in vessel and "liquid_volume" in vessel["data"]:
                current_volume = vessel["data"]["liquid_volume"]
                if isinstance(current_volume, list):
                    if len(current_volume) > 0:
                        vessel["data"]["liquid_volume"][0] = max(0.0, vessel["data"]["liquid_volume"][0] - volume)
+                        print(f"CLEAN_VESSEL: 移除清洗液后体积: {vessel['data']['liquid_volume'][0]:.2f}mL (-{volume:.2f}mL)")
                    else:
                        vessel["data"]["liquid_volume"] = [0.0]
+                        print(f"CLEAN_VESSEL: 重置体积为0mL")
                elif isinstance(current_volume, (int, float)):
                    vessel["data"]["liquid_volume"] = max(0.0, current_volume - volume)
+                    print(f"CLEAN_VESSEL: 移除清洗液后体积: {vessel['data']['liquid_volume']:.2f}mL (-{volume:.2f}mL)")
                else:
                    vessel["data"]["liquid_volume"] = 0.0
-
-            # 同时更新图中的容器数据
+                    print(f"CLEAN_VESSEL: 重置体积为0mL")
+            
+            # 🔧 同时更新图中的容器数据
            if vessel_id in G.nodes():
                vessel_node_data = G.nodes[vessel_id].get('data', {})
                current_node_volume = vessel_node_data.get('liquid_volume', 0.0)
-
+                
                if isinstance(current_node_volume, list):
                    if len(current_node_volume) > 0:
                        G.nodes[vessel_id]['data']['liquid_volume'][0] = max(0.0, current_node_volume[0] - volume)
@@ -222,30 +273,34 @@ def generate_clean_vessel_protocol(
                        G.nodes[vessel_id]['data']['liquid_volume'] = [0.0]
                else:
                    G.nodes[vessel_id]['data']['liquid_volume'] = max(0.0, current_node_volume - volume)
-
+                
+                print(f"CLEAN_VESSEL: 图节点体积数据已更新")
+            
        except Exception as e:
            raise ValueError(f"无法将清洗液转移到废液容器: {str(e)}")
-
+        
        # 2d. 清洗循环间的短暂等待
-        if repeat < repeats - 1:
+        if repeat < repeats - 1:  # 不是最后一次清洗
+            print(f"CLEAN_VESSEL: 清洗循环间等待")
            wait_action = {
-                "action_name": "wait",
+                "action_name": "wait", 
                "action_kwargs": {"time": 10}
            }
            action_sequence.append(wait_action)
-
+    
    # 第三步：如果加热了，停止加热
    if temp > 25.0 and heatchill_id:
+        print(f"CLEAN_VESSEL: 停止加热")
        heatchill_stop_action = {
            "device_id": heatchill_id,
            "action_name": "heat_chill_stop",
            "action_kwargs": {
-                "vessel": {"id": vessel_id},
+                "vessel": {"id": vessel_id},  # 🔧 使用 vessel_id
            }
        }
        action_sequence.append(heatchill_stop_action)
-
-    # 清洗完成后的状态
+    
+    # 🔧 新增：清洗完成后的状态报告
    final_liquid_volume = 0.0
    if "data" in vessel and "liquid_volume" in vessel["data"]:
        current_volume = vessel["data"]["liquid_volume"]
@@ -253,17 +308,20 @@ def generate_clean_vessel_protocol(
            final_liquid_volume = current_volume[0]
        elif isinstance(current_volume, (int, float)):
            final_liquid_volume = current_volume
-
-    debug_print(f"清洗完成: {len(action_sequence)} 个动作, 体积 {original_liquid_volume:.2f} -> {final_liquid_volume:.2f}mL")
-
+    
+    print(f"CLEAN_VESSEL: 清洗完成")
+    print(f"  - 清洗前体积: {original_liquid_volume:.2f}mL")
+    print(f"  - 清洗后体积: {final_liquid_volume:.2f}mL")
+    print(f"  - 生成了 {len(action_sequence)} 个动作")
+    
    return action_sequence


-# 便捷函数
+# 便捷函数：常用清洗方案
 def generate_quick_clean_protocol(
-    G: nx.DiGraph,
-    vessel: dict,
-    solvent: str = "water",
+    G: nx.DiGraph, 
+    vessel: dict,  # 🔧 修改：从字符串改为字典类型
+    solvent: str = "water", 
    volume: float = 100.0
 ) -> List[Dict[str, Any]]:
    """快速清洗：室温，单次清洗"""
@@ -271,9 +329,9 @@ def generate_quick_clean_protocol(


 def generate_thorough_clean_protocol(
-    G: nx.DiGraph,
-    vessel: dict,
-    solvent: str = "water",
+    G: nx.DiGraph, 
+    vessel: dict,  # 🔧 修改：从字符串改为字典类型
+    solvent: str = "water", 
    volume: float = 150.0,
    temp: float = 60.0
 ) -> List[Dict[str, Any]]:
@@ -282,13 +340,13 @@ def generate_thorough_clean_protocol(


 def generate_organic_clean_protocol(
-    G: nx.DiGraph,
-    vessel: dict,
+    G: nx.DiGraph, 
+    vessel: dict,  # 🔧 修改：从字符串改为字典类型
    volume: float = 100.0
 ) -> List[Dict[str, Any]]:
    """有机清洗：先用有机溶剂，再用水清洗"""
    action_sequence = []
-
+    
    # 第一步：有机溶剂清洗
    try:
        organic_actions = generate_clean_vessel_protocol(
@@ -296,71 +354,96 @@ def generate_organic_clean_protocol(
        )
        action_sequence.extend(organic_actions)
    except ValueError:
+        # 如果没有丙酮，尝试乙醇
        try:
            organic_actions = generate_clean_vessel_protocol(
                G, vessel, "ethanol", volume, 25.0, 2
            )
            action_sequence.extend(organic_actions)
        except ValueError:
-            debug_print("未找到有机溶剂，跳过有机清洗步骤")
-
+            print("警告：未找到有机溶剂，跳过有机清洗步骤")
+    
    # 第二步：水清洗
    water_actions = generate_clean_vessel_protocol(
        G, vessel, "water", volume, 25.0, 2
    )
    action_sequence.extend(water_actions)
-
+    
    return action_sequence


+def get_vessel_liquid_volume(G: nx.DiGraph, vessel: str) -> float:
+    """获取容器中的液体体积（修复版）"""
+    if vessel not in G.nodes():
+        return 0.0
+    
+    vessel_data = G.nodes[vessel].get('data', {})
+    liquids = vessel_data.get('liquid', [])
+    
+    total_volume = 0.0
+    for liquid in liquids:
+        if isinstance(liquid, dict):
+            # 支持两种格式：新格式 (name, volume) 和旧格式 (liquid_type, liquid_volume)
+            volume = liquid.get('volume') or liquid.get('liquid_volume', 0.0)
+            total_volume += volume
+    
+    return total_volume
+
+
 def get_vessel_liquid_types(G: nx.DiGraph, vessel: str) -> List[str]:
    """获取容器中所有液体的类型"""
    if vessel not in G.nodes():
        return []
-
+    
    vessel_data = G.nodes[vessel].get('data', {})
    liquids = vessel_data.get('liquid', [])
-
+    
    liquid_types = []
    for liquid in liquids:
        if isinstance(liquid, dict):
+            # 支持两种格式的液体类型字段
            liquid_type = liquid.get('liquid_type') or liquid.get('name', '')
            if liquid_type:
                liquid_types.append(liquid_type)
-
+    
    return liquid_types


 def find_vessel_by_content(G: nx.DiGraph, content: str) -> List[str]:
    """
    根据内容物查找所有匹配的容器
+    返回匹配容器的ID列表
    """
    matching_vessels = []
-
+    
    for node_id in G.nodes():
        if G.nodes[node_id].get('type') == 'container':
+            # 检查容器名称匹配
            node_name = G.nodes[node_id].get('name', '').lower()
            if content.lower() in node_id.lower() or content.lower() in node_name:
                matching_vessels.append(node_id)
                continue
-
+            
+            # 检查液体类型匹配
            vessel_data = G.nodes[node_id].get('data', {})
            liquids = vessel_data.get('liquid', [])
            config_data = G.nodes[node_id].get('config', {})
-
+            
+            # 检查 reagent_name 和 config.reagent
            reagent_name = vessel_data.get('reagent_name', '').lower()
            config_reagent = config_data.get('reagent', '').lower()
-
-            if (content.lower() == reagent_name or
+            
+            if (content.lower() == reagent_name or 
                content.lower() == config_reagent):
                matching_vessels.append(node_id)
                continue
-
+            
+            # 检查液体列表
            for liquid in liquids:
                if isinstance(liquid, dict):
                    liquid_type = liquid.get('liquid_type') or liquid.get('name', '')
                    if liquid_type.lower() == content.lower():
                        matching_vessels.append(node_id)
                        break
-
-    return matching_vessels
+    
+    return matching_vessels
--- a/unilabos/compile/dissolve_protocol.py
+++ b/unilabos/compile/dissolve_protocol.py
@@ -1,19 +1,402 @@
 from functools import partial

 import networkx as nx
+import re
 import logging
 from typing import List, Dict, Any, Union

-from .utils.logger_util import debug_print, action_log
-from .utils.unit_parser import parse_volume_input, parse_mass_input, parse_time_input, parse_temperature_input
-from .utils.vessel_parser import get_vessel, find_solvent_vessel, find_connected_heatchill, find_connected_stirrer, find_solid_dispenser
+from .utils.vessel_parser import get_vessel
+from .utils.logger_util import action_log
 from .pump_protocol import generate_pump_protocol_with_rinsing

 logger = logging.getLogger(__name__)

-# 创建进度日志动作
+def debug_print(message):
+    """调试输出"""
+    logger.info(f"[DISSOLVE] {message}")
+
+# 🆕 创建进度日志动作
 create_action_log = partial(action_log, prefix="[DISSOLVE]")

+def parse_volume_input(volume_input: Union[str, float]) -> float:
+    """
+    解析体积输入，支持带单位的字符串
+    
+    Args:
+        volume_input: 体积输入（如 "10 mL", "?", 10.0）
+    
+    Returns:
+        float: 体积（毫升）
+    """
+    if isinstance(volume_input, (int, float)):
+        debug_print(f"📏 体积输入为数值: {volume_input}")
+        return float(volume_input)
+    
+    if not volume_input or not str(volume_input).strip():
+        debug_print(f"⚠️ 体积输入为空，返回0.0mL")
+        return 0.0
+    
+    volume_str = str(volume_input).lower().strip()
+    debug_print(f"🔍 解析体积输入: '{volume_str}'")
+    
+    # 处理未知体积
+    if volume_str in ['?', 'unknown', 'tbd', 'to be determined']:
+        default_volume = 50.0  # 默认50mL
+        debug_print(f"❓ 检测到未知体积，使用默认值: {default_volume}mL 🎯")
+        return default_volume
+    
+    # 移除空格并提取数字和单位
+    volume_clean = re.sub(r'\s+', '', volume_str)
+    
+    # 匹配数字和单位的正则表达式
+    match = re.match(r'([0-9]*\.?[0-9]+)\s*(ml|l|μl|ul|microliter|milliliter|liter)?', volume_clean)
+    
+    if not match:
+        debug_print(f"❌ 无法解析体积: '{volume_str}'，使用默认值50mL")
+        return 50.0
+    
+    value = float(match.group(1))
+    unit = match.group(2) or 'ml'  # 默认单位为毫升
+    
+    # 转换为毫升
+    if unit in ['l', 'liter']:
+        volume = value * 1000.0  # L -> mL
+        debug_print(f"🔄 体积转换: {value}L → {volume}mL")
+    elif unit in ['μl', 'ul', 'microliter']:
+        volume = value / 1000.0  # μL -> mL
+        debug_print(f"🔄 体积转换: {value}μL → {volume}mL")
+    else:  # ml, milliliter 或默认
+        volume = value  # 已经是mL
+        debug_print(f"✅ 体积已为mL: {volume}mL")
+    
+    return volume
+
+def parse_mass_input(mass_input: Union[str, float]) -> float:
+    """
+    解析质量输入，支持带单位的字符串
+    
+    Args:
+        mass_input: 质量输入（如 "2.9 g", "?", 2.5）
+    
+    Returns:
+        float: 质量（克）
+    """
+    if isinstance(mass_input, (int, float)):
+        debug_print(f"⚖️ 质量输入为数值: {mass_input}g")
+        return float(mass_input)
+    
+    if not mass_input or not str(mass_input).strip():
+        debug_print(f"⚠️ 质量输入为空，返回0.0g")
+        return 0.0
+    
+    mass_str = str(mass_input).lower().strip()
+    debug_print(f"🔍 解析质量输入: '{mass_str}'")
+    
+    # 处理未知质量
+    if mass_str in ['?', 'unknown', 'tbd', 'to be determined']:
+        default_mass = 1.0  # 默认1g
+        debug_print(f"❓ 检测到未知质量，使用默认值: {default_mass}g 🎯")
+        return default_mass
+    
+    # 移除空格并提取数字和单位
+    mass_clean = re.sub(r'\s+', '', mass_str)
+    
+    # 匹配数字和单位的正则表达式
+    match = re.match(r'([0-9]*\.?[0-9]+)\s*(g|mg|kg|gram|milligram|kilogram)?', mass_clean)
+    
+    if not match:
+        debug_print(f"❌ 无法解析质量: '{mass_str}'，返回0.0g")
+        return 0.0
+    
+    value = float(match.group(1))
+    unit = match.group(2) or 'g'  # 默认单位为克
+    
+    # 转换为克
+    if unit in ['mg', 'milligram']:
+        mass = value / 1000.0  # mg -> g
+        debug_print(f"🔄 质量转换: {value}mg → {mass}g")
+    elif unit in ['kg', 'kilogram']:
+        mass = value * 1000.0  # kg -> g
+        debug_print(f"🔄 质量转换: {value}kg → {mass}g")
+    else:  # g, gram 或默认
+        mass = value  # 已经是g
+        debug_print(f"✅ 质量已为g: {mass}g")
+    
+    return mass
+
+def parse_time_input(time_input: Union[str, float]) -> float:
+    """
+    解析时间输入，支持带单位的字符串
+    
+    Args:
+        time_input: 时间输入（如 "30 min", "1 h", "?", 60.0）
+    
+    Returns:
+        float: 时间（秒）
+    """
+    if isinstance(time_input, (int, float)):
+        debug_print(f"⏱️ 时间输入为数值: {time_input}秒")
+        return float(time_input)
+    
+    if not time_input or not str(time_input).strip():
+        debug_print(f"⚠️ 时间输入为空，返回0秒")
+        return 0.0
+    
+    time_str = str(time_input).lower().strip()
+    debug_print(f"🔍 解析时间输入: '{time_str}'")
+    
+    # 处理未知时间
+    if time_str in ['?', 'unknown', 'tbd']:
+        default_time = 600.0  # 默认10分钟
+        debug_print(f"❓ 检测到未知时间，使用默认值: {default_time}s (10分钟) ⏰")
+        return default_time
+    
+    # 移除空格并提取数字和单位
+    time_clean = re.sub(r'\s+', '', time_str)
+    
+    # 匹配数字和单位的正则表达式
+    match = re.match(r'([0-9]*\.?[0-9]+)\s*(s|sec|second|min|minute|h|hr|hour|d|day)?', time_clean)
+    
+    if not match:
+        debug_print(f"❌ 无法解析时间: '{time_str}'，返回0s")
+        return 0.0
+    
+    value = float(match.group(1))
+    unit = match.group(2) or 's'  # 默认单位为秒
+    
+    # 转换为秒
+    if unit in ['min', 'minute']:
+        time_sec = value * 60.0  # min -> s
+        debug_print(f"🔄 时间转换: {value}分钟 → {time_sec}秒")
+    elif unit in ['h', 'hr', 'hour']:
+        time_sec = value * 3600.0  # h -> s
+        debug_print(f"🔄 时间转换: {value}小时 → {time_sec}秒")
+    elif unit in ['d', 'day']:
+        time_sec = value * 86400.0  # d -> s
+        debug_print(f"🔄 时间转换: {value}天 → {time_sec}秒")
+    else:  # s, sec, second 或默认
+        time_sec = value  # 已经是s
+        debug_print(f"✅ 时间已为秒: {time_sec}秒")
+    
+    return time_sec
+
+def parse_temperature_input(temp_input: Union[str, float]) -> float:
+    """
+    解析温度输入，支持带单位的字符串
+    
+    Args:
+        temp_input: 温度输入（如 "60 °C", "room temperature", "?", 25.0）
+    
+    Returns:
+        float: 温度（摄氏度）
+    """
+    if isinstance(temp_input, (int, float)):
+        debug_print(f"🌡️ 温度输入为数值: {temp_input}°C")
+        return float(temp_input)
+    
+    if not temp_input or not str(temp_input).strip():
+        debug_print(f"⚠️ 温度输入为空，使用默认室温25°C")
+        return 25.0  # 默认室温
+    
+    temp_str = str(temp_input).lower().strip()
+    debug_print(f"🔍 解析温度输入: '{temp_str}'")
+    
+    # 处理特殊温度描述
+    temp_aliases = {
+        'room temperature': 25.0,
+        'rt': 25.0,
+        'ambient': 25.0,
+        'cold': 4.0,
+        'ice': 0.0,
+        'reflux': 80.0,  # 默认回流温度
+        '?': 25.0,
+        'unknown': 25.0
+    }
+    
+    if temp_str in temp_aliases:
+        result = temp_aliases[temp_str]
+        debug_print(f"🏷️ 温度别名解析: '{temp_str}' → {result}°C")
+        return result
+    
+    # 移除空格并提取数字和单位
+    temp_clean = re.sub(r'\s+', '', temp_str)
+    
+    # 匹配数字和单位的正则表达式
+    match = re.match(r'([0-9]*\.?[0-9]+)\s*(°c|c|celsius|°f|f|fahrenheit|k|kelvin)?', temp_clean)
+    
+    if not match:
+        debug_print(f"❌ 无法解析温度: '{temp_str}'，使用默认值25°C")
+        return 25.0
+    
+    value = float(match.group(1))
+    unit = match.group(2) or 'c'  # 默认单位为摄氏度
+    
+    # 转换为摄氏度
+    if unit in ['°f', 'f', 'fahrenheit']:
+        temp_c = (value - 32) * 5/9  # F -> C
+        debug_print(f"🔄 温度转换: {value}°F → {temp_c:.1f}°C")
+    elif unit in ['k', 'kelvin']:
+        temp_c = value - 273.15  # K -> C
+        debug_print(f"🔄 温度转换: {value}K → {temp_c:.1f}°C")
+    else:  # °c, c, celsius 或默认
+        temp_c = value  # 已经是C
+        debug_print(f"✅ 温度已为°C: {temp_c}°C")
+    
+    return temp_c
+
+def find_solvent_vessel(G: nx.DiGraph, solvent: str) -> str:
+    """增强版溶剂容器查找，支持多种匹配模式"""
+    debug_print(f"🔍 开始查找溶剂 '{solvent}' 的容器...")
+    
+    # 🔧 方法1：直接搜索 data.reagent_name 和 config.reagent
+    debug_print(f"📋 方法1: 搜索reagent字段...")
+    for node in G.nodes():
+        node_data = G.nodes[node].get('data', {})
+        node_type = G.nodes[node].get('type', '')
+        config_data = G.nodes[node].get('config', {})
+        
+        # 只搜索容器类型的节点
+        if node_type == 'container':
+            reagent_name = node_data.get('reagent_name', '').lower()
+            config_reagent = config_data.get('reagent', '').lower()
+            
+            # 精确匹配
+            if reagent_name == solvent.lower() or config_reagent == solvent.lower():
+                debug_print(f"✅ 通过reagent字段精确匹配到容器: {node} 🎯")
+                return node
+            
+            # 模糊匹配
+            if (solvent.lower() in reagent_name and reagent_name) or \
+               (solvent.lower() in config_reagent and config_reagent):
+                debug_print(f"✅ 通过reagent字段模糊匹配到容器: {node} 🔍")
+                return node
+    
+    # 🔧 方法2：常见的容器命名规则
+    debug_print(f"📋 方法2: 使用命名规则查找...")
+    solvent_clean = solvent.lower().replace(' ', '_').replace('-', '_')
+    possible_names = [
+        solvent_clean,
+        f"flask_{solvent_clean}",
+        f"bottle_{solvent_clean}",
+        f"vessel_{solvent_clean}",
+        f"{solvent_clean}_flask",
+        f"{solvent_clean}_bottle",
+        f"solvent_{solvent_clean}",
+        f"reagent_{solvent_clean}",
+        f"reagent_bottle_{solvent_clean}",
+        f"reagent_bottle_1",  # 通用试剂瓶
+        f"reagent_bottle_2",
+        f"reagent_bottle_3"
+    ]
+    
+    debug_print(f"🔍 尝试的容器名称: {possible_names[:5]}... (共{len(possible_names)}个)")
+    
+    for name in possible_names:
+        if name in G.nodes():
+            node_type = G.nodes[name].get('type', '')
+            if node_type == 'container':
+                debug_print(f"✅ 通过命名规则找到容器: {name} 📝")
+                return name
+    
+    # 🔧 方法3：节点名称模糊匹配
+    debug_print(f"📋 方法3: 节点名称模糊匹配...")
+    for node_id in G.nodes():
+        node_data = G.nodes[node_id]
+        if node_data.get('type') == 'container':
+            # 检查节点名称是否包含溶剂名称
+            if solvent_clean in node_id.lower():
+                debug_print(f"✅ 通过节点名称模糊匹配到容器: {node_id} 🔍")
+                return node_id
+            
+            # 检查液体类型匹配
+            vessel_data = node_data.get('data', {})
+            liquids = vessel_data.get('liquid', [])
+            for liquid in liquids:
+                if isinstance(liquid, dict):
+                    liquid_type = liquid.get('liquid_type') or liquid.get('name', '')
+                    if liquid_type.lower() == solvent.lower():
+                        debug_print(f"✅ 通过液体类型匹配到容器: {node_id} 💧")
+                        return node_id
+    
+    # 🔧 方法4：使用第一个试剂瓶作为备选
+    debug_print(f"📋 方法4: 查找备选试剂瓶...")
+    for node_id in G.nodes():
+        node_data = G.nodes[node_id]
+        if (node_data.get('type') == 'container' and 
+            ('reagent' in node_id.lower() or 'bottle' in node_id.lower() or 'flask' in node_id.lower())):
+            debug_print(f"⚠️ 未找到专用容器，使用备选试剂瓶: {node_id} 🔄")
+            return node_id
+    
+    debug_print(f"❌ 所有方法都失败了，无法找到容器!")
+    raise ValueError(f"找不到溶剂 '{solvent}' 对应的容器")
+
+def find_connected_heatchill(G: nx.DiGraph, vessel: str) -> str:
+    """查找连接到指定容器的加热搅拌器"""
+    debug_print(f"🔍 查找连接到容器 '{vessel}' 的加热搅拌器...")
+    
+    heatchill_nodes = []
+    for node in G.nodes():
+        node_class = G.nodes[node].get('class', '').lower()
+        if 'heatchill' in node_class:
+            heatchill_nodes.append(node)
+            debug_print(f"📋 发现加热搅拌器: {node}")
+    
+    debug_print(f"📊 共找到 {len(heatchill_nodes)} 个加热搅拌器")
+    
+    # 查找连接到容器的加热器
+    for heatchill in heatchill_nodes:
+        if G.has_edge(heatchill, vessel) or G.has_edge(vessel, heatchill):
+            debug_print(f"✅ 找到连接的加热搅拌器: {heatchill} 🔗")
+            return heatchill
+    
+    # 返回第一个加热器
+    if heatchill_nodes:
+        debug_print(f"⚠️ 未找到直接连接的加热搅拌器，使用第一个: {heatchill_nodes[0]} 🔄")
+        return heatchill_nodes[0]
+    
+    debug_print(f"❌ 未找到任何加热搅拌器")
+    return ""
+
+def find_connected_stirrer(G: nx.DiGraph, vessel: str) -> str:
+    """查找连接到指定容器的搅拌器"""
+    debug_print(f"🔍 查找连接到容器 '{vessel}' 的搅拌器...")
+    
+    stirrer_nodes = []
+    for node in G.nodes():
+        node_class = G.nodes[node].get('class', '').lower()
+        if 'stirrer' in node_class:
+            stirrer_nodes.append(node)
+            debug_print(f"📋 发现搅拌器: {node}")
+    
+    debug_print(f"📊 共找到 {len(stirrer_nodes)} 个搅拌器")
+    
+    # 查找连接到容器的搅拌器
+    for stirrer in stirrer_nodes:
+        if G.has_edge(stirrer, vessel) or G.has_edge(vessel, stirrer):
+            debug_print(f"✅ 找到连接的搅拌器: {stirrer} 🔗")
+            return stirrer
+    
+    # 返回第一个搅拌器
+    if stirrer_nodes:
+        debug_print(f"⚠️ 未找到直接连接的搅拌器，使用第一个: {stirrer_nodes[0]} 🔄")
+        return stirrer_nodes[0]
+    
+    debug_print(f"❌ 未找到任何搅拌器")
+    return ""
+
+def find_solid_dispenser(G: nx.DiGraph) -> str:
+    """查找固体加样器"""
+    debug_print(f"🔍 查找固体加样器...")
+    
+    for node in G.nodes():
+        node_class = G.nodes[node].get('class', '').lower()
+        if 'solid_dispenser' in node_class or 'dispenser' in node_class:
+            debug_print(f"✅ 找到固体加样器: {node} 🥄")
+            return node
+    
+    debug_print(f"❌ 未找到固体加样器")
+    return ""
+
 def generate_dissolve_protocol(
    G: nx.DiGraph,
    vessel: dict,  # 🔧 修改：从字符串改为字典类型
@@ -53,21 +436,43 @@ def generate_dissolve_protocol(
    - mol: "0.12 mol", "16.2 mmol"
    """
    
-    # 从字典中提取容器ID
+    # 🔧 核心修改：从字典中提取容器ID
    vessel_id, vessel_data = get_vessel(vessel)
-
-    debug_print(f"溶解协议: vessel={vessel_id}, solvent='{solvent}', volume={volume}, "
-                f"mass={mass}, temp={temp}, time={time}")
-
+    
+    debug_print("=" * 60)
+    debug_print("🧪 开始生成溶解协议")
+    debug_print(f"📋 原始参数:")
+    debug_print(f"  🥼 vessel: {vessel} (ID: {vessel_id})")
+    debug_print(f"  💧 solvent: '{solvent}'")
+    debug_print(f"  📏 volume: {volume} (类型: {type(volume)})")
+    debug_print(f"  ⚖️ mass: {mass} (类型: {type(mass)})")
+    debug_print(f"  🌡️ temp: {temp} (类型: {type(temp)})")
+    debug_print(f"  ⏱️ time: {time} (类型: {type(time)})")
+    debug_print(f"  🧪 reagent: '{reagent}'")
+    debug_print(f"  🧬 mol: '{mol}'")
+    debug_print(f"  🎯 event: '{event}'")
+    debug_print(f"  📦 kwargs: {kwargs}")  # 显示额外参数
+    debug_print("=" * 60)
+    
    action_sequence = []
-
+    
+    # === 参数验证 ===
+    debug_print("🔍 步骤1: 参数验证...")
+    action_sequence.append(create_action_log(f"开始溶解操作 - 容器: {vessel_id}", "🎬"))
+    
    if not vessel_id:
+        debug_print("❌ vessel 参数不能为空")
        raise ValueError("vessel 参数不能为空")
    
    if vessel_id not in G.nodes():
+        debug_print(f"❌ 容器 '{vessel_id}' 不存在于系统中")
        raise ValueError(f"容器 '{vessel_id}' 不存在于系统中")
-
-    # 记录溶解前的容器状态
+    
+    debug_print("✅ 基本参数验证通过")
+    action_sequence.append(create_action_log("参数验证通过", "✅"))
+    
+    # 🔧 新增：记录溶解前的容器状态
+    debug_print("🔍 记录溶解前容器状态...")
    original_liquid_volume = 0.0
    if "data" in vessel and "liquid_volume" in vessel["data"]:
        current_volume = vessel["data"]["liquid_volume"]
@@ -75,16 +480,30 @@ def generate_dissolve_protocol(
            original_liquid_volume = current_volume[0]
        elif isinstance(current_volume, (int, float)):
            original_liquid_volume = current_volume
-
-    # === 参数解析 ===
+    debug_print(f"📊 溶解前液体体积: {original_liquid_volume:.2f}mL")
+    
+    # === 🔧 关键修复：参数解析 ===
+    debug_print("🔍 步骤2: 参数解析...")
+    action_sequence.append(create_action_log("正在解析溶解参数...", "🔍"))
+    
+    # 解析各种参数为数值
    final_volume = parse_volume_input(volume)
    final_mass = parse_mass_input(mass)
    final_temp = parse_temperature_input(temp)
    final_time = parse_time_input(time)
-
-    debug_print(f"参数解析: vol={final_volume}mL, mass={final_mass}g, temp={final_temp}°C, time={final_time}s")
-
+    
+    debug_print(f"📊 解析结果:")
+    debug_print(f"  📏 体积: {final_volume}mL")
+    debug_print(f"  ⚖️ 质量: {final_mass}g")
+    debug_print(f"  🌡️ 温度: {final_temp}°C")
+    debug_print(f"  ⏱️ 时间: {final_time}s")
+    debug_print(f"  🧪 试剂: '{reagent}'")
+    debug_print(f"  🧬 摩尔: '{mol}'")
+    debug_print(f"  🎯 事件: '{event}'")
+    
    # === 判断溶解类型 ===
+    debug_print("🔍 步骤3: 判断溶解类型...")
+    action_sequence.append(create_action_log("正在判断溶解类型...", "🔍"))
    
    # 判断是固体溶解还是液体溶解
    is_solid_dissolve = (final_mass > 0 or (mol and mol.strip() != "") or (reagent and reagent.strip() != ""))
@@ -96,31 +515,49 @@ def generate_dissolve_protocol(
        final_volume = 50.0
        if not solvent:
            solvent = "water"  # 默认溶剂
-        debug_print("未明确指定溶解参数，默认为50mL水溶解")
+        debug_print("⚠️ 未明确指定溶解参数，默认为50mL水溶解")
    
    dissolve_type = "固体溶解" if is_solid_dissolve else "液体溶解"
-    debug_print(f"溶解类型: {dissolve_type}")
-
-    action_sequence.append(create_action_log(f"溶解类型: {dissolve_type}", "📋"))
-
+    dissolve_emoji = "🧂" if is_solid_dissolve else "💧"
+    debug_print(f"📋 溶解类型: {dissolve_type} {dissolve_emoji}")
+    
+    action_sequence.append(create_action_log(f"确定溶解类型: {dissolve_type} {dissolve_emoji}", "📋"))
+    
    # === 查找设备 ===
+    debug_print("🔍 步骤4: 查找设备...")
+    action_sequence.append(create_action_log("正在查找相关设备...", "🔍"))
+    
+    # 查找加热搅拌器
    heatchill_id = find_connected_heatchill(G, vessel_id)
    stirrer_id = find_connected_stirrer(G, vessel_id)
    
    # 优先使用加热搅拌器，否则使用独立搅拌器
    stir_device_id = heatchill_id or stirrer_id
-    debug_print(f"设备: heatchill='{heatchill_id}', stirrer='{stirrer_id}'")
-
-    if not stir_device_id:
+    
+    debug_print(f"📊 设备映射:")
+    debug_print(f"  🔥 加热器: '{heatchill_id}'")
+    debug_print(f"  🌪️ 搅拌器: '{stirrer_id}'")
+    debug_print(f"  🎯 使用设备: '{stir_device_id}'")
+    
+    if heatchill_id:
+        action_sequence.append(create_action_log(f"找到加热搅拌器: {heatchill_id}", "🔥"))
+    elif stirrer_id:
+        action_sequence.append(create_action_log(f"找到搅拌器: {stirrer_id}", "🌪️"))
+    else:
        action_sequence.append(create_action_log("未找到搅拌设备，将跳过搅拌", "⚠️"))
    
    # === 执行溶解流程 ===
+    debug_print("🔍 步骤5: 执行溶解流程...")
+    
    try:
-        # 启动加热搅拌（如果需要）
+        # 步骤5.1: 启动加热搅拌（如果需要）
        if stir_device_id and (final_temp > 25.0 or final_time > 0 or stir_speed > 0):
-
+            debug_print(f"🔍 5.1: 启动加热搅拌，温度: {final_temp}°C")
+            action_sequence.append(create_action_log(f"准备加热搅拌 (目标温度: {final_temp}°C)", "🔥"))
+            
            if heatchill_id and (final_temp > 25.0 or final_time > 0):
                # 使用加热搅拌器
+                action_sequence.append(create_action_log(f"启动加热搅拌器 {heatchill_id}", "🔥"))
                
                heatchill_action = {
                    "device_id": heatchill_id,
@@ -136,6 +573,7 @@ def generate_dissolve_protocol(
                # 等待温度稳定
                if final_temp > 25.0:
                    wait_time = min(60, abs(final_temp - 25.0) * 1.5)
+                    action_sequence.append(create_action_log(f"等待温度稳定 ({wait_time:.0f}秒)", "⏳"))
                    action_sequence.append({
                        "action_name": "wait",
                        "action_kwargs": {"time": wait_time}
@@ -143,6 +581,7 @@ def generate_dissolve_protocol(
            
            elif stirrer_id:
                # 使用独立搅拌器
+                action_sequence.append(create_action_log(f"启动搅拌器 {stirrer_id} (速度: {stir_speed}rpm)", "🌪️"))
                
                stir_action = {
                    "device_id": stirrer_id,
@@ -154,8 +593,9 @@ def generate_dissolve_protocol(
                    }
                }
                action_sequence.append(stir_action)
-
+                
                # 等待搅拌稳定
+                action_sequence.append(create_action_log("等待搅拌稳定...", "⏳"))
                action_sequence.append({
                    "action_name": "wait",
                    "action_kwargs": {"time": 5}
@@ -163,8 +603,12 @@ def generate_dissolve_protocol(
        
        if is_solid_dissolve:
            # === 固体溶解路径 ===
+            debug_print(f"🔍 5.2: 使用固体溶解路径")
+            action_sequence.append(create_action_log("开始固体溶解流程", "🧂"))
+            
            solid_dispenser = find_solid_dispenser(G)
            if solid_dispenser:
+                action_sequence.append(create_action_log(f"找到固体加样器: {solid_dispenser}", "🥄"))
                
                # 固体加样
                add_kwargs = {
@@ -176,27 +620,42 @@ def generate_dissolve_protocol(
                
                if final_mass > 0:
                    add_kwargs["mass"] = str(final_mass)
+                    action_sequence.append(create_action_log(f"准备添加固体: {final_mass}g", "⚖️"))
                if mol and mol.strip():
                    add_kwargs["mol"] = mol
-
+                    action_sequence.append(create_action_log(f"按摩尔数添加: {mol}", "🧬"))
+                
+                action_sequence.append(create_action_log("开始固体加样操作", "🥄"))
                action_sequence.append({
                    "device_id": solid_dispenser,
                    "action_name": "add_solid",
                    "action_kwargs": add_kwargs
                })
-
-                # 固体溶解体积运算 - 固体本身不会显著增加体积
+                
+                debug_print(f"✅ 固体加样完成")
+                action_sequence.append(create_action_log("固体加样完成", "✅"))
+                
+                # 🔧 新增：固体溶解体积运算 - 固体本身不会显著增加体积，但可能有少量变化
+                debug_print(f"🔧 固体溶解 - 体积变化很小，主要是质量变化")
+                # 固体通常不会显著改变液体体积，这里只记录日志
+                action_sequence.append(create_action_log(f"固体已添加: {final_mass}g", "📊"))
                
            else:
-                debug_print("未找到固体加样器，跳过固体添加")
+                debug_print("⚠️ 未找到固体加样器，跳过固体添加")
                action_sequence.append(create_action_log("未找到固体加样器，无法添加固体", "❌"))
        
        elif is_liquid_dissolve:
            # === 液体溶解路径 ===
+            debug_print(f"🔍 5.3: 使用液体溶解路径")
+            action_sequence.append(create_action_log("开始液体溶解流程", "💧"))
+            
+            # 查找溶剂容器
+            action_sequence.append(create_action_log("正在查找溶剂容器...", "🔍"))
            try:
                solvent_vessel = find_solvent_vessel(G, solvent)
+                action_sequence.append(create_action_log(f"找到溶剂容器: {solvent_vessel}", "🧪"))
            except ValueError as e:
-                debug_print(f"溶剂容器查找失败: {str(e)}，跳过溶剂添加")
+                debug_print(f"⚠️ {str(e)}，跳过溶剂添加")
                action_sequence.append(create_action_log(f"溶剂容器查找失败: {str(e)}", "❌"))
                solvent_vessel = None
            
@@ -204,7 +663,10 @@ def generate_dissolve_protocol(
                # 计算流速 - 溶解时通常用较慢的速度，避免飞溅
                flowrate = 1.0  # 较慢的注入速度
                transfer_flowrate = 0.5  # 较慢的转移速度
-
+                
+                action_sequence.append(create_action_log(f"设置流速: {flowrate}mL/min (缓慢注入)", "⚡"))
+                action_sequence.append(create_action_log(f"开始转移 {final_volume}mL {solvent}", "🚰"))
+                
                # 调用pump protocol
                pump_actions = generate_pump_protocol_with_rinsing(
                    G=G,
@@ -226,9 +688,12 @@ def generate_dissolve_protocol(
                    **kwargs
                )
                action_sequence.extend(pump_actions)
-
-                # 液体溶解体积运算 - 添加溶剂后更新容器体积
-
+                debug_print(f"✅ 溶剂转移完成，添加了 {len(pump_actions)} 个动作")
+                action_sequence.append(create_action_log(f"溶剂转移完成 ({len(pump_actions)} 个操作)", "✅"))
+                
+                # 🔧 新增：液体溶解体积运算 - 添加溶剂后更新容器体积
+                debug_print(f"🔧 更新容器液体体积 - 添加溶剂 {final_volume:.2f}mL")
+                
                # 确保vessel有data字段
                if "data" not in vessel:
                    vessel["data"] = {}
@@ -238,14 +703,19 @@ def generate_dissolve_protocol(
                    if isinstance(current_volume, list):
                        if len(current_volume) > 0:
                            vessel["data"]["liquid_volume"][0] += final_volume
+                            debug_print(f"📊 添加溶剂后体积: {vessel['data']['liquid_volume'][0]:.2f}mL (+{final_volume:.2f}mL)")
                        else:
                            vessel["data"]["liquid_volume"] = [final_volume]
+                            debug_print(f"📊 初始化溶解体积: {final_volume:.2f}mL")
                    elif isinstance(current_volume, (int, float)):
                        vessel["data"]["liquid_volume"] += final_volume
+                        debug_print(f"📊 添加溶剂后体积: {vessel['data']['liquid_volume']:.2f}mL (+{final_volume:.2f}mL)")
                    else:
                        vessel["data"]["liquid_volume"] = final_volume
+                        debug_print(f"📊 重置体积为: {final_volume:.2f}mL")
                else:
                    vessel["data"]["liquid_volume"] = final_volume
+                    debug_print(f"📊 创建新体积记录: {final_volume:.2f}mL")
                
                # 🔧 同时更新图中的容器数据
                if vessel_id in G.nodes():
@@ -262,19 +732,27 @@ def generate_dissolve_protocol(
                            G.nodes[vessel_id]['data']['liquid_volume'] = [final_volume]
                    else:
                        G.nodes[vessel_id]['data']['liquid_volume'] = current_node_volume + final_volume
-
+                    
+                    debug_print(f"✅ 图节点体积数据已更新")
+                
+                action_sequence.append(create_action_log(f"容器体积已更新 (+{final_volume:.2f}mL)", "📊"))
+                
                # 溶剂添加后等待
+                action_sequence.append(create_action_log("溶剂添加后短暂等待...", "⏳"))
                action_sequence.append({
                    "action_name": "wait",
                    "action_kwargs": {"time": 5}
                })
        
-        # 等待溶解完成
+        # 步骤5.4: 等待溶解完成
        if final_time > 0:
+            debug_print(f"🔍 5.4: 等待溶解完成 - {final_time}s")
            wait_minutes = final_time / 60
-
+            action_sequence.append(create_action_log(f"开始溶解等待 ({wait_minutes:.1f}分钟)", "⏰"))
+            
            if heatchill_id:
                # 使用定时加热搅拌
+                action_sequence.append(create_action_log(f"使用加热搅拌器进行定时溶解", "🔥"))
                
                dissolve_action = {
                    "device_id": heatchill_id,
@@ -292,6 +770,7 @@ def generate_dissolve_protocol(
            
            elif stirrer_id:
                # 使用定时搅拌
+                action_sequence.append(create_action_log(f"使用搅拌器进行定时溶解", "🌪️"))
                
                stir_action = {
                    "device_id": stirrer_id,
@@ -308,6 +787,7 @@ def generate_dissolve_protocol(
            
            else:
                # 简单等待
+                action_sequence.append(create_action_log(f"简单等待溶解完成", "⏳"))
                action_sequence.append({
                    "action_name": "wait",
                    "action_kwargs": {"time": final_time}
@@ -315,7 +795,9 @@ def generate_dissolve_protocol(
        
        # 步骤5.5: 停止加热搅拌（如果需要）
        if heatchill_id and final_time == 0 and final_temp > 25.0:
-
+            debug_print(f"🔍 5.5: 停止加热器")
+            action_sequence.append(create_action_log("停止加热搅拌器", "🛑"))
+            
            stop_action = {
                "device_id": heatchill_id,
                "action_name": "heat_chill_stop",
@@ -326,7 +808,7 @@ def generate_dissolve_protocol(
            action_sequence.append(stop_action)
        
    except Exception as e:
-        debug_print(f"溶解流程执行失败: {str(e)}")
+        debug_print(f"❌ 溶解流程执行失败: {str(e)}")
        action_sequence.append(create_action_log(f"溶解流程失败: {str(e)}", "❌"))
        # 添加错误日志
        action_sequence.append({
@@ -347,8 +829,23 @@ def generate_dissolve_protocol(
            final_liquid_volume = current_volume
    
    # === 最终结果 ===
-    debug_print(f"溶解协议完成: {vessel_id}, 类型={dissolve_type}, "
-                f"动作数={len(action_sequence)}, 体积={original_liquid_volume:.2f}→{final_liquid_volume:.2f}mL")
+    debug_print("=" * 60)
+    debug_print(f"🎉 溶解协议生成完成")
+    debug_print(f"📊 协议统计:")
+    debug_print(f"  📋 总动作数: {len(action_sequence)}")
+    debug_print(f"  🥼 容器: {vessel_id}")
+    debug_print(f"  {dissolve_emoji} 溶解类型: {dissolve_type}")
+    if is_liquid_dissolve:
+        debug_print(f"  💧 溶剂: {solvent} ({final_volume}mL)")
+    if is_solid_dissolve:
+        debug_print(f"  🧪 试剂: {reagent}")
+        debug_print(f"  ⚖️ 质量: {final_mass}g")
+        debug_print(f"  🧬 摩尔: {mol}")
+    debug_print(f"  🌡️ 温度: {final_temp}°C")
+    debug_print(f"  ⏱️ 时间: {final_time}s")
+    debug_print(f"  📊 溶解前体积: {original_liquid_volume:.2f}mL")
+    debug_print(f"  📊 溶解后体积: {final_liquid_volume:.2f}mL")
+    debug_print("=" * 60)
    
    # 添加完成日志
    summary_msg = f"溶解协议完成: {vessel_id}"
@@ -357,7 +854,7 @@ def generate_dissolve_protocol(
    if is_solid_dissolve:
        summary_msg += f" (溶解 {final_mass}g {reagent})"
    
-    action_sequence.append(create_action_log(summary_msg, "✅"))
+    action_sequence.append(create_action_log(summary_msg, "🎉"))
    
    return action_sequence

@@ -369,7 +866,7 @@ def dissolve_solid_by_mass(G: nx.DiGraph, vessel: dict, reagent: str, mass: Unio
                          temp: Union[str, float] = 25.0, time: Union[str, float] = "10 min") -> List[Dict[str, Any]]:
    """按质量溶解固体"""
    vessel_id = vessel["id"]
-    debug_print(f"快速固体溶解: {reagent} ({mass}) → {vessel_id}")
+    debug_print(f"🧂 快速固体溶解: {reagent} ({mass}) → {vessel_id}")
    return generate_dissolve_protocol(
        G, vessel, 
        mass=mass, 
@@ -382,7 +879,7 @@ def dissolve_solid_by_moles(G: nx.DiGraph, vessel: dict, reagent: str, mol: str,
                           temp: Union[str, float] = 25.0, time: Union[str, float] = "10 min") -> List[Dict[str, Any]]:
    """按摩尔数溶解固体"""
    vessel_id = vessel["id"]
-    debug_print(f"按摩尔数溶解固体: {reagent} ({mol}) → {vessel_id}")
+    debug_print(f"🧬 按摩尔数溶解固体: {reagent} ({mol}) → {vessel_id}")
    return generate_dissolve_protocol(
        G, vessel, 
        mol=mol, 
@@ -395,7 +892,7 @@ def dissolve_with_solvent(G: nx.DiGraph, vessel: dict, solvent: str, volume: Uni
                         temp: Union[str, float] = 25.0, time: Union[str, float] = "5 min") -> List[Dict[str, Any]]:
    """用溶剂溶解"""
    vessel_id = vessel["id"]
-    debug_print(f"溶剂溶解: {solvent} ({volume}) → {vessel_id}")
+    debug_print(f"💧 溶剂溶解: {solvent} ({volume}) → {vessel_id}")
    return generate_dissolve_protocol(
        G, vessel, 
        solvent=solvent, 
@@ -407,7 +904,7 @@ def dissolve_with_solvent(G: nx.DiGraph, vessel: dict, solvent: str, volume: Uni
 def dissolve_at_room_temp(G: nx.DiGraph, vessel: dict, solvent: str, volume: Union[str, float]) -> List[Dict[str, Any]]:
    """室温溶解"""
    vessel_id = vessel["id"]
-    debug_print(f"室温溶解: {solvent} ({volume}) → {vessel_id}")
+    debug_print(f"🌡️ 室温溶解: {solvent} ({volume}) → {vessel_id}")
    return generate_dissolve_protocol(
        G, vessel, 
        solvent=solvent, 
@@ -420,7 +917,7 @@ def dissolve_with_heating(G: nx.DiGraph, vessel: dict, solvent: str, volume: Uni
                         temp: Union[str, float] = "60 °C", time: Union[str, float] = "15 min") -> List[Dict[str, Any]]:
    """加热溶解"""
    vessel_id = vessel["id"]
-    debug_print(f"加热溶解: {solvent} ({volume}) → {vessel_id} @ {temp}")
+    debug_print(f"🔥 加热溶解: {solvent} ({volume}) → {vessel_id} @ {temp}")
    return generate_dissolve_protocol(
        G, vessel, 
        solvent=solvent, 
@@ -432,31 +929,37 @@ def dissolve_with_heating(G: nx.DiGraph, vessel: dict, solvent: str, volume: Uni
 # 测试函数
 def test_dissolve_protocol():
    """测试溶解协议的各种参数解析"""
+    debug_print("=== DISSOLVE PROTOCOL 增强版测试 ===")
+    
    # 测试体积解析
+    debug_print("💧 测试体积解析...")
    volumes = ["10 mL", "?", 10.0, "1 L", "500 μL"]
    for vol in volumes:
        result = parse_volume_input(vol)
-        debug_print(f"体积解析: {vol} → {result}mL")
-
+        debug_print(f"📏 体积解析: {vol} → {result}mL")
+    
    # 测试质量解析
+    debug_print("⚖️ 测试质量解析...")
    masses = ["2.9 g", "?", 2.5, "500 mg"]
    for mass in masses:
        result = parse_mass_input(mass)
-        debug_print(f"质量解析: {mass} → {result}g")
-
+        debug_print(f"⚖️ 质量解析: {mass} → {result}g")
+    
    # 测试温度解析
+    debug_print("🌡️ 测试温度解析...")
    temps = ["60 °C", "room temperature", "?", 25.0, "reflux"]
    for temp in temps:
        result = parse_temperature_input(temp)
-        debug_print(f"温度解析: {temp} → {result}°C")
-
+        debug_print(f"🌡️ 温度解析: {temp} → {result}°C")
+    
    # 测试时间解析
+    debug_print("⏱️ 测试时间解析...")
    times = ["30 min", "1 h", "?", 60.0]
    for time in times:
        result = parse_time_input(time)
-        debug_print(f"时间解析: {time} → {result}s")
-
-    debug_print("测试完成")
+        debug_print(f"⏱️ 时间解析: {time} → {result}s")
+    
+    debug_print("✅ 测试完成")

 if __name__ == "__main__":
    test_dissolve_protocol()
--- a/unilabos/compile/dry_protocol.py
+++ b/unilabos/compile/dry_protocol.py
@@ -1,40 +1,87 @@
 import networkx as nx
 from typing import List, Dict, Any

-from .utils.vessel_parser import get_vessel, find_connected_heatchill
-from .utils.logger_util import debug_print
+from unilabos.compile.utils.vessel_parser import get_vessel
+
+
+def find_connected_heater(G: nx.DiGraph, vessel: str) -> str:
+    """
+    查找与容器相连的加热器
+    
+    Args:
+        G: 网络图
+        vessel: 容器名称
+    
+    Returns:
+        str: 加热器ID，如果没有则返回None
+    """
+    print(f"DRY: 正在查找与容器 '{vessel}' 相连的加热器...")
+    
+    # 查找所有加热器节点
+    heater_nodes = [node for node in G.nodes() 
+                   if ('heater' in node.lower() or 
+                       'heat' in node.lower() or
+                       G.nodes[node].get('class') == 'virtual_heatchill' or
+                       G.nodes[node].get('type') == 'heater')]
+    
+    print(f"DRY: 找到的加热器节点: {heater_nodes}")
+    
+    # 检查是否有加热器与目标容器相连
+    for heater in heater_nodes:
+        if G.has_edge(heater, vessel) or G.has_edge(vessel, heater):
+            print(f"DRY: 找到与容器 '{vessel}' 相连的加热器: {heater}")
+            return heater
+    
+    # 如果没有直接连接，查找距离最近的加热器
+    for heater in heater_nodes:
+        try:
+            path = nx.shortest_path(G, source=heater, target=vessel)
+            if len(path) <= 3:  # 最多2个中间节点
+                print(f"DRY: 找到距离较近的加热器: {heater}, 路径: {' → '.join(path)}")
+                return heater
+        except nx.NetworkXNoPath:
+            continue
+    
+    print(f"DRY: 未找到与容器 '{vessel}' 相连的加热器")
+    return None


 def generate_dry_protocol(
    G: nx.DiGraph,
-    vessel: dict,
-    compound: str = "",
-    **kwargs
+    vessel: dict,  # 🔧 修改：从字符串改为字典类型
+    compound: str = "",  # 🔧 修改：参数顺序调整，并设置默认值
+    **kwargs  # 接收其他可能的参数但不使用
 ) -> List[Dict[str, Any]]:
    """
    生成干燥协议序列
-
+    
    Args:
        G: 有向图，节点为容器和设备
        vessel: 目标容器字典（从XDL传入）
        compound: 化合物名称（从XDL传入，可选）
        **kwargs: 其他可选参数，但不使用
-
+    
    Returns:
        List[Dict[str, Any]]: 动作序列
    """
+    # 🔧 核心修改：从字典中提取容器ID
    vessel_id, vessel_data = get_vessel(vessel)
-
+    
    action_sequence = []
-
+    
    # 默认参数
-    dry_temp = 60.0
-    dry_time = 3600.0
-    simulation_time = 60.0
-
-    debug_print(f"开始生成干燥协议: vessel={vessel_id}, compound={compound or '未指定'}, temp={dry_temp}°C")
-
-    # 记录干燥前的容器状态
+    dry_temp = 60.0  # 默认干燥温度 60°C
+    dry_time = 3600.0  # 默认干燥时间 1小时（3600秒）
+    simulation_time = 60.0  # 模拟时间 1分钟
+    
+    print(f"🌡️ DRY: 开始生成干燥协议 ✨")
+    print(f"  🥽 vessel: {vessel} (ID: {vessel_id})")
+    print(f"  🧪 化合物: {compound or '未指定'}")
+    print(f"  🔥 干燥温度: {dry_temp}°C")
+    print(f"  ⏰ 干燥时间: {dry_time/60:.0f} 分钟")
+    
+    # 🔧 新增：记录干燥前的容器状态
+    print(f"🔍 记录干燥前容器状态...")
    original_liquid_volume = 0.0
    if "data" in vessel and "liquid_volume" in vessel["data"]:
        current_volume = vessel["data"]["liquid_volume"]
@@ -42,30 +89,39 @@ def generate_dry_protocol(
            original_liquid_volume = current_volume[0]
        elif isinstance(current_volume, (int, float)):
            original_liquid_volume = current_volume
-
+    print(f"📊 干燥前液体体积: {original_liquid_volume:.2f}mL")
+    
    # 1. 验证目标容器存在
+    print(f"\n📋 步骤1: 验证目标容器 '{vessel_id}' 是否存在...")
    if vessel_id not in G.nodes():
-        debug_print(f"容器 '{vessel_id}' 不存在于系统中，跳过干燥")
+        print(f"⚠️ DRY: 警告 - 容器 '{vessel_id}' 不存在于系统中，跳过干燥 😢")
        return action_sequence
-
+    print(f"✅ 容器 '{vessel_id}' 验证通过!")
+    
    # 2. 查找相连的加热器
-    heater_id = find_connected_heatchill(G, vessel_id)
-
+    print(f"\n🔍 步骤2: 查找与容器相连的加热器...")
+    heater_id = find_connected_heater(G, vessel_id)  # 🔧 使用 vessel_id
+    
    if heater_id is None:
-        debug_print(f"未找到与容器 '{vessel_id}' 相连的加热器，添加模拟干燥动作")
+        print(f"😭 DRY: 警告 - 未找到与容器 '{vessel_id}' 相连的加热器，跳过干燥")
+        print(f"🎭 添加模拟干燥动作...")
+        # 添加一个等待动作，表示干燥过程（模拟）
        action_sequence.append({
            "action_name": "wait",
            "action_kwargs": {
-                "time": 10.0,
+                "time": 10.0,  # 模拟等待时间
                "description": f"模拟干燥 {compound or '化合物'} (无加热器可用)"
            }
        })
-
-        # 模拟干燥的体积变化
+        
+        # 🔧 新增：模拟干燥的体积变化（溶剂蒸发）
+        print(f"🔧 模拟干燥过程的体积减少...")
        if original_liquid_volume > 0:
+            # 假设干燥过程中损失10%的体积（溶剂蒸发）
            volume_loss = original_liquid_volume * 0.1
            new_volume = max(0.0, original_liquid_volume - volume_loss)
-
+            
+            # 更新vessel字典中的体积
            if "data" in vessel and "liquid_volume" in vessel["data"]:
                current_volume = vessel["data"]["liquid_volume"]
                if isinstance(current_volume, list):
@@ -77,14 +133,15 @@ def generate_dry_protocol(
                    vessel["data"]["liquid_volume"] = new_volume
                else:
                    vessel["data"]["liquid_volume"] = new_volume
-
+            
+            # 🔧 同时更新图中的容器数据
            if vessel_id in G.nodes():
                if 'data' not in G.nodes[vessel_id]:
                    G.nodes[vessel_id]['data'] = {}
-
+                
                vessel_node_data = G.nodes[vessel_id]['data']
                current_node_volume = vessel_node_data.get('liquid_volume', 0.0)
-
+                
                if isinstance(current_node_volume, list):
                    if len(current_node_volume) > 0:
                        G.nodes[vessel_id]['data']['liquid_volume'][0] = new_volume
@@ -92,27 +149,33 @@ def generate_dry_protocol(
                        G.nodes[vessel_id]['data']['liquid_volume'] = [new_volume]
                else:
                    G.nodes[vessel_id]['data']['liquid_volume'] = new_volume
-
-            debug_print(f"模拟干燥体积变化: {original_liquid_volume:.2f}mL -> {new_volume:.2f}mL")
-
-        debug_print(f"协议生成完成，共 {len(action_sequence)} 个动作")
+            
+            print(f"📊 模拟干燥体积变化: {original_liquid_volume:.2f}mL → {new_volume:.2f}mL (-{volume_loss:.2f}mL)")
+        
+        print(f"📄 DRY: 协议生成完成，共 {len(action_sequence)} 个动作 🎯")
        return action_sequence
-
-    debug_print(f"找到加热器: {heater_id}")
-
+    
+    print(f"🎉 找到加热器: {heater_id}!")
+    
    # 3. 启动加热器进行干燥
+    print(f"\n🚀 步骤3: 开始执行干燥流程...")
+    print(f"🔥 启动加热器 {heater_id} 进行干燥")
+    
    # 3.1 启动加热
+    print(f"  ⚡ 动作1: 启动加热到 {dry_temp}°C...")
    action_sequence.append({
        "device_id": heater_id,
        "action_name": "heat_chill_start",
        "action_kwargs": {
-            "vessel": {"id": vessel_id},
+            "vessel": {"id": vessel_id},  # 🔧 使用 vessel_id
            "temp": dry_temp,
            "purpose": f"干燥 {compound or '化合物'}"
        }
    })
-
+    print(f"  ✅ 加热器启动命令已添加 🔥")
+    
    # 3.2 等待温度稳定
+    print(f"  ⏳ 动作2: 等待温度稳定...")
    action_sequence.append({
        "action_name": "wait",
        "action_kwargs": {
@@ -120,27 +183,34 @@ def generate_dry_protocol(
            "description": f"等待温度稳定到 {dry_temp}°C"
        }
    })
-
+    print(f"  ✅ 温度稳定等待命令已添加 🌡️")
+    
    # 3.3 保持干燥温度
+    print(f"  🔄 动作3: 保持干燥温度 {simulation_time/60:.0f} 分钟...")
    action_sequence.append({
        "device_id": heater_id,
        "action_name": "heat_chill",
        "action_kwargs": {
-            "vessel": {"id": vessel_id},
+            "vessel": {"id": vessel_id},  # 🔧 使用 vessel_id
            "temp": dry_temp,
            "time": simulation_time,
            "purpose": f"干燥 {compound or '化合物'}，保持温度 {dry_temp}°C"
        }
    })
-
-    # 干燥过程中的体积变化计算
+    print(f"  ✅ 温度保持命令已添加 🌡️⏰")
+    
+    # 🔧 新增：干燥过程中的体积变化计算
+    print(f"🔧 计算干燥过程中的体积变化...")
    if original_liquid_volume > 0:
-        evaporation_rate = 0.001 * dry_temp
-        total_evaporation = min(original_liquid_volume * 0.8,
-                               evaporation_rate * simulation_time)
-
+        # 干燥过程中，溶剂会蒸发，固体保留
+        # 根据温度和时间估算蒸发量
+        evaporation_rate = 0.001 * dry_temp  # 每秒每°C蒸发0.001mL
+        total_evaporation = min(original_liquid_volume * 0.8, 
+                               evaporation_rate * simulation_time)  # 最多蒸发80%
+        
        new_volume = max(0.0, original_liquid_volume - total_evaporation)
-
+        
+        # 更新vessel字典中的体积
        if "data" in vessel and "liquid_volume" in vessel["data"]:
            current_volume = vessel["data"]["liquid_volume"]
            if isinstance(current_volume, list):
@@ -152,14 +222,15 @@ def generate_dry_protocol(
                vessel["data"]["liquid_volume"] = new_volume
            else:
                vessel["data"]["liquid_volume"] = new_volume
-
+        
+        # 🔧 同时更新图中的容器数据
        if vessel_id in G.nodes():
            if 'data' not in G.nodes[vessel_id]:
                G.nodes[vessel_id]['data'] = {}
-
+            
            vessel_node_data = G.nodes[vessel_id]['data']
            current_node_volume = vessel_node_data.get('liquid_volume', 0.0)
-
+            
            if isinstance(current_node_volume, list):
                if len(current_node_volume) > 0:
                    G.nodes[vessel_id]['data']['liquid_volume'][0] = new_volume
@@ -167,29 +238,37 @@ def generate_dry_protocol(
                    G.nodes[vessel_id]['data']['liquid_volume'] = [new_volume]
            else:
                G.nodes[vessel_id]['data']['liquid_volume'] = new_volume
-
-        debug_print(f"干燥体积变化: {original_liquid_volume:.2f}mL -> {new_volume:.2f}mL (-{total_evaporation:.2f}mL)")
-
+        
+        print(f"📊 干燥体积变化计算:")
+        print(f"  - 初始体积: {original_liquid_volume:.2f}mL")
+        print(f"  - 蒸发量: {total_evaporation:.2f}mL")
+        print(f"  - 剩余体积: {new_volume:.2f}mL")
+        print(f"  - 蒸发率: {(total_evaporation/original_liquid_volume*100):.1f}%")
+    
    # 3.4 停止加热
+    print(f"  ⏹️ 动作4: 停止加热...")
    action_sequence.append({
        "device_id": heater_id,
        "action_name": "heat_chill_stop",
        "action_kwargs": {
-            "vessel": {"id": vessel_id},
+            "vessel": {"id": vessel_id},  # 🔧 使用 vessel_id
            "purpose": f"干燥完成，停止加热"
        }
    })
-
+    print(f"  ✅ 停止加热命令已添加 🛑")
+    
    # 3.5 等待冷却
+    print(f"  ❄️ 动作5: 等待冷却...")
    action_sequence.append({
        "action_name": "wait",
        "action_kwargs": {
-            "time": 10.0,
+            "time": 10.0,  # 等待10秒冷却
            "description": f"等待 {compound or '化合物'} 冷却"
        }
    })
-
-    # 最终状态
+    print(f"  ✅ 冷却等待命令已添加 🧊")
+    
+    # 🔧 新增：干燥完成后的状态报告
    final_liquid_volume = 0.0
    if "data" in vessel and "liquid_volume" in vessel["data"]:
        current_volume = vessel["data"]["liquid_volume"]
@@ -197,37 +276,60 @@ def generate_dry_protocol(
            final_liquid_volume = current_volume[0]
        elif isinstance(current_volume, (int, float)):
            final_liquid_volume = current_volume
-
-    debug_print(f"干燥协议生成完成: {len(action_sequence)} 个动作, 体积 {original_liquid_volume:.2f} -> {final_liquid_volume:.2f}mL")
-
+    
+    print(f"\n🎊 DRY: 协议生成完成，共 {len(action_sequence)} 个动作 🎯")
+    print(f"⏱️ DRY: 预计总时间: {(simulation_time + 30)/60:.0f} 分钟 ⌛")
+    print(f"📊 干燥结果:")
+    print(f"  - 容器: {vessel_id}")
+    print(f"  - 化合物: {compound or '未指定'}")
+    print(f"  - 干燥前体积: {original_liquid_volume:.2f}mL")
+    print(f"  - 干燥后体积: {final_liquid_volume:.2f}mL")
+    print(f"  - 蒸发体积: {(original_liquid_volume - final_liquid_volume):.2f}mL")
+    print(f"🏁 所有动作序列准备就绪! ✨")
+    
    return action_sequence


-# 便捷函数
-def generate_quick_dry_protocol(G: nx.DiGraph, vessel: dict, compound: str = "",
+# 🔧 新增：便捷函数
+def generate_quick_dry_protocol(G: nx.DiGraph, vessel: dict, compound: str = "", 
                               temp: float = 40.0, time: float = 30.0) -> List[Dict[str, Any]]:
    """快速干燥：低温短时间"""
+    vessel_id = vessel["id"]
+    print(f"🌡️ 快速干燥: {compound or '化合物'} → {vessel_id} @ {temp}°C ({time}min)")
+    
+    # 临时修改默认参数
+    import types
+    temp_func = types.FunctionType(
+        generate_dry_protocol.__code__, 
+        generate_dry_protocol.__globals__
+    )
+    
+    # 直接调用原函数，但修改内部参数
    return generate_dry_protocol(G, vessel, compound)


-def generate_thorough_dry_protocol(G: nx.DiGraph, vessel: dict, compound: str = "",
+def generate_thorough_dry_protocol(G: nx.DiGraph, vessel: dict, compound: str = "", 
                                  temp: float = 80.0, time: float = 120.0) -> List[Dict[str, Any]]:
    """深度干燥：高温长时间"""
+    vessel_id = vessel["id"]
+    print(f"🔥 深度干燥: {compound or '化合物'} → {vessel_id} @ {temp}°C ({time}min)")
    return generate_dry_protocol(G, vessel, compound)


-def generate_gentle_dry_protocol(G: nx.DiGraph, vessel: dict, compound: str = "",
+def generate_gentle_dry_protocol(G: nx.DiGraph, vessel: dict, compound: str = "", 
                                temp: float = 30.0, time: float = 180.0) -> List[Dict[str, Any]]:
    """温和干燥：低温长时间"""
+    vessel_id = vessel["id"]
+    print(f"🌡️ 温和干燥: {compound or '化合物'} → {vessel_id} @ {temp}°C ({time}min)")
    return generate_dry_protocol(G, vessel, compound)


 # 测试函数
 def test_dry_protocol():
    """测试干燥协议"""
-    debug_print("=== DRY PROTOCOL 测试 ===")
-    debug_print("测试完成")
+    print("=== DRY PROTOCOL 测试 ===")
+    print("测试完成")


 if __name__ == "__main__":
-    test_dry_protocol()
+    test_dry_protocol()
--- a/unilabos/compile/evacuateandrefill_protocol.py
+++ b/unilabos/compile/evacuateandrefill_protocol.py
@@ -3,14 +3,38 @@ from functools import partial
 import networkx as nx
 import logging
 import uuid
+import sys
 from typing import List, Dict, Any, Optional
-from .utils.vessel_parser import get_vessel, find_connected_stirrer
-from .utils.logger_util import debug_print, action_log
+from .utils.vessel_parser import get_vessel
+from .utils.logger_util import action_log
 from .pump_protocol import generate_pump_protocol_with_rinsing, generate_pump_protocol

 # 设置日志
 logger = logging.getLogger(__name__)

+# 确保输出编码为UTF-8
+if hasattr(sys.stdout, 'reconfigure'):
+    try:
+        sys.stdout.reconfigure(encoding='utf-8')
+        sys.stderr.reconfigure(encoding='utf-8')
+    except:
+        pass
+
+def debug_print(message):
+    """调试输出函数 - 支持中文"""
+    try:
+        # 确保消息是字符串格式
+        safe_message = str(message)
+        logger.info(f"[抽真空充气] {safe_message}")
+    except UnicodeEncodeError:
+        # 如果编码失败，尝试替换不支持的字符
+        safe_message = str(message).encode('utf-8', errors='replace').decode('utf-8')
+        logger.info(f"[抽真空充气] {safe_message}")
+    except Exception as e:
+        # 最后的安全措施
+        fallback_message = f"日志输出错误: {repr(message)}"
+        logger.info(f"[抽真空充气] {fallback_message}")
+
 create_action_log = partial(action_log, prefix="[抽真空充气]")

 def find_gas_source(G: nx.DiGraph, gas: str) -> str:
@@ -20,9 +44,10 @@ def find_gas_source(G: nx.DiGraph, gas: str) -> str:
    2. 气体类型匹配（data.gas_type）
    3. 默认气源
    """
-    debug_print(f"正在查找气体 '{gas}' 的气源...")
-
-    # 通过容器名称匹配
+    debug_print(f"🔍 正在查找气体 '{gas}' 的气源...")
+    
+    # 第一步：通过容器名称匹配
+    debug_print(f"📋 方法1: 容器名称匹配...")
    gas_source_patterns = [
        f"gas_source_{gas}",
        f"gas_{gas}",
@@ -32,178 +57,254 @@ def find_gas_source(G: nx.DiGraph, gas: str) -> str:
        f"reagent_bottle_{gas}",
        f"bottle_{gas}"
    ]
-
+    
+    debug_print(f"🎯 尝试的容器名称: {gas_source_patterns}")
+    
    for pattern in gas_source_patterns:
        if pattern in G.nodes():
-            debug_print(f"通过名称找到气源: {pattern}")
+            debug_print(f"✅ 通过名称找到气源: {pattern}")
            return pattern
-
-    # 通过气体类型匹配 (data.gas_type)
+    
+    # 第二步：通过气体类型匹配 (data.gas_type)
+    debug_print(f"📋 方法2: 气体类型匹配...")
    for node_id in G.nodes():
        node_data = G.nodes[node_id]
        node_class = node_data.get('class', '') or ''
-
-        if ('gas_source' in node_class or
-            'gas' in node_id.lower() or
+        
+        # 检查是否是气源设备
+        if ('gas_source' in node_class or 
+            'gas' in node_id.lower() or 
            node_id.startswith('flask_')):
-
+            
+            # 检查 data.gas_type
            data = node_data.get('data', {})
            gas_type = data.get('gas_type', '')
-
+            
            if gas_type.lower() == gas.lower():
-                debug_print(f"通过气体类型找到气源: {node_id} (气体类型: {gas_type})")
+                debug_print(f"✅ 通过气体类型找到气源: {node_id} (气体类型: {gas_type})")
                return node_id
-
+            
+            # 检查 config.gas_type  
            config = node_data.get('config', {})
            config_gas_type = config.get('gas_type', '')
-
+            
            if config_gas_type.lower() == gas.lower():
-                debug_print(f"通过配置气体类型找到气源: {node_id} (配置气体类型: {config_gas_type})")
+                debug_print(f"✅ 通过配置气体类型找到气源: {node_id} (配置气体类型: {config_gas_type})")
                return node_id
-
-    # 查找所有可用的气源设备
+    
+    # 第三步：查找所有可用的气源设备
+    debug_print(f"📋 方法3: 查找可用气源...")
    available_gas_sources = []
    for node_id in G.nodes():
        node_data = G.nodes[node_id]
        node_class = node_data.get('class', '') or ''
-
-        if ('gas_source' in node_class or
+        
+        if ('gas_source' in node_class or 
            'gas' in node_id.lower() or
            (node_id.startswith('flask_') and any(g in node_id.lower() for g in ['air', 'nitrogen', 'argon']))):
-
+            
            data = node_data.get('data', {})
            gas_type = data.get('gas_type', '未知')
            available_gas_sources.append(f"{node_id} (气体类型: {gas_type})")
-
-    # 如果找不到特定气体，使用默认的第一个气源
+    
+    debug_print(f"📊 可用气源: {available_gas_sources}")
+    
+    # 第四步：如果找不到特定气体，使用默认的第一个气源
+    debug_print(f"📋 方法4: 查找默认气源...")
    default_gas_sources = [
-        node for node in G.nodes()
+        node for node in G.nodes() 
        if ((G.nodes[node].get('class') or '').find('virtual_gas_source') != -1
            or 'gas_source' in node)
    ]
-
+    
    if default_gas_sources:
        default_source = default_gas_sources[0]
-        debug_print(f"未找到特定气体 '{gas}'，使用默认气源: {default_source}")
+        debug_print(f"⚠️ 未找到特定气体 '{gas}'，使用默认气源: {default_source}")
        return default_source
-
+    
+    debug_print(f"❌ 所有方法都失败了！")
    raise ValueError(f"无法找到气体 '{gas}' 的气源。可用气源: {available_gas_sources}")

 def find_vacuum_pump(G: nx.DiGraph) -> str:
    """查找真空泵设备"""
+    debug_print("🔍 正在查找真空泵...")
+    
    vacuum_pumps = []
    for node in G.nodes():
        node_data = G.nodes[node]
        node_class = node_data.get('class', '') or ''
-
-        if ('virtual_vacuum_pump' in node_class or
-            'vacuum_pump' in node.lower() or
+        
+        if ('virtual_vacuum_pump' in node_class or 
+            'vacuum_pump' in node.lower() or 
            'vacuum' in node_class.lower()):
            vacuum_pumps.append(node)
-
+            debug_print(f"📋 发现真空泵: {node}")
+    
    if not vacuum_pumps:
+        debug_print(f"❌ 系统中未找到真空泵")
        raise ValueError("系统中未找到真空泵")
-
-    debug_print(f"使用真空泵: {vacuum_pumps[0]}")
+    
+    debug_print(f"✅ 使用真空泵: {vacuum_pumps[0]}")
    return vacuum_pumps[0]

+def find_connected_stirrer(G: nx.DiGraph, vessel: str) -> Optional[str]:
+    """查找与指定容器相连的搅拌器"""
+    debug_print(f"🔍 正在查找与容器 {vessel} 连接的搅拌器...")
+    
+    stirrer_nodes = []
+    for node in G.nodes():
+        node_data = G.nodes[node]
+        node_class = node_data.get('class', '') or ''
+        
+        if 'virtual_stirrer' in node_class or 'stirrer' in node.lower():
+            stirrer_nodes.append(node)
+            debug_print(f"📋 发现搅拌器: {node}")
+    
+    debug_print(f"📊 找到的搅拌器总数: {len(stirrer_nodes)}")
+    
+    # 检查哪个搅拌器与目标容器相连
+    for stirrer in stirrer_nodes:
+        if G.has_edge(stirrer, vessel) or G.has_edge(vessel, stirrer):
+            debug_print(f"✅ 找到连接的搅拌器: {stirrer}")
+            return stirrer
+    
+    # 如果没有连接的搅拌器，返回第一个可用的
+    if stirrer_nodes:
+        debug_print(f"⚠️ 未找到直接连接的搅拌器，使用第一个可用的: {stirrer_nodes[0]}")
+        return stirrer_nodes[0]
+    
+    debug_print("❌ 未找到搅拌器")
+    return None
+
 def find_vacuum_solenoid_valve(G: nx.DiGraph, vacuum_pump: str) -> Optional[str]:
    """查找真空泵相关的电磁阀"""
+    debug_print(f"🔍 正在查找真空泵 {vacuum_pump} 的电磁阀...")
+    
+    # 查找所有电磁阀
    solenoid_valves = []
    for node in G.nodes():
        node_data = G.nodes[node]
        node_class = node_data.get('class', '') or ''
-
+        
        if ('solenoid' in node_class.lower() or 'solenoid_valve' in node.lower()):
            solenoid_valves.append(node)
-
+            debug_print(f"📋 发现电磁阀: {node}")
+    
+    debug_print(f"📊 找到的电磁阀: {solenoid_valves}")
+    
    # 检查连接关系
+    debug_print(f"📋 方法1: 检查连接关系...")
    for solenoid in solenoid_valves:
        if G.has_edge(solenoid, vacuum_pump) or G.has_edge(vacuum_pump, solenoid):
-            debug_print(f"找到连接的真空电磁阀: {solenoid}")
+            debug_print(f"✅ 找到连接的真空电磁阀: {solenoid}")
            return solenoid
-
+    
    # 通过命名规则查找
+    debug_print(f"📋 方法2: 检查命名规则...")
    for solenoid in solenoid_valves:
        if 'vacuum' in solenoid.lower() or solenoid == 'solenoid_valve_1':
-            debug_print(f"通过命名找到真空电磁阀: {solenoid}")
+            debug_print(f"✅ 通过命名找到真空电磁阀: {solenoid}")
            return solenoid
-
-    debug_print("未找到真空电磁阀")
+    
+    debug_print("⚠️ 未找到真空电磁阀")
    return None

 def find_gas_solenoid_valve(G: nx.DiGraph, gas_source: str) -> Optional[str]:
    """查找气源相关的电磁阀"""
+    debug_print(f"🔍 正在查找气源 {gas_source} 的电磁阀...")
+    
+    # 查找所有电磁阀
    solenoid_valves = []
    for node in G.nodes():
        node_data = G.nodes[node]
        node_class = node_data.get('class', '') or ''
-
+        
        if ('solenoid' in node_class.lower() or 'solenoid_valve' in node.lower()):
            solenoid_valves.append(node)
-
+    
+    debug_print(f"📊 找到的电磁阀: {solenoid_valves}")
+    
    # 检查连接关系
+    debug_print(f"📋 方法1: 检查连接关系...")
    for solenoid in solenoid_valves:
        if G.has_edge(gas_source, solenoid) or G.has_edge(solenoid, gas_source):
-            debug_print(f"找到连接的气源电磁阀: {solenoid}")
+            debug_print(f"✅ 找到连接的气源电磁阀: {solenoid}")
            return solenoid
-
+    
    # 通过命名规则查找
+    debug_print(f"📋 方法2: 检查命名规则...")
    for solenoid in solenoid_valves:
        if 'gas' in solenoid.lower() or solenoid == 'solenoid_valve_2':
-            debug_print(f"通过命名找到气源电磁阀: {solenoid}")
+            debug_print(f"✅ 通过命名找到气源电磁阀: {solenoid}")
            return solenoid
-
-    debug_print("未找到气源电磁阀")
+    
+    debug_print("⚠️ 未找到气源电磁阀")
    return None

 def generate_evacuateandrefill_protocol(
    G: nx.DiGraph,
-    vessel: dict,
+    vessel: dict,  # 🔧 修改：从字符串改为字典类型
    gas: str,
    **kwargs
 ) -> List[Dict[str, Any]]:
    """
-    生成抽真空和充气操作的动作序列
-
+    生成抽真空和充气操作的动作序列 - 中文版
+    
    Args:
        G: 设备图
        vessel: 目标容器字典（必需）
-        gas: 气体名称（必需）
+        gas: 气体名称（必需）  
        **kwargs: 其他参数（兼容性）
-
+    
    Returns:
        List[Dict[str, Any]]: 动作序列
    """
-
+    
+    # 🔧 核心修改：从字典中提取容器ID
    vessel_id, vessel_data = get_vessel(vessel)
-
+    
    # 硬编码重复次数为 3
    repeats = 3
-
+    
+    # 生成协议ID
    protocol_id = str(uuid.uuid4())
-
-    debug_print(f"开始生成抽真空充气协议: vessel={vessel_id}, gas={gas}, repeats={repeats}")
-
+    debug_print(f"🆔 生成协议ID: {protocol_id}")
+    
+    debug_print("=" * 60)
+    debug_print("🧪 开始生成抽真空充气协议")
+    debug_print(f"📋 原始参数:")
+    debug_print(f"  🥼 vessel: {vessel} (ID: {vessel_id})")
+    debug_print(f"  💨 气体: '{gas}'")
+    debug_print(f"  🔄 循环次数: {repeats} (硬编码)")
+    debug_print(f"  📦 其他参数: {kwargs}")
+    debug_print("=" * 60)
+    
    action_sequence = []
-
+    
    # === 参数验证和修正 ===
+    debug_print("🔍 步骤1: 参数验证和修正...")
    action_sequence.append(create_action_log(f"开始抽真空充气操作 - 容器: {vessel_id}", "🎬"))
    action_sequence.append(create_action_log(f"目标气体: {gas}", "💨"))
    action_sequence.append(create_action_log(f"循环次数: {repeats}", "🔄"))
-
+    
+    # 验证必需参数
    if not vessel_id:
+        debug_print("❌ 容器参数不能为空")
        raise ValueError("容器参数不能为空")
-
+    
    if not gas:
+        debug_print("❌ 气体参数不能为空")
        raise ValueError("气体参数不能为空")
-
-    if vessel_id not in G.nodes():
+    
+    if vessel_id not in G.nodes():  # 🔧 使用 vessel_id
+        debug_print(f"❌ 容器 '{vessel_id}' 在系统中不存在")
        raise ValueError(f"容器 '{vessel_id}' 在系统中不存在")
-
+    
+    debug_print("✅ 基本参数验证通过")
    action_sequence.append(create_action_log("参数验证通过", "✅"))
-
+    
    # 标准化气体名称
+    debug_print("🔧 标准化气体名称...")
    gas_aliases = {
        'n2': 'nitrogen',
        'ar': 'argon',
@@ -218,54 +319,61 @@ def generate_evacuateandrefill_protocol(
        '二氧化碳': 'carbon_dioxide',
        '氢气': 'hydrogen'
    }
-
+    
    original_gas = gas
    gas_lower = gas.lower().strip()
    if gas_lower in gas_aliases:
        gas = gas_aliases[gas_lower]
-        debug_print(f"标准化气体名称: {original_gas} -> {gas}")
+        debug_print(f"🔄 标准化气体名称: {original_gas} -> {gas}")
        action_sequence.append(create_action_log(f"气体名称标准化: {original_gas} -> {gas}", "🔄"))
-
-    debug_print(f"最终参数: 容器={vessel_id}, 气体={gas}, 重复={repeats}")
-
+    
+    debug_print(f"📋 最终参数: 容器={vessel_id}, 气体={gas}, 重复={repeats}")
+    
    # === 查找设备 ===
+    debug_print("🔍 步骤2: 查找设备...")
    action_sequence.append(create_action_log("正在查找相关设备...", "🔍"))
-
+    
    try:
        vacuum_pump = find_vacuum_pump(G)
        action_sequence.append(create_action_log(f"找到真空泵: {vacuum_pump}", "🌪️"))
-
+        
        gas_source = find_gas_source(G, gas)
        action_sequence.append(create_action_log(f"找到气源: {gas_source}", "💨"))
-
+        
        vacuum_solenoid = find_vacuum_solenoid_valve(G, vacuum_pump)
        if vacuum_solenoid:
            action_sequence.append(create_action_log(f"找到真空电磁阀: {vacuum_solenoid}", "🚪"))
        else:
            action_sequence.append(create_action_log("未找到真空电磁阀", "⚠️"))
-
+        
        gas_solenoid = find_gas_solenoid_valve(G, gas_source)
        if gas_solenoid:
            action_sequence.append(create_action_log(f"找到气源电磁阀: {gas_solenoid}", "🚪"))
        else:
            action_sequence.append(create_action_log("未找到气源电磁阀", "⚠️"))
-
-        stirrer_id = find_connected_stirrer(G, vessel_id)
+        
+        stirrer_id = find_connected_stirrer(G, vessel_id)  # 🔧 使用 vessel_id
        if stirrer_id:
            action_sequence.append(create_action_log(f"找到搅拌器: {stirrer_id}", "🌪️"))
        else:
            action_sequence.append(create_action_log("未找到搅拌器", "⚠️"))
-
-        debug_print(f"设备配置: 真空泵={vacuum_pump}, 气源={gas_source}, 搅拌器={stirrer_id}")
-
+        
+        debug_print(f"📊 设备配置:")
+        debug_print(f"  🌪️ 真空泵: {vacuum_pump}")
+        debug_print(f"  💨 气源: {gas_source}")
+        debug_print(f"  🚪 真空电磁阀: {vacuum_solenoid}")
+        debug_print(f"  🚪 气源电磁阀: {gas_solenoid}")
+        debug_print(f"  🌪️ 搅拌器: {stirrer_id}")
+        
    except Exception as e:
-        debug_print(f"设备查找失败: {str(e)}")
+        debug_print(f"❌ 设备查找失败: {str(e)}")
        action_sequence.append(create_action_log(f"设备查找失败: {str(e)}", "❌"))
        raise ValueError(f"设备查找失败: {str(e)}")
-
+    
    # === 参数设置 ===
+    debug_print("🔍 步骤3: 参数设置...")
    action_sequence.append(create_action_log("设置操作参数...", "⚙️"))
-
+    
    # 根据气体类型调整参数
    if gas.lower() in ['nitrogen', 'argon']:
        VACUUM_VOLUME = 25.0
@@ -273,6 +381,7 @@ def generate_evacuateandrefill_protocol(
        PUMP_FLOW_RATE = 2.0
        VACUUM_TIME = 30.0
        REFILL_TIME = 20.0
+        debug_print("💨 惰性气体: 使用标准参数")
        action_sequence.append(create_action_log("检测到惰性气体，使用标准参数", "💨"))
    elif gas.lower() in ['air', 'oxygen']:
        VACUUM_VOLUME = 20.0
@@ -280,6 +389,7 @@ def generate_evacuateandrefill_protocol(
        PUMP_FLOW_RATE = 1.5
        VACUUM_TIME = 45.0
        REFILL_TIME = 25.0
+        debug_print("🔥 活性气体: 使用保守参数")
        action_sequence.append(create_action_log("检测到活性气体，使用保守参数", "🔥"))
    else:
        VACUUM_VOLUME = 15.0
@@ -287,88 +397,116 @@ def generate_evacuateandrefill_protocol(
        PUMP_FLOW_RATE = 1.0
        VACUUM_TIME = 60.0
        REFILL_TIME = 30.0
+        debug_print("❓ 未知气体: 使用安全参数")
        action_sequence.append(create_action_log("未知气体类型，使用安全参数", "❓"))
-
+    
    STIR_SPEED = 200.0
-
+    
+    debug_print(f"⚙️ 操作参数:")
+    debug_print(f"  📏 真空体积: {VACUUM_VOLUME}mL")
+    debug_print(f"  📏 充气体积: {REFILL_VOLUME}mL")
+    debug_print(f"  ⚡ 泵流速: {PUMP_FLOW_RATE}mL/s")
+    debug_print(f"  ⏱️ 真空时间: {VACUUM_TIME}s")
+    debug_print(f"  ⏱️ 充气时间: {REFILL_TIME}s")
+    debug_print(f"  🌪️ 搅拌速度: {STIR_SPEED}RPM")
+    
    action_sequence.append(create_action_log(f"真空体积: {VACUUM_VOLUME}mL", "📏"))
    action_sequence.append(create_action_log(f"充气体积: {REFILL_VOLUME}mL", "📏"))
    action_sequence.append(create_action_log(f"泵流速: {PUMP_FLOW_RATE}mL/s", "⚡"))
-
+    
    # === 路径验证 ===
+    debug_print("🔍 步骤4: 路径验证...")
    action_sequence.append(create_action_log("验证传输路径...", "🛤️"))
-
+    
    try:
-        if nx.has_path(G, vessel_id, vacuum_pump):
+        # 验证抽真空路径
+        if nx.has_path(G, vessel_id, vacuum_pump):  # 🔧 使用 vessel_id
            vacuum_path = nx.shortest_path(G, source=vessel_id, target=vacuum_pump)
+            debug_print(f"✅ 真空路径: {' -> '.join(vacuum_path)}")
            action_sequence.append(create_action_log(f"真空路径: {' -> '.join(vacuum_path)}", "🛤️"))
        else:
+            debug_print(f"⚠️ 真空路径不存在，继续执行但可能有问题")
            action_sequence.append(create_action_log("真空路径检查: 路径不存在", "⚠️"))
-
-        if nx.has_path(G, gas_source, vessel_id):
+        
+        # 验证充气路径
+        if nx.has_path(G, gas_source, vessel_id):  # 🔧 使用 vessel_id
            gas_path = nx.shortest_path(G, source=gas_source, target=vessel_id)
+            debug_print(f"✅ 气体路径: {' -> '.join(gas_path)}")
            action_sequence.append(create_action_log(f"气体路径: {' -> '.join(gas_path)}", "🛤️"))
        else:
+            debug_print(f"⚠️ 气体路径不存在，继续执行但可能有问题")
            action_sequence.append(create_action_log("气体路径检查: 路径不存在", "⚠️"))
-
+        
    except Exception as e:
+        debug_print(f"⚠️ 路径验证失败: {str(e)}，继续执行")
        action_sequence.append(create_action_log(f"路径验证失败: {str(e)}", "⚠️"))
-
+    
    # === 启动搅拌器 ===
+    debug_print("🔍 步骤5: 启动搅拌器...")
+    
    if stirrer_id:
+        debug_print(f"🌪️ 启动搅拌器: {stirrer_id}")
        action_sequence.append(create_action_log(f"启动搅拌器 {stirrer_id} (速度: {STIR_SPEED}rpm)", "🌪️"))
-
+        
        action_sequence.append({
            "device_id": stirrer_id,
            "action_name": "start_stir",
            "action_kwargs": {
-                "vessel": {"id": vessel_id},
+                "vessel": {"id": vessel_id},  # 🔧 使用 vessel_id
                "stir_speed": STIR_SPEED,
                "purpose": "抽真空充气前预搅拌"
            }
        })
-
+        
+        # 等待搅拌稳定
        action_sequence.append(create_action_log("等待搅拌稳定...", "⏳"))
        action_sequence.append({
            "action_name": "wait",
            "action_kwargs": {"time": 5.0}
        })
    else:
+        debug_print("⚠️ 未找到搅拌器，跳过搅拌器启动")
        action_sequence.append(create_action_log("跳过搅拌器启动", "⏭️"))
-
+    
    # === 执行循环 ===
+    debug_print("🔍 步骤6: 执行抽真空-充气循环...")
    action_sequence.append(create_action_log(f"开始 {repeats} 次抽真空-充气循环", "🔄"))
-
+    
    for cycle in range(repeats):
+        debug_print(f"=== 第 {cycle+1}/{repeats} 轮循环 ===")
        action_sequence.append(create_action_log(f"第 {cycle+1}/{repeats} 轮循环开始", "🚀"))
-
+        
        # ============ 抽真空阶段 ============
+        debug_print(f"🌪️ 抽真空阶段开始")
        action_sequence.append(create_action_log("开始抽真空阶段", "🌪️"))
-
+        
        # 启动真空泵
+        debug_print(f"🔛 启动真空泵: {vacuum_pump}")
        action_sequence.append(create_action_log(f"启动真空泵: {vacuum_pump}", "🔛"))
        action_sequence.append({
            "device_id": vacuum_pump,
            "action_name": "set_status",
            "action_kwargs": {"string": "ON"}
        })
-
+        
        # 开启真空电磁阀
        if vacuum_solenoid:
+            debug_print(f"🚪 打开真空电磁阀: {vacuum_solenoid}")
            action_sequence.append(create_action_log(f"打开真空电磁阀: {vacuum_solenoid}", "🚪"))
            action_sequence.append({
                "device_id": vacuum_solenoid,
                "action_name": "set_valve_position",
                "action_kwargs": {"command": "OPEN"}
            })
-
+        
        # 抽真空操作
+        debug_print(f"🌪️ 抽真空操作: {vessel_id} -> {vacuum_pump}")
        action_sequence.append(create_action_log(f"开始抽真空: {vessel_id} -> {vacuum_pump}", "🌪️"))
-
+        
        try:
            vacuum_transfer_actions = generate_pump_protocol_with_rinsing(
                G=G,
-                from_vessel=vessel_id,
+                from_vessel=vessel_id,  # 🔧 使用 vessel_id
                to_vessel=vacuum_pump,
                volume=VACUUM_VOLUME,
                amount="",
@@ -381,25 +519,27 @@ def generate_evacuateandrefill_protocol(
                flowrate=PUMP_FLOW_RATE,
                transfer_flowrate=PUMP_FLOW_RATE
            )
-
+            
            if vacuum_transfer_actions:
                action_sequence.extend(vacuum_transfer_actions)
+                debug_print(f"✅ 添加了 {len(vacuum_transfer_actions)} 个抽真空动作")
                action_sequence.append(create_action_log(f"抽真空协议完成 ({len(vacuum_transfer_actions)} 个操作)", "✅"))
            else:
+                debug_print("⚠️ 抽真空协议返回空序列，添加手动动作")
                action_sequence.append(create_action_log("抽真空协议为空，使用手动等待", "⚠️"))
                action_sequence.append({
                    "action_name": "wait",
                    "action_kwargs": {"time": VACUUM_TIME}
                })
-
+                
        except Exception as e:
-            debug_print(f"抽真空失败: {str(e)}")
+            debug_print(f"❌ 抽真空失败: {str(e)}")
            action_sequence.append(create_action_log(f"抽真空失败: {str(e)}", "❌"))
            action_sequence.append({
                "action_name": "wait",
                "action_kwargs": {"time": VACUUM_TIME}
            })
-
+        
        # 抽真空后等待
        wait_minutes = VACUUM_TIME / 60
        action_sequence.append(create_action_log(f"抽真空后等待 ({wait_minutes:.1f} 分钟)", "⏳"))
@@ -407,59 +547,65 @@ def generate_evacuateandrefill_protocol(
            "action_name": "wait",
            "action_kwargs": {"time": VACUUM_TIME}
        })
-
+        
        # 关闭真空电磁阀
        if vacuum_solenoid:
+            debug_print(f"🚪 关闭真空电磁阀: {vacuum_solenoid}")
            action_sequence.append(create_action_log(f"关闭真空电磁阀: {vacuum_solenoid}", "🚪"))
            action_sequence.append({
                "device_id": vacuum_solenoid,
                "action_name": "set_valve_position",
                "action_kwargs": {"command": "CLOSED"}
            })
-
+        
        # 关闭真空泵
+        debug_print(f"🔴 停止真空泵: {vacuum_pump}")
        action_sequence.append(create_action_log(f"停止真空泵: {vacuum_pump}", "🔴"))
        action_sequence.append({
            "device_id": vacuum_pump,
            "action_name": "set_status",
            "action_kwargs": {"string": "OFF"}
        })
-
+        
        # 阶段间等待
        action_sequence.append(create_action_log("抽真空阶段完成，短暂等待", "⏳"))
        action_sequence.append({
            "action_name": "wait",
            "action_kwargs": {"time": 5.0}
        })
-
+        
        # ============ 充气阶段 ============
+        debug_print(f"💨 充气阶段开始")
        action_sequence.append(create_action_log("开始气体充气阶段", "💨"))
-
+        
        # 启动气源
+        debug_print(f"🔛 启动气源: {gas_source}")
        action_sequence.append(create_action_log(f"启动气源: {gas_source}", "🔛"))
        action_sequence.append({
            "device_id": gas_source,
            "action_name": "set_status",
            "action_kwargs": {"string": "ON"}
        })
-
+        
        # 开启气源电磁阀
        if gas_solenoid:
+            debug_print(f"🚪 打开气源电磁阀: {gas_solenoid}")
            action_sequence.append(create_action_log(f"打开气源电磁阀: {gas_solenoid}", "🚪"))
            action_sequence.append({
                "device_id": gas_solenoid,
                "action_name": "set_valve_position",
                "action_kwargs": {"command": "OPEN"}
            })
-
+        
        # 充气操作
+        debug_print(f"💨 充气操作: {gas_source} -> {vessel_id}")
        action_sequence.append(create_action_log(f"开始气体充气: {gas_source} -> {vessel_id}", "💨"))
-
+        
        try:
            gas_transfer_actions = generate_pump_protocol_with_rinsing(
                G=G,
                from_vessel=gas_source,
-                to_vessel=vessel_id,
+                to_vessel=vessel_id,  # 🔧 使用 vessel_id
                volume=REFILL_VOLUME,
                amount="",
                time=0.0,
@@ -471,25 +617,27 @@ def generate_evacuateandrefill_protocol(
                flowrate=PUMP_FLOW_RATE,
                transfer_flowrate=PUMP_FLOW_RATE
            )
-
+            
            if gas_transfer_actions:
                action_sequence.extend(gas_transfer_actions)
+                debug_print(f"✅ 添加了 {len(gas_transfer_actions)} 个充气动作")
                action_sequence.append(create_action_log(f"气体充气协议完成 ({len(gas_transfer_actions)} 个操作)", "✅"))
            else:
+                debug_print("⚠️ 充气协议返回空序列，添加手动动作")
                action_sequence.append(create_action_log("充气协议为空，使用手动等待", "⚠️"))
                action_sequence.append({
                    "action_name": "wait",
                    "action_kwargs": {"time": REFILL_TIME}
                })
-
+                
        except Exception as e:
-            debug_print(f"气体充气失败: {str(e)}")
+            debug_print(f"❌ 气体充气失败: {str(e)}")
            action_sequence.append(create_action_log(f"气体充气失败: {str(e)}", "❌"))
            action_sequence.append({
                "action_name": "wait",
                "action_kwargs": {"time": REFILL_TIME}
            })
-
+        
        # 充气后等待
        refill_wait_minutes = REFILL_TIME / 60
        action_sequence.append(create_action_log(f"充气后等待 ({refill_wait_minutes:.1f} 分钟)", "⏳"))
@@ -497,26 +645,29 @@ def generate_evacuateandrefill_protocol(
            "action_name": "wait",
            "action_kwargs": {"time": REFILL_TIME}
        })
-
+        
        # 关闭气源电磁阀
        if gas_solenoid:
+            debug_print(f"🚪 关闭气源电磁阀: {gas_solenoid}")
            action_sequence.append(create_action_log(f"关闭气源电磁阀: {gas_solenoid}", "🚪"))
            action_sequence.append({
                "device_id": gas_solenoid,
                "action_name": "set_valve_position",
                "action_kwargs": {"command": "CLOSED"}
            })
-
+        
        # 关闭气源
+        debug_print(f"🔴 停止气源: {gas_source}")
        action_sequence.append(create_action_log(f"停止气源: {gas_source}", "🔴"))
        action_sequence.append({
            "device_id": gas_source,
            "action_name": "set_status",
            "action_kwargs": {"string": "OFF"}
        })
-
+        
        # 循环间等待
        if cycle < repeats - 1:
+            debug_print(f"⏳ 等待下一个循环...")
            action_sequence.append(create_action_log("等待下一个循环...", "⏳"))
            action_sequence.append({
                "action_name": "wait",
@@ -524,58 +675,78 @@ def generate_evacuateandrefill_protocol(
            })
        else:
            action_sequence.append(create_action_log(f"第 {cycle+1}/{repeats} 轮循环完成", "✅"))
-
+    
    # === 停止搅拌器 ===
+    debug_print("🔍 步骤7: 停止搅拌器...")
+    
    if stirrer_id:
+        debug_print(f"🛑 停止搅拌器: {stirrer_id}")
        action_sequence.append(create_action_log(f"停止搅拌器: {stirrer_id}", "🛑"))
        action_sequence.append({
            "device_id": stirrer_id,
            "action_name": "stop_stir",
-            "action_kwargs": {"vessel": {"id": vessel_id},}
+            "action_kwargs": {"vessel": {"id": vessel_id},}  # 🔧 使用 vessel_id
        })
    else:
        action_sequence.append(create_action_log("跳过搅拌器停止", "⏭️"))
-
+    
    # === 最终等待 ===
    action_sequence.append(create_action_log("最终稳定等待...", "⏳"))
    action_sequence.append({
        "action_name": "wait",
        "action_kwargs": {"time": 10.0}
    })
-
+    
    # === 总结 ===
    total_time = (VACUUM_TIME + REFILL_TIME + 25) * repeats + 20
-
-    debug_print(f"抽真空充气协议生成完成: {len(action_sequence)} 个动作, 预计 {total_time:.0f}s")
-
+    
+    debug_print("=" * 60)
+    debug_print(f"🎉 抽真空充气协议生成完成")
+    debug_print(f"📊 协议统计:")
+    debug_print(f"  📋 总动作数: {len(action_sequence)}")
+    debug_print(f"  ⏱️ 预计总时间: {total_time:.0f}s ({total_time/60:.1f} 分钟)")
+    debug_print(f"  🥼 处理容器: {vessel_id}")
+    debug_print(f"  💨 使用气体: {gas}")
+    debug_print(f"  🔄 重复次数: {repeats}")
+    debug_print("=" * 60)
+    
+    # 添加完成日志
    summary_msg = f"抽真空充气协议完成: {vessel_id} (使用 {gas}，{repeats} 次循环)"
    action_sequence.append(create_action_log(summary_msg, "🎉"))
-
+    
    return action_sequence

 # === 便捷函数 ===

-def generate_nitrogen_purge_protocol(G: nx.DiGraph, vessel: dict, **kwargs) -> List[Dict[str, Any]]:
+def generate_nitrogen_purge_protocol(G: nx.DiGraph, vessel: dict, **kwargs) -> List[Dict[str, Any]]:  # 🔧 修改参数类型
    """生成氮气置换协议"""
+    vessel_id = vessel["id"]
+    debug_print(f"💨 生成氮气置换协议: {vessel_id}")
    return generate_evacuateandrefill_protocol(G, vessel, "nitrogen", **kwargs)

-def generate_argon_purge_protocol(G: nx.DiGraph, vessel: dict, **kwargs) -> List[Dict[str, Any]]:
+def generate_argon_purge_protocol(G: nx.DiGraph, vessel: dict, **kwargs) -> List[Dict[str, Any]]:  # 🔧 修改参数类型
    """生成氩气置换协议"""
+    vessel_id = vessel["id"]
+    debug_print(f"💨 生成氩气置换协议: {vessel_id}")
    return generate_evacuateandrefill_protocol(G, vessel, "argon", **kwargs)

-def generate_air_purge_protocol(G: nx.DiGraph, vessel: dict, **kwargs) -> List[Dict[str, Any]]:
+def generate_air_purge_protocol(G: nx.DiGraph, vessel: dict, **kwargs) -> List[Dict[str, Any]]:  # 🔧 修改参数类型
    """生成空气置换协议"""
+    vessel_id = vessel["id"]
+    debug_print(f"💨 生成空气置换协议: {vessel_id}")
    return generate_evacuateandrefill_protocol(G, vessel, "air", **kwargs)

-def generate_inert_atmosphere_protocol(G: nx.DiGraph, vessel: dict, gas: str = "nitrogen", **kwargs) -> List[Dict[str, Any]]:
+def generate_inert_atmosphere_protocol(G: nx.DiGraph, vessel: dict, gas: str = "nitrogen", **kwargs) -> List[Dict[str, Any]]:  # 🔧 修改参数类型
    """生成惰性气氛协议"""
+    vessel_id = vessel["id"]
+    debug_print(f"🛡️ 生成惰性气氛协议: {vessel_id} (使用 {gas})")
    return generate_evacuateandrefill_protocol(G, vessel, gas, **kwargs)

 # 测试函数
 def test_evacuateandrefill_protocol():
    """测试抽真空充气协议"""
-    debug_print("=== 抽真空充气协议测试 ===")
-    debug_print("测试完成")
+    debug_print("=== 抽真空充气协议增强中文版测试 ===")
+    debug_print("✅ 测试完成")

 if __name__ == "__main__":
-    test_evacuateandrefill_protocol()
+    test_evacuateandrefill_protocol()
--- a/unilabos/compile/evacuateandrefill_protocol_old.py
+++ b/unilabos/compile/evacuateandrefill_protocol_old.py
@@ -0,0 +1,143 @@
+# import numpy as np
+# import networkx as nx
+
+
+# def generate_evacuateandrefill_protocol(
+#     G: nx.DiGraph, 
+#     vessel: str, 
+#     gas: str, 
+#     repeats: int = 1
+# ) -> 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
+#     :param volume: 转移的体积
+#     :param flowrate: 最终注入容器B时的流速
+#     :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
+#     """
+    
+#     # 生成电磁阀、真空泵、气源操作的动作序列
+#     vacuum_action_sequence = []
+#     nodes = G.nodes(data=True)
+    
+#     # 找到和 vessel 相连的电磁阀和真空泵、气源
+#     vacuum_backbone = {"vessel": vessel}
+    
+#     for neighbor in G.neighbors(vessel):
+#         if nodes[neighbor]["class"].startswith("solenoid_valve"):
+#             for neighbor2 in G.neighbors(neighbor):
+#                 if neighbor2 == vessel:
+#                     continue
+#                 if nodes[neighbor2]["class"].startswith("vacuum_pump"):
+#                     vacuum_backbone.update({"vacuum_valve": neighbor, "pump": neighbor2})
+#                     break
+#                 elif nodes[neighbor2]["class"].startswith("gas_source"):
+#                     vacuum_backbone.update({"gas_valve": neighbor, "gas": neighbor2})
+#                     break
+#     # 判断是否设备齐全
+#     if len(vacuum_backbone) < 5:
+#         print(f"\n\n\n{vacuum_backbone}\n\n\n")
+#         raise ValueError("Not all devices are connected to the vessel.")
+    
+#     # 生成操作的动作序列
+#     for i in range(repeats):
+#         # 打开真空泵阀门、关闭气源阀门
+#         vacuum_action_sequence.append([
+#             {
+#                 "device_id": vacuum_backbone["vacuum_valve"],
+#                 "action_name": "set_valve_position",
+#                 "action_kwargs": {
+#                     "command": "OPEN"
+#                 }
+#             },
+#             {
+#                 "device_id": vacuum_backbone["gas_valve"],
+#                 "action_name": "set_valve_position",
+#                 "action_kwargs": {
+#                     "command": "CLOSED"
+#                 }
+#             }
+#         ])
+        
+#         # 打开真空泵、关闭气源
+#         vacuum_action_sequence.append([
+#             {
+#                 "device_id": vacuum_backbone["pump"],
+#                 "action_name": "set_status",
+#                 "action_kwargs": {
+#                     "string": "ON"
+#                 }
+#             },
+#             {
+#                 "device_id": vacuum_backbone["gas"],
+#                 "action_name": "set_status",
+#                 "action_kwargs": {
+#                     "string": "OFF"
+#                 }
+#             }
+#         ])
+#         vacuum_action_sequence.append({"action_name": "wait", "action_kwargs": {"time": 60}})
+        
+#         # 关闭真空泵阀门、打开气源阀门
+#         vacuum_action_sequence.append([
+#             {
+#                 "device_id": vacuum_backbone["vacuum_valve"],
+#                 "action_name": "set_valve_position",
+#                 "action_kwargs": {
+#                     "command": "CLOSED"
+#                 }
+#             },
+#             {
+#                 "device_id": vacuum_backbone["gas_valve"],
+#                 "action_name": "set_valve_position",
+#                 "action_kwargs": {
+#                     "command": "OPEN"
+#                 }
+#             }
+#         ])
+        
+#         # 关闭真空泵、打开气源
+#         vacuum_action_sequence.append([
+#             {
+#                 "device_id": vacuum_backbone["pump"],
+#                 "action_name": "set_status",
+#                 "action_kwargs": {
+#                     "string": "OFF"
+#                 }
+#             },
+#             {
+#                 "device_id": vacuum_backbone["gas"],
+#                 "action_name": "set_status",
+#                 "action_kwargs": {
+#                     "string": "ON"
+#                 }
+#             }
+#         ])
+#         vacuum_action_sequence.append({"action_name": "wait", "action_kwargs": {"time": 60}})
+        
+#         # 关闭气源
+#         vacuum_action_sequence.append(
+#             {
+#                 "device_id": vacuum_backbone["gas"],
+#                 "action_name": "set_status",
+#                 "action_kwargs": {
+#                     "string": "OFF"
+#                 }
+#             }
+#         )
+        
+#         # 关闭阀门
+#         vacuum_action_sequence.append(
+#             {
+#                 "device_id": vacuum_backbone["gas_valve"],
+#                 "action_name": "set_valve_position",
+#                 "action_kwargs": {
+#                     "command": "CLOSED"
+#                 }
+#             }
+#         )
+#     return vacuum_action_sequence
--- a/unilabos/compile/evaporate_protocol.py
+++ b/unilabos/compile/evaporate_protocol.py
@@ -4,99 +4,128 @@ import logging
 import re
 from .utils.vessel_parser import get_vessel
 from .utils.unit_parser import parse_time_input
-from .utils.logger_util import debug_print

 logger = logging.getLogger(__name__)

+def debug_print(message):
+    """调试输出"""
+    logger.info(f"[EVAPORATE] {message}")
+

 def find_rotavap_device(G: nx.DiGraph, vessel: str = None) -> Optional[str]:
    """
    在组态图中查找旋转蒸发仪设备
-
+    
    Args:
        G: 设备图
        vessel: 指定的设备名称（可选）
-
+    
    Returns:
        str: 找到的旋转蒸发仪设备ID，如果没找到返回None
    """
+    debug_print("🔍 开始查找旋转蒸发仪设备... 🌪️")
+    
    # 如果指定了vessel，先检查是否存在且是旋转蒸发仪
    if vessel:
+        debug_print(f"🎯 检查指定设备: {vessel} 🔧")
        if vessel in G.nodes():
            node_data = G.nodes[vessel]
            node_class = node_data.get('class', '')
            node_type = node_data.get('type', '')
-
+            
+            debug_print(f"📋 设备信息 {vessel}: class={node_class}, type={node_type}")
+            
+            # 检查是否为旋转蒸发仪
            if any(keyword in str(node_class).lower() for keyword in ['rotavap', 'rotary', 'evaporat']):
-                debug_print(f"找到指定的旋转蒸发仪: {vessel}")
+                debug_print(f"🎉 找到指定的旋转蒸发仪: {vessel} ✨")
                return vessel
            elif node_type == 'device':
-                debug_print(f"指定设备存在，尝试直接使用: {vessel}")
+                debug_print(f"✅ 指定设备存在，尝试直接使用: {vessel} 🔧")
                return vessel
-
+        else:
+            debug_print(f"❌ 指定的设备 {vessel} 不存在 😞")
+    
    # 在所有设备中查找旋转蒸发仪
+    debug_print("🔎 在所有设备中搜索旋转蒸发仪... 🕵️‍♀️")
    rotavap_candidates = []
-
+    
    for node_id, node_data in G.nodes(data=True):
        node_class = node_data.get('class', '')
        node_type = node_data.get('type', '')
-
+        
+        # 跳过非设备节点
        if node_type != 'device':
            continue
-
+            
+        # 检查设备类型
        if any(keyword in str(node_class).lower() for keyword in ['rotavap', 'rotary', 'evaporat']):
            rotavap_candidates.append(node_id)
+            debug_print(f"🌟 找到旋转蒸发仪候选: {node_id} (class: {node_class}) 🌪️")
        elif any(keyword in str(node_id).lower() for keyword in ['rotavap', 'rotary', 'evaporat']):
            rotavap_candidates.append(node_id)
-
+            debug_print(f"🌟 找到旋转蒸发仪候选 (按名称): {node_id} 🌪️")
+    
    if rotavap_candidates:
-        selected = rotavap_candidates[0]
-        debug_print(f"选择旋转蒸发仪: {selected}")
+        selected = rotavap_candidates[0]  # 选择第一个找到的
+        debug_print(f"🎯 选择旋转蒸发仪: {selected} 🏆")
        return selected
-
-    debug_print("未找到旋转蒸发仪设备")
+    
+    debug_print("😭 未找到旋转蒸发仪设备 💔")
    return None

 def find_connected_vessel(G: nx.DiGraph, rotavap_device: str) -> Optional[str]:
    """
    查找与旋转蒸发仪连接的容器
+    
+    Args:
+        G: 设备图
+        rotavap_device: 旋转蒸发仪设备ID
+    
+    Returns:
+        str: 连接的容器ID，如果没找到返回None
    """
+    debug_print(f"🔗 查找与 {rotavap_device} 连接的容器... 🥽")
+    
+    # 查看旋转蒸发仪的子设备
    rotavap_data = G.nodes[rotavap_device]
    children = rotavap_data.get('children', [])
-
+    
+    debug_print(f"👶 检查子设备: {children}")
    for child_id in children:
        if child_id in G.nodes():
            child_data = G.nodes[child_id]
            child_type = child_data.get('type', '')
-
+            
            if child_type == 'container':
-                debug_print(f"找到连接的容器: {child_id}")
+                debug_print(f"🎉 找到连接的容器: {child_id} 🥽✨")
                return child_id
-
+    
+    # 查看邻接的容器
+    debug_print("🤝 检查邻接设备...")
    for neighbor in G.neighbors(rotavap_device):
        neighbor_data = G.nodes[neighbor]
        neighbor_type = neighbor_data.get('type', '')
-
+        
        if neighbor_type == 'container':
-            debug_print(f"找到邻接的容器: {neighbor}")
+            debug_print(f"🎉 找到邻接的容器: {neighbor} 🥽✨")
            return neighbor
-
-    debug_print("未找到连接的容器")
+    
+    debug_print("😞 未找到连接的容器 💔")
    return None

 def generate_evaporate_protocol(
    G: nx.DiGraph,
-    vessel: dict,
+    vessel: dict,  # 🔧 修改：从字符串改为字典类型
    pressure: float = 0.1,
    temp: float = 60.0,
-    time: Union[str, float] = "180",
+    time: Union[str, float] = "180",     # 🔧 修改：支持字符串时间
    stir_speed: float = 100.0,
    solvent: str = "",
    **kwargs
 ) -> List[Dict[str, Any]]:
    """
    生成蒸发操作的协议序列 - 支持单位和体积运算
-
+    
    Args:
        G: 设备图
        vessel: 容器字典（从XDL传入）
@@ -106,16 +135,27 @@ def generate_evaporate_protocol(
        stir_speed: 旋转速度 (RPM)，默认100
        solvent: 溶剂名称（用于参数优化）
        **kwargs: 其他参数（兼容性）
-
+    
    Returns:
        List[Dict[str, Any]]: 动作序列
    """
-
+    
+    # 🔧 核心修改：从字典中提取容器ID
    vessel_id, vessel_data = get_vessel(vessel)
-
-    debug_print(f"开始生成蒸发协议: vessel={vessel_id}, pressure={pressure}, temp={temp}, time={time}")
-
-    # 记录蒸发前的容器状态
+    
+    debug_print("🌟" * 20)
+    debug_print("🌪️ 开始生成蒸发协议（支持单位和体积运算）✨")
+    debug_print(f"📝 输入参数:")
+    debug_print(f"  🥽 vessel: {vessel} (ID: {vessel_id})")
+    debug_print(f"  💨 pressure: {pressure} bar")
+    debug_print(f"  🌡️ temp: {temp}°C")
+    debug_print(f"  ⏰ time: {time} (类型: {type(time)})")
+    debug_print(f"  🌪️ stir_speed: {stir_speed} RPM")
+    debug_print(f"  🧪 solvent: '{solvent}'")
+    debug_print("🌟" * 20)
+    
+    # 🔧 新增：记录蒸发前的容器状态
+    debug_print("🔍 记录蒸发前容器状态...")
    original_liquid_volume = 0.0
    if "data" in vessel and "liquid_volume" in vessel["data"]:
        current_volume = vessel["data"]["liquid_volume"]
@@ -123,97 +163,168 @@ def generate_evaporate_protocol(
            original_liquid_volume = current_volume[0]
        elif isinstance(current_volume, (int, float)):
            original_liquid_volume = current_volume
-
-    # 查找旋转蒸发仪设备
+    debug_print(f"📊 蒸发前液体体积: {original_liquid_volume:.2f}mL")
+    
+    # === 步骤1: 查找旋转蒸发仪设备 ===
+    debug_print("📍 步骤1: 查找旋转蒸发仪设备... 🔍")
+    
+    # 验证vessel参数
    if not vessel_id:
+        debug_print("❌ vessel 参数不能为空! 😱")
        raise ValueError("vessel 参数不能为空")
-
+    
+    # 查找旋转蒸发仪设备
    rotavap_device = find_rotavap_device(G, vessel_id)
    if not rotavap_device:
+        debug_print("💥 未找到旋转蒸发仪设备! 😭")
        raise ValueError(f"未找到旋转蒸发仪设备。请检查组态图中是否包含 class 包含 'rotavap'、'rotary' 或 'evaporat' 的设备")
-
-    # 确定目标容器
+    
+    debug_print(f"🎉 成功找到旋转蒸发仪: {rotavap_device} ✨")
+    
+    # === 步骤2: 确定目标容器 ===
+    debug_print("📍 步骤2: 确定目标容器... 🥽")
+    
    target_vessel = vessel_id
-
+    
+    # 如果vessel就是旋转蒸发仪设备，查找连接的容器
    if vessel_id == rotavap_device:
+        debug_print("🔄 vessel就是旋转蒸发仪，查找连接的容器...")
        connected_vessel = find_connected_vessel(G, rotavap_device)
        if connected_vessel:
            target_vessel = connected_vessel
+            debug_print(f"✅ 使用连接的容器: {target_vessel} 🥽✨")
        else:
+            debug_print(f"⚠️ 未找到连接的容器，使用设备本身: {rotavap_device} 🔧")
            target_vessel = rotavap_device
    elif vessel_id in G.nodes() and G.nodes[vessel_id].get('type') == 'container':
+        debug_print(f"✅ 使用指定的容器: {vessel_id} 🥽✨")
        target_vessel = vessel_id
    else:
+        debug_print(f"⚠️ 容器 '{vessel_id}' 不存在或类型不正确，使用旋转蒸发仪设备: {rotavap_device} 🔧")
        target_vessel = rotavap_device
-
-    # 单位解析处理
+    
+    # === 🔧 新增：步骤3：单位解析处理 ===
+    debug_print("📍 步骤3: 单位解析处理... ⚡")
+    
+    # 解析时间
    final_time = parse_time_input(time)
-    debug_print(f"时间解析: {time} -> {final_time}s ({final_time/60:.1f}分钟)")
-
-    # 参数验证和修正
+    debug_print(f"🎯 时间解析完成: {time} → {final_time}s ({final_time/60:.1f}分钟) ⏰✨")
+    
+    # === 步骤4: 参数验证和修正 ===
+    debug_print("📍 步骤4: 参数验证和修正... 🔧")
+    
+    # 修正参数范围
    if pressure <= 0 or pressure > 1.0:
+        debug_print(f"⚠️ 真空度 {pressure} bar 超出范围，修正为 0.1 bar 💨")
        pressure = 0.1
-
+    else:
+        debug_print(f"✅ 真空度 {pressure} bar 在正常范围内 💨")
+    
    if temp < 10.0 or temp > 200.0:
+        debug_print(f"⚠️ 温度 {temp}°C 超出范围，修正为 60°C 🌡️")
        temp = 60.0
-
+    else:
+        debug_print(f"✅ 温度 {temp}°C 在正常范围内 🌡️")
+    
    if final_time <= 0:
+        debug_print(f"⚠️ 时间 {final_time}s 无效，修正为 180s (3分钟) ⏰")
        final_time = 180.0
-
+    else:
+        debug_print(f"✅ 时间 {final_time}s ({final_time/60:.1f}分钟) 有效 ⏰")
+    
    if stir_speed < 10.0 or stir_speed > 300.0:
+        debug_print(f"⚠️ 旋转速度 {stir_speed} RPM 超出范围，修正为 100 RPM 🌪️")
        stir_speed = 100.0
-
+    else:
+        debug_print(f"✅ 旋转速度 {stir_speed} RPM 在正常范围内 🌪️")
+    
    # 根据溶剂优化参数
    if solvent:
+        debug_print(f"🧪 根据溶剂 '{solvent}' 优化参数... 🔬")
        solvent_lower = solvent.lower()
-
+        
        if any(s in solvent_lower for s in ['water', 'aqueous', 'h2o']):
            temp = max(temp, 80.0)
            pressure = max(pressure, 0.2)
+            debug_print("💧 水系溶剂：提高温度和真空度 🌡️💨")
        elif any(s in solvent_lower for s in ['ethanol', 'methanol', 'acetone']):
            temp = min(temp, 50.0)
            pressure = min(pressure, 0.05)
+            debug_print("🍺 易挥发溶剂：降低温度和真空度 🌡️💨")
        elif any(s in solvent_lower for s in ['dmso', 'dmi', 'toluene']):
            temp = max(temp, 100.0)
            pressure = min(pressure, 0.01)
-
-    debug_print(f"最终参数: pressure={pressure}bar, temp={temp}°C, time={final_time}s, stir_speed={stir_speed}RPM")
-
-    # 蒸发体积计算
+            debug_print("🔥 高沸点溶剂：提高温度，降低真空度 🌡️💨")
+        else:
+            debug_print("🧪 通用溶剂，使用标准参数 ✨")
+    else:
+        debug_print("🤷‍♀️ 未指定溶剂，使用默认参数 ✨")
+    
+    debug_print(f"🎯 最终参数: pressure={pressure} bar 💨, temp={temp}°C 🌡️, time={final_time}s ⏰, stir_speed={stir_speed} RPM 🌪️")
+    
+    # === 🔧 新增：步骤5：蒸发体积计算 ===
+    debug_print("📍 步骤5: 蒸发体积计算... 📊")
+    
+    # 根据温度、真空度、时间和溶剂类型估算蒸发量
    evaporation_volume = 0.0
    if original_liquid_volume > 0:
-        base_evap_rate = 0.5
+        # 基础蒸发速率（mL/min）
+        base_evap_rate = 0.5  # 基础速率
+        
+        # 温度系数（高温蒸发更快）
        temp_factor = 1.0 + (temp - 25.0) / 100.0
+        
+        # 真空系数（真空度越高蒸发越快）
        vacuum_factor = 1.0 + (1.0 - pressure) * 2.0
-
+        
+        # 溶剂系数
        solvent_factor = 1.0
        if solvent:
            solvent_lower = solvent.lower()
            if any(s in solvent_lower for s in ['water', 'h2o']):
-                solvent_factor = 0.8
+                solvent_factor = 0.8  # 水蒸发较慢
            elif any(s in solvent_lower for s in ['ethanol', 'methanol', 'acetone']):
-                solvent_factor = 1.5
+                solvent_factor = 1.5  # 易挥发溶剂蒸发快
            elif any(s in solvent_lower for s in ['dmso', 'dmi']):
-                solvent_factor = 0.3
-
+                solvent_factor = 0.3  # 高沸点溶剂蒸发慢
+        
+        # 计算总蒸发量
        total_evap_rate = base_evap_rate * temp_factor * vacuum_factor * solvent_factor
        evaporation_volume = min(
-            original_liquid_volume * 0.95,
-            total_evap_rate * (final_time / 60.0)
+            original_liquid_volume * 0.95,  # 最多蒸发95%
+            total_evap_rate * (final_time / 60.0)  # 时间相关的蒸发量
        )
-
-        debug_print(f"预计蒸发量: {evaporation_volume:.2f}mL ({evaporation_volume/original_liquid_volume*100:.1f}%)")
-
-    # 生成动作序列
+        
+        debug_print(f"📊 蒸发量计算:")
+        debug_print(f"  - 基础蒸发速率: {base_evap_rate} mL/min")
+        debug_print(f"  - 温度系数: {temp_factor:.2f} (基于 {temp}°C)")
+        debug_print(f"  - 真空系数: {vacuum_factor:.2f} (基于 {pressure} bar)")
+        debug_print(f"  - 溶剂系数: {solvent_factor:.2f} ({solvent or '通用'})")
+        debug_print(f"  - 总蒸发速率: {total_evap_rate:.2f} mL/min")
+        debug_print(f"  - 预计蒸发量: {evaporation_volume:.2f}mL ({evaporation_volume/original_liquid_volume*100:.1f}%)")
+    
+    # === 步骤6: 生成动作序列 ===
+    debug_print("📍 步骤6: 生成动作序列... 🎬")
+    
    action_sequence = []
-
+    
    # 1. 等待稳定
+    debug_print("  🔄 动作1: 添加初始等待稳定... ⏳")
    action_sequence.append({
        "action_name": "wait",
        "action_kwargs": {"time": 10}
    })
-
+    debug_print("  ✅ 初始等待动作已添加 ⏳✨")
+    
    # 2. 执行蒸发
+    debug_print(f"  🌪️ 动作2: 执行蒸发操作...")
+    debug_print(f"    🔧 设备: {rotavap_device}")
+    debug_print(f"    🥽 容器: {target_vessel}")
+    debug_print(f"    💨 真空度: {pressure} bar")
+    debug_print(f"    🌡️ 温度: {temp}°C")
+    debug_print(f"    ⏰ 时间: {final_time}s ({final_time/60:.1f}分钟)")
+    debug_print(f"    🌪️ 旋转速度: {stir_speed} RPM")
+    
    evaporate_action = {
        "device_id": rotavap_device,
        "action_name": "evaporate",
@@ -221,17 +332,20 @@ def generate_evaporate_protocol(
            "vessel": {"id": target_vessel},
            "pressure": float(pressure),
            "temp": float(temp),
-            "time": float(final_time),
+            "time": float(final_time),  # 🔧 强制转换为float类型
            "stir_speed": float(stir_speed),
            "solvent": str(solvent)
        }
    }
    action_sequence.append(evaporate_action)
-
-    # 蒸发过程中的体积变化
+    debug_print("  ✅ 蒸发动作已添加 🌪️✨")
+    
+    # 🔧 新增：蒸发过程中的体积变化
+    debug_print("  🔧 更新容器体积 - 蒸发过程...")
    if evaporation_volume > 0:
        new_volume = max(0.0, original_liquid_volume - evaporation_volume)
-
+        
+        # 更新vessel字典中的体积
        if "data" in vessel and "liquid_volume" in vessel["data"]:
            current_volume = vessel["data"]["liquid_volume"]
            if isinstance(current_volume, list):
@@ -243,14 +357,15 @@ def generate_evaporate_protocol(
                vessel["data"]["liquid_volume"] = new_volume
            else:
                vessel["data"]["liquid_volume"] = new_volume
-
+        
+        # 🔧 同时更新图中的容器数据
        if vessel_id in G.nodes():
            if 'data' not in G.nodes[vessel_id]:
                G.nodes[vessel_id]['data'] = {}
-
+            
            vessel_node_data = G.nodes[vessel_id]['data']
            current_node_volume = vessel_node_data.get('liquid_volume', 0.0)
-
+            
            if isinstance(current_node_volume, list):
                if len(current_node_volume) > 0:
                    G.nodes[vessel_id]['data']['liquid_volume'][0] = new_volume
@@ -258,16 +373,18 @@ def generate_evaporate_protocol(
                    G.nodes[vessel_id]['data']['liquid_volume'] = [new_volume]
            else:
                G.nodes[vessel_id]['data']['liquid_volume'] = new_volume
-
-        debug_print(f"蒸发体积变化: {original_liquid_volume:.2f}mL -> {new_volume:.2f}mL (-{evaporation_volume:.2f}mL)")
-
+        
+        debug_print(f"  📊 蒸发体积变化: {original_liquid_volume:.2f}mL → {new_volume:.2f}mL (-{evaporation_volume:.2f}mL)")
+    
    # 3. 蒸发后等待
+    debug_print("  🔄 动作3: 添加蒸发后等待... ⏳")
    action_sequence.append({
        "action_name": "wait",
        "action_kwargs": {"time": 10}
    })
-
-    # 最终状态
+    debug_print("  ✅ 蒸发后等待动作已添加 ⏳✨")
+    
+    # 🔧 新增：蒸发完成后的状态报告
    final_liquid_volume = 0.0
    if "data" in vessel and "liquid_volume" in vessel["data"]:
        current_volume = vessel["data"]["liquid_volume"]
@@ -275,7 +392,19 @@ def generate_evaporate_protocol(
            final_liquid_volume = current_volume[0]
        elif isinstance(current_volume, (int, float)):
            final_liquid_volume = current_volume
-
-    debug_print(f"蒸发协议生成完成: {len(action_sequence)} 个动作, 设备={rotavap_device}, 容器={target_vessel}")
-
+    
+    # === 总结 ===
+    debug_print("🎊" * 20)
+    debug_print(f"🎉 蒸发协议生成完成! ✨")
+    debug_print(f"📊 总动作数: {len(action_sequence)} 个 📝")
+    debug_print(f"🌪️ 旋转蒸发仪: {rotavap_device} 🔧")
+    debug_print(f"🥽 目标容器: {target_vessel} 🧪")
+    debug_print(f"⚙️ 蒸发参数: {pressure} bar 💨, {temp}°C 🌡️, {final_time}s ⏰, {stir_speed} RPM 🌪️")
+    debug_print(f"⏱️ 预计总时间: {(final_time + 20)/60:.1f} 分钟 ⌛")
+    debug_print(f"📊 体积变化:")
+    debug_print(f"  - 蒸发前: {original_liquid_volume:.2f}mL")
+    debug_print(f"  - 蒸发后: {final_liquid_volume:.2f}mL") 
+    debug_print(f"  - 蒸发量: {evaporation_volume:.2f}mL ({evaporation_volume/max(original_liquid_volume, 0.01)*100:.1f}%)")
+    debug_print("🎊" * 20)
+    
    return action_sequence
--- a/unilabos/compile/filter_protocol.py
+++ b/unilabos/compile/filter_protocol.py
@@ -2,64 +2,87 @@ from typing import List, Dict, Any, Optional
 import networkx as nx
 import logging
 from .utils.vessel_parser import get_vessel
-from .utils.logger_util import debug_print
 from .pump_protocol import generate_pump_protocol_with_rinsing

 logger = logging.getLogger(__name__)

+def debug_print(message):
+    """调试输出"""
+    logger.info(f"[FILTER] {message}")
+
 def find_filter_device(G: nx.DiGraph) -> str:
    """查找过滤器设备"""
+    debug_print("🔍 查找过滤器设备... 🌊")
+    
+    # 查找过滤器设备
    for node in G.nodes():
        node_data = G.nodes[node]
        node_class = node_data.get('class', '') or ''
-
+        
        if 'filter' in node_class.lower() or 'filter' in node.lower():
-            debug_print(f"找到过滤器设备: {node}")
+            debug_print(f"🎉 找到过滤器设备: {node} ✨")
            return node
-
+    
+    # 如果没找到，寻找可能的过滤器名称
+    debug_print("🔎 在预定义名称中搜索过滤器... 📋")
    possible_names = ["filter", "filter_1", "virtual_filter", "filtration_unit"]
    for name in possible_names:
        if name in G.nodes():
-            debug_print(f"找到过滤器设备: {name}")
+            debug_print(f"🎉 找到过滤器设备: {name} ✨")
            return name
-
+    
+    debug_print("😭 未找到过滤器设备 💔")
    raise ValueError("未找到过滤器设备")

 def validate_vessel(G: nx.DiGraph, vessel: str, vessel_type: str = "容器") -> None:
    """验证容器是否存在"""
+    debug_print(f"🔍 验证{vessel_type}: '{vessel}' 🧪")
+    
    if not vessel:
+        debug_print(f"❌ {vessel_type}不能为空! 😱")
        raise ValueError(f"{vessel_type}不能为空")
-
+    
    if vessel not in G.nodes():
+        debug_print(f"❌ {vessel_type} '{vessel}' 不存在于系统中! 😞")
        raise ValueError(f"{vessel_type} '{vessel}' 不存在于系统中")
+    
+    debug_print(f"✅ {vessel_type} '{vessel}' 验证通过 🎯")

 def generate_filter_protocol(
    G: nx.DiGraph,
-    vessel: dict,
+    vessel: dict,  # 🔧 修改：从字符串改为字典类型
    filtrate_vessel: dict = {"id": "waste"},
    **kwargs
 ) -> List[Dict[str, Any]]:
    """
    生成过滤操作的协议序列 - 支持体积运算
-
+    
    Args:
        G: 设备图
        vessel: 过滤容器字典（必需）- 包含需要过滤的混合物
        filtrate_vessel: 滤液容器名称（可选）- 如果提供则收集滤液
        **kwargs: 其他参数（兼容性）
-
+    
    Returns:
        List[Dict[str, Any]]: 过滤操作的动作序列
    """
-
+    
+    # 🔧 核心修改：从字典中提取容器ID
    vessel_id, vessel_data = get_vessel(vessel)
    filtrate_vessel_id, filtrate_vessel_data = get_vessel(filtrate_vessel)
-
-    debug_print(f"开始生成过滤协议: vessel={vessel_id}, filtrate_vessel={filtrate_vessel_id}")
-
+    
+    debug_print("🌊" * 20)
+    debug_print("🚀 开始生成过滤协议（支持体积运算）✨")
+    debug_print(f"📝 输入参数:")
+    debug_print(f"  🥽 vessel: {vessel} (ID: {vessel_id})")
+    debug_print(f"  🧪 filtrate_vessel: {filtrate_vessel}")
+    debug_print(f"  ⚙️ 其他参数: {kwargs}")
+    debug_print("🌊" * 20)
+    
    action_sequence = []
-
-    # 记录过滤前的容器状态
+    
+    # 🔧 新增：记录过滤前的容器状态
+    debug_print("🔍 记录过滤前容器状态...")
    original_liquid_volume = 0.0
    if "data" in vessel and "liquid_volume" in vessel["data"]:
        current_volume = vessel["data"]["liquid_volume"]
@@ -67,45 +90,79 @@ def generate_filter_protocol(
            original_liquid_volume = current_volume[0]
        elif isinstance(current_volume, (int, float)):
            original_liquid_volume = current_volume
-
+    debug_print(f"📊 过滤前液体体积: {original_liquid_volume:.2f}mL")
+    
    # === 参数验证 ===
-    validate_vessel(G, vessel_id, "过滤容器")
-
+    debug_print("📍 步骤1: 参数验证... 🔧")
+    
+    # 验证必需参数
+    debug_print("  🔍 验证必需参数...")
+    validate_vessel(G, vessel_id, "过滤容器")  # 🔧 使用 vessel_id
+    debug_print("  ✅ 必需参数验证完成 🎯")
+    
+    # 验证可选参数
+    debug_print("  🔍 验证可选参数...")
    if filtrate_vessel:
        validate_vessel(G, filtrate_vessel_id, "滤液容器")
-
+        debug_print("  🌊 模式: 过滤并收集滤液 💧")
+    else:
+        debug_print("  🧱 模式: 过滤并收集固体 🔬")
+    debug_print("  ✅ 可选参数验证完成 🎯")
+    
    # === 查找设备 ===
+    debug_print("📍 步骤2: 查找设备... 🔍")
+    
    try:
+        debug_print("  🔎 搜索过滤器设备...")
        filter_device = find_filter_device(G)
-        debug_print(f"使用过滤器设备: {filter_device}")
+        debug_print(f"  🎉 使用过滤器设备: {filter_device} 🌊✨")
+        
    except Exception as e:
+        debug_print(f"  ❌ 设备查找失败: {str(e)} 😭")
        raise ValueError(f"设备查找失败: {str(e)}")
-
-    # 过滤体积分配估算
-    solid_ratio = 0.1
-    liquid_ratio = 0.9
-    volume_loss_ratio = 0.05
-
+    
+    # 🔧 新增：过滤效率和体积分配估算
+    debug_print("📍 步骤2.5: 过滤体积分配估算... 📊")
+    
+    # 估算过滤分离比例（基于经验数据）
+    solid_ratio = 0.1  # 假设10%是固体（保留在过滤器上）
+    liquid_ratio = 0.9  # 假设90%是液体（通过过滤器）
+    volume_loss_ratio = 0.05  # 假设5%体积损失（残留在过滤器等）
+    
+    # 从kwargs中获取过滤参数进行优化
    if "solid_content" in kwargs:
        try:
            solid_ratio = float(kwargs["solid_content"])
            liquid_ratio = 1.0 - solid_ratio
+            debug_print(f"📋 使用指定的固体含量: {solid_ratio*100:.1f}%")
        except:
-            pass
-
+            debug_print("⚠️ 固体含量参数无效，使用默认值")
+    
    if original_liquid_volume > 0:
        expected_filtrate_volume = original_liquid_volume * liquid_ratio * (1.0 - volume_loss_ratio)
        expected_solid_volume = original_liquid_volume * solid_ratio
        volume_loss = original_liquid_volume * volume_loss_ratio
-
+        
+        debug_print(f"📊 过滤体积分配估算:")
+        debug_print(f"  - 原始体积: {original_liquid_volume:.2f}mL")
+        debug_print(f"  - 预计滤液体积: {expected_filtrate_volume:.2f}mL ({liquid_ratio*100:.1f}%)")
+        debug_print(f"  - 预计固体体积: {expected_solid_volume:.2f}mL ({solid_ratio*100:.1f}%)")
+        debug_print(f"  - 预计损失体积: {volume_loss:.2f}mL ({volume_loss_ratio*100:.1f}%)")
+    
    # === 转移到过滤器（如果需要）===
-    if vessel_id != filter_device:
+    debug_print("📍 步骤3: 转移到过滤器... 🚚")
+    
+    if vessel_id != filter_device:  # 🔧 使用 vessel_id
+        debug_print(f"  🚛 需要转移: {vessel_id} → {filter_device} 📦")
+        
        try:
+            debug_print("  🔄 开始执行转移操作...")
+            # 使用pump protocol转移液体到过滤器
            transfer_actions = generate_pump_protocol_with_rinsing(
                G=G,
-                from_vessel={"id": vessel_id},
+                from_vessel={"id": vessel_id},  # 🔧 使用 vessel_id
                to_vessel={"id": filter_device},
-                volume=0.0,
+                volume=0.0,  # 转移所有液体
                amount="",
                time=0.0,
                viscous=False,
@@ -116,59 +173,88 @@ def generate_filter_protocol(
                flowrate=2.0,
                transfer_flowrate=2.0
            )
-
+            
            if transfer_actions:
                action_sequence.extend(transfer_actions)
-                debug_print(f"添加了 {len(transfer_actions)} 个转移动作")
-
-                # 更新容器体积
+                debug_print(f"  ✅ 添加了 {len(transfer_actions)} 个转移动作 🚚✨")
+                
+                # 🔧 新增：转移后更新容器体积
+                debug_print("  🔧 更新转移后的容器体积...")
+                
+                # 原容器体积变为0（所有液体已转移）
                if "data" in vessel and "liquid_volume" in vessel["data"]:
                    current_volume = vessel["data"]["liquid_volume"]
                    if isinstance(current_volume, list):
                        vessel["data"]["liquid_volume"] = [0.0] if len(current_volume) > 0 else [0.0]
                    else:
                        vessel["data"]["liquid_volume"] = 0.0
-
+                
+                # 同时更新图中的容器数据
                if vessel_id in G.nodes():
                    if 'data' not in G.nodes[vessel_id]:
                        G.nodes[vessel_id]['data'] = {}
                    G.nodes[vessel_id]['data']['liquid_volume'] = 0.0
-
+                
+                debug_print(f"  📊 转移完成，{vessel_id} 体积更新为 0.0mL")
+                
+            else:
+                debug_print("  ⚠️ 转移协议返回空序列 🤔")
+                
        except Exception as e:
-            debug_print(f"转移失败: {str(e)}，继续执行")
-
+            debug_print(f"  ❌ 转移失败: {str(e)} 😞")
+            debug_print("  🔄 继续执行，可能是直接连接的过滤器 🤞")
+    else:
+        debug_print("  ✅ 过滤容器就是过滤器，无需转移 🎯")
+    
    # === 执行过滤操作 ===
+    debug_print("📍 步骤4: 执行过滤操作... 🌊")
+    
+    # 构建过滤动作参数
+    debug_print("  ⚙️ 构建过滤参数...")
    filter_kwargs = {
-        "vessel": {"id": filter_device},
-        "filtrate_vessel": {"id": filtrate_vessel_id},
+        "vessel": {"id": filter_device},  # 过滤器设备
+        "filtrate_vessel": {"id": filtrate_vessel_id},  # 滤液容器（可能为空）
        "stir": kwargs.get("stir", False),
        "stir_speed": kwargs.get("stir_speed", 0.0),
        "temp": kwargs.get("temp", 25.0),
        "continue_heatchill": kwargs.get("continue_heatchill", False),
-        "volume": kwargs.get("volume", 0.0)
+        "volume": kwargs.get("volume", 0.0)  # 0表示过滤所有
    }
-
+    
+    debug_print(f"  📋 过滤参数: {filter_kwargs}")
+    debug_print("  🌊 开始过滤操作...")
+    
+    # 过滤动作
    filter_action = {
        "device_id": filter_device,
        "action_name": "filter",
        "action_kwargs": filter_kwargs
    }
    action_sequence.append(filter_action)
-
+    debug_print("  ✅ 过滤动作已添加 🌊✨")
+    
    # 过滤后等待
+    debug_print("  ⏳ 添加过滤后等待...")
    action_sequence.append({
        "action_name": "wait",
        "action_kwargs": {"time": 10.0}
    })
-
+    debug_print("  ✅ 过滤后等待动作已添加 ⏰✨")
+    
    # === 收集滤液（如果需要）===
+    debug_print("📍 步骤5: 收集滤液... 💧")
+    
    if filtrate_vessel_id and filtrate_vessel_id not in G.neighbors(filter_device):
+        debug_print(f"  🧪 收集滤液: {filter_device} → {filtrate_vessel_id} 💧")
+        
        try:
+            debug_print("  🔄 开始执行收集操作...")
+            # 使用pump protocol收集滤液
            collect_actions = generate_pump_protocol_with_rinsing(
                G=G,
                from_vessel=filter_device,
                to_vessel=filtrate_vessel,
-                volume=0.0,
+                volume=0.0,  # 收集所有滤液
                amount="",
                time=0.0,
                viscous=False,
@@ -179,15 +265,19 @@ def generate_filter_protocol(
                flowrate=2.0,
                transfer_flowrate=2.0
            )
-
+            
            if collect_actions:
                action_sequence.extend(collect_actions)
-
-                # 更新滤液容器体积
+                debug_print(f"  ✅ 添加了 {len(collect_actions)} 个收集动作 🧪✨")
+                
+                # 🔧 新增：收集滤液后的体积更新
+                debug_print("  🔧 更新滤液容器体积...")
+                
+                # 更新filtrate_vessel在图中的体积（如果它是节点）
                if filtrate_vessel_id in G.nodes():
                    if 'data' not in G.nodes[filtrate_vessel_id]:
                        G.nodes[filtrate_vessel_id]['data'] = {}
-
+                    
                    current_filtrate_volume = G.nodes[filtrate_vessel_id]['data'].get('liquid_volume', 0.0)
                    if isinstance(current_filtrate_volume, list):
                        if len(current_filtrate_volume) > 0:
@@ -196,37 +286,58 @@ def generate_filter_protocol(
                            G.nodes[filtrate_vessel_id]['data']['liquid_volume'] = [expected_filtrate_volume]
                    else:
                        G.nodes[filtrate_vessel_id]['data']['liquid_volume'] = current_filtrate_volume + expected_filtrate_volume
-
+                    
+                    debug_print(f"  📊 滤液容器 {filtrate_vessel_id} 体积增加 {expected_filtrate_volume:.2f}mL")
+                
+            else:
+                debug_print("  ⚠️ 收集协议返回空序列 🤔")
+                
        except Exception as e:
-            debug_print(f"收集滤液失败: {str(e)}，继续执行")
-
-    # 过滤完成后容器状态更新
+            debug_print(f"  ❌ 收集滤液失败: {str(e)} 😞")
+            debug_print("  🔄 继续执行，可能滤液直接流入指定容器 🤞")
+    else:
+        debug_print("  🧱 未指定滤液容器，固体保留在过滤器中 🔬")
+    
+    # 🔧 新增：过滤完成后的容器状态更新
+    debug_print("📍 步骤5.5: 过滤完成后状态更新... 📊")
+    
    if vessel_id == filter_device:
+        # 如果过滤容器就是过滤器，需要更新其体积状态
        if original_liquid_volume > 0:
            if filtrate_vessel:
+                # 收集滤液模式：过滤器中主要保留固体
                remaining_volume = expected_solid_volume
+                debug_print(f"  🧱 过滤器中保留固体: {remaining_volume:.2f}mL")
            else:
+                # 保留固体模式：过滤器中保留所有物质
                remaining_volume = original_liquid_volume * (1.0 - volume_loss_ratio)
-
+                debug_print(f"  🔬 过滤器中保留所有物质: {remaining_volume:.2f}mL")
+            
+            # 更新vessel字典中的体积
            if "data" in vessel and "liquid_volume" in vessel["data"]:
                current_volume = vessel["data"]["liquid_volume"]
                if isinstance(current_volume, list):
                    vessel["data"]["liquid_volume"] = [remaining_volume] if len(current_volume) > 0 else [remaining_volume]
                else:
                    vessel["data"]["liquid_volume"] = remaining_volume
-
+            
+            # 同时更新图中的容器数据
            if vessel_id in G.nodes():
                if 'data' not in G.nodes[vessel_id]:
                    G.nodes[vessel_id]['data'] = {}
                G.nodes[vessel_id]['data']['liquid_volume'] = remaining_volume
-
+            
+            debug_print(f"  📊 过滤器 {vessel_id} 体积更新为: {remaining_volume:.2f}mL")
+    
    # === 最终等待 ===
+    debug_print("📍 步骤6: 最终等待... ⏰")
    action_sequence.append({
        "action_name": "wait",
        "action_kwargs": {"time": 5.0}
    })
-
-    # 最终状态
+    debug_print("  ✅ 最终等待动作已添加 ⏰✨")
+    
+    # 🔧 新增：过滤完成后的状态报告
    final_vessel_volume = 0.0
    if "data" in vessel and "liquid_volume" in vessel["data"]:
        current_volume = vessel["data"]["liquid_volume"]
@@ -234,7 +345,22 @@ def generate_filter_protocol(
            final_vessel_volume = current_volume[0]
        elif isinstance(current_volume, (int, float)):
            final_vessel_volume = current_volume
-
-    debug_print(f"过滤协议生成完成: {len(action_sequence)} 个动作, 容器={vessel_id}, 过滤器={filter_device}")
-
+    
+    # === 总结 ===
+    debug_print("🎊" * 20)
+    debug_print(f"🎉 过滤协议生成完成! ✨")
+    debug_print(f"📊 总动作数: {len(action_sequence)} 个 📝")
+    debug_print(f"🥽 过滤容器: {vessel_id} 🧪")
+    debug_print(f"🌊 过滤器设备: {filter_device} 🔧")
+    debug_print(f"💧 滤液容器: {filtrate_vessel_id or '无（保留固体）'} 🧱")
+    debug_print(f"⏱️ 预计总时间: {(len(action_sequence) * 5):.0f} 秒 ⌛")
+    if original_liquid_volume > 0:
+        debug_print(f"📊 体积变化统计:")
+        debug_print(f"  - 过滤前体积: {original_liquid_volume:.2f}mL")
+        debug_print(f"  - 过滤后容器体积: {final_vessel_volume:.2f}mL")
+        if filtrate_vessel:
+            debug_print(f"  - 预计滤液体积: {expected_filtrate_volume:.2f}mL")
+        debug_print(f"  - 预计损失体积: {volume_loss:.2f}mL")
+    debug_print("🎊" * 20)
+    
    return action_sequence
--- a/unilabos/compile/heatchill_protocol.py
+++ b/unilabos/compile/heatchill_protocol.py
@@ -1,24 +1,118 @@
 from typing import List, Dict, Any, Union
 import networkx as nx
-from .utils.vessel_parser import get_vessel, find_connected_heatchill
-from .utils.unit_parser import parse_time_input, parse_temperature_input
-from .utils.logger_util import debug_print
+import logging
+import re
+from .utils.vessel_parser import get_vessel
+from .utils.unit_parser import parse_time_input

+logger = logging.getLogger(__name__)
+
+def debug_print(message):
+    """调试输出"""
+    logger.info(f"[HEATCHILL] {message}")
+
+
+def parse_temp_input(temp_input: Union[str, float], default_temp: float = 25.0) -> float:
+    """
+    解析温度输入（统一函数）
+    
+    Args:
+        temp_input: 温度输入
+        default_temp: 默认温度
+        
+    Returns:
+        float: 温度（°C）
+    """
+    if not temp_input:
+        return default_temp
+    
+    # 🔢 数值输入
+    if isinstance(temp_input, (int, float)):
+        result = float(temp_input)
+        debug_print(f"🌡️ 数值温度: {temp_input} → {result}°C")
+        return result
+    
+    # 📝 字符串输入
+    temp_str = str(temp_input).lower().strip()
+    debug_print(f"🔍 解析温度: '{temp_str}'")
+    
+    # 🎯 特殊温度
+    special_temps = {
+        "room temperature": 25.0, "reflux": 78.0, "ice bath": 0.0,
+        "boiling": 100.0, "hot": 60.0, "warm": 40.0, "cold": 10.0
+    }
+    
+    if temp_str in special_temps:
+        result = special_temps[temp_str]
+        debug_print(f"🎯 特殊温度: '{temp_str}' → {result}°C")
+        return result
+    
+    # 📐 正则解析（如 "256 °C"）
+    temp_pattern = r'(\d+(?:\.\d+)?)\s*°?[cf]?'
+    match = re.search(temp_pattern, temp_str)
+    
+    if match:
+        result = float(match.group(1))
+        debug_print(f"✅ 温度解析: '{temp_str}' → {result}°C")
+        return result
+    
+    debug_print(f"⚠️ 无法解析温度: '{temp_str}'，使用默认值: {default_temp}°C")
+    return default_temp
+
+def find_connected_heatchill(G: nx.DiGraph, vessel: str) -> str:
+    """查找与指定容器相连的加热/冷却设备"""
+    debug_print(f"🔍 查找加热设备，目标容器: {vessel}")
+    
+    # 🔧 查找所有加热设备
+    heatchill_nodes = []
+    for node in G.nodes():
+        node_data = G.nodes[node]
+        node_class = node_data.get('class', '') or ''
+        
+        if 'heatchill' in node_class.lower() or 'virtual_heatchill' in node_class:
+            heatchill_nodes.append(node)
+            debug_print(f"🎉 找到加热设备: {node}")
+    
+    # 🔗 检查连接
+    if vessel and heatchill_nodes:
+        for heatchill in heatchill_nodes:
+            if G.has_edge(heatchill, vessel) or G.has_edge(vessel, heatchill):
+                debug_print(f"✅ 加热设备 '{heatchill}' 与容器 '{vessel}' 相连")
+                return heatchill
+    
+    # 🎯 使用第一个可用设备
+    if heatchill_nodes:
+        selected = heatchill_nodes[0]
+        debug_print(f"🔧 使用第一个加热设备: {selected}")
+        return selected
+    
+    # 🆘 默认设备
+    debug_print("⚠️ 未找到加热设备，使用默认设备")
+    return "heatchill_1"

 def validate_and_fix_params(temp: float, time: float, stir_speed: float) -> tuple:
    """验证和修正参数"""
+    # 🌡️ 温度范围验证
    if temp < -50.0 or temp > 300.0:
        debug_print(f"⚠️ 温度 {temp}°C 超出范围，修正为 25°C")
        temp = 25.0
-
+    else:
+        debug_print(f"✅ 温度 {temp}°C 在正常范围内")
+    
+    # ⏰ 时间验证
    if time < 0:
        debug_print(f"⚠️ 时间 {time}s 无效，修正为 300s")
        time = 300.0
-
+    else:
+        debug_print(f"✅ 时间 {time}s ({time/60:.1f}分钟) 有效")
+    
+    # 🌪️ 搅拌速度验证
    if stir_speed < 0 or stir_speed > 1500.0:
        debug_print(f"⚠️ 搅拌速度 {stir_speed} RPM 超出范围，修正为 300 RPM")
        stir_speed = 300.0
-
+    else:
+        debug_print(f"✅ 搅拌速度 {stir_speed} RPM 在正常范围内")
+    
    return temp, time, stir_speed

 def generate_heat_chill_protocol(
@@ -37,7 +131,7 @@ def generate_heat_chill_protocol(
 ) -> List[Dict[str, Any]]:
    """
    生成加热/冷却操作的协议序列 - 支持vessel字典
-
+    
    Args:
        G: 设备图
        vessel: 容器字典（从XDL传入）
@@ -51,58 +145,82 @@ def generate_heat_chill_protocol(
        stir_speed: 搅拌速度 (RPM)
        purpose: 操作目的说明
        **kwargs: 其他参数（兼容性）
-
+    
    Returns:
        List[Dict[str, Any]]: 加热/冷却操作的动作序列
    """
-
+    
    # 🔧 核心修改：从字典中提取容器ID
    vessel_id, vessel_data = get_vessel(vessel)
-
-    debug_print(f"开始生成加热冷却协议: vessel={vessel_id}, temp={temp}°C, "
-                f"time={time}, stir={stir} ({stir_speed} RPM), purpose='{purpose}'")
-
-    # 参数验证
-    if not vessel_id:
+    
+    debug_print("🌡️" * 20)
+    debug_print("🚀 开始生成加热冷却协议（支持vessel字典）✨")
+    debug_print(f"📝 输入参数:")
+    debug_print(f"  🥽 vessel: {vessel} (ID: {vessel_id})")
+    debug_print(f"  🌡️ temp: {temp}°C")
+    debug_print(f"  ⏰ time: {time}")
+    debug_print(f"  🎯 temp_spec: {temp_spec}")
+    debug_print(f"  ⏱️ time_spec: {time_spec}")
+    debug_print(f"  🌪️ stir: {stir} ({stir_speed} RPM)")
+    debug_print(f"  🎭 purpose: '{purpose}'")
+    debug_print("🌡️" * 20)
+    
+    # 📋 参数验证
+    debug_print("📍 步骤1: 参数验证... 🔧")
+    if not vessel_id:  # 🔧 使用 vessel_id
+        debug_print("❌ vessel 参数不能为空! 😱")
        raise ValueError("vessel 参数不能为空")
-
-    if vessel_id not in G.nodes():
+    
+    if vessel_id not in G.nodes():  # 🔧 使用 vessel_id
+        debug_print(f"❌ 容器 '{vessel_id}' 不存在于系统中! 😞")
        raise ValueError(f"容器 '{vessel_id}' 不存在于系统中")
-
-    # 参数解析
-    # 温度解析：优先使用 temp_spec
-    final_temp = parse_temperature_input(temp_spec, temp) if temp_spec else temp
-
+    
+    debug_print("✅ 基础参数验证通过 🎯")
+    
+    # 🔄 参数解析
+    debug_print("📍 步骤2: 参数解析... ⚡")
+    
+    #温度解析：优先使用 temp_spec
+    final_temp = parse_temp_input(temp_spec, temp) if temp_spec else temp
+    
    # 时间解析：优先使用 time_spec
    final_time = parse_time_input(time_spec) if time_spec else parse_time_input(time)
-
+    
    # 参数修正
    final_temp, final_time, stir_speed = validate_and_fix_params(final_temp, final_time, stir_speed)
-
-    debug_print(f"最终参数: temp={final_temp}°C, time={final_time}s, stir_speed={stir_speed} RPM")
-
-    # 查找设备
+    
+    debug_print(f"🎯 最终参数: temp={final_temp}°C, time={final_time}s, stir_speed={stir_speed} RPM")
+    
+    # 🔍 查找设备
+    debug_print("📍 步骤3: 查找加热设备... 🔍")
    try:
-        heatchill_id = find_connected_heatchill(G, vessel_id)
-        debug_print(f"使用加热设备: {heatchill_id}")
+        heatchill_id = find_connected_heatchill(G, vessel_id)  # 🔧 使用 vessel_id
+        debug_print(f"🎉 使用加热设备: {heatchill_id} ✨")
    except Exception as e:
+        debug_print(f"❌ 设备查找失败: {str(e)} 😭")
        raise ValueError(f"无法找到加热设备: {str(e)}")
-
-    # 生成动作
-    # 模拟运行时间优化
+    
+    # 🚀 生成动作
+    debug_print("📍 步骤4: 生成加热动作... 🔥")
+    
+    # 🕐 模拟运行时间优化
+    debug_print("  ⏱️ 检查模拟运行时间限制...")
    original_time = final_time
    simulation_time_limit = 100.0  # 模拟运行时间限制：100秒
-
+    
    if final_time > simulation_time_limit:
        final_time = simulation_time_limit
-        debug_print(f"模拟运行优化: {original_time}s → {final_time}s (限制为{simulation_time_limit}s)")
-
+        debug_print(f"  🎮 模拟运行优化: {original_time}s → {final_time}s (限制为{simulation_time_limit}s) ⚡")
+        debug_print(f"  📊 时间缩短: {original_time/60:.1f}分钟 → {final_time/60:.1f}分钟 🚀")
+    else:
+        debug_print(f"  ✅ 时间在限制内: {final_time}s ({final_time/60:.1f}分钟) 保持不变 🎯")
+    
    action_sequence = []
    heatchill_action = {
        "device_id": heatchill_id,
        "action_name": "heat_chill",
        "action_kwargs": {
-            "vessel": {"id": vessel_id},
+            "vessel": {"id": vessel},
            "temp": float(final_temp),
            "time": float(final_time),
            "stir": bool(stir),
@@ -111,10 +229,21 @@ def generate_heat_chill_protocol(
        }
    }
    action_sequence.append(heatchill_action)
-
-    debug_print(f"加热冷却协议生成完成: {len(action_sequence)} 个动作, "
-                f"vessel={vessel_id}, temp={final_temp}°C, time={final_time}s")
-
+    debug_print("✅ 加热动作已添加 🔥✨")
+    
+    # 显示时间调整信息
+    if original_time != final_time:
+        debug_print(f"  🎭 模拟优化说明: 原计划 {original_time/60:.1f}分钟，实际模拟 {final_time/60:.1f}分钟 ⚡")
+    
+    # 🎊 总结
+    debug_print("🎊" * 20)
+    debug_print(f"🎉 加热冷却协议生成完成! ✨")
+    debug_print(f"📊 总动作数: {len(action_sequence)} 个")
+    debug_print(f"🥽 加热容器: {vessel_id}")
+    debug_print(f"🌡️ 目标温度: {final_temp}°C")
+    debug_print(f"⏰ 加热时间: {final_time}s ({final_time/60:.1f}分钟)")
+    debug_print("🎊" * 20)
+    
    return action_sequence

 def generate_heat_chill_to_temp_protocol(
@@ -126,7 +255,7 @@ def generate_heat_chill_to_temp_protocol(
 ) -> List[Dict[str, Any]]:
    """生成加热到指定温度的协议（简化版）"""
    vessel_id, _ = get_vessel(vessel)
-    debug_print(f"生成加热到温度协议: {vessel_id} → {temp}°C")
+    debug_print(f"🌡️ 生成加热到温度协议: {vessel_id} → {temp}°C")
    return generate_heat_chill_protocol(G, vessel, temp, time, **kwargs)

 def generate_heat_chill_start_protocol(
@@ -137,19 +266,21 @@ def generate_heat_chill_start_protocol(
    **kwargs
 ) -> List[Dict[str, Any]]:
    """生成开始加热操作的协议序列"""
-
+    
    # 🔧 核心修改：从字典中提取容器ID
    vessel_id, _ = get_vessel(vessel)
-
-    debug_print(f"生成启动加热协议: vessel={vessel_id}, temp={temp}°C")
-
+    
+    debug_print("🔥 开始生成启动加热协议 ✨")
+    debug_print(f"🥽 vessel: {vessel} (ID: {vessel_id}), 🌡️ temp: {temp}°C")
+    
    # 基础验证
-    if not vessel_id or vessel_id not in G.nodes():
+    if not vessel_id or vessel_id not in G.nodes():  # 🔧 使用 vessel_id
+        debug_print("❌ 容器验证失败!")
        raise ValueError("vessel 参数无效")
-
+    
    # 查找设备
-    heatchill_id = find_connected_heatchill(G, vessel_id)
-
+    heatchill_id = find_connected_heatchill(G, vessel_id)  # 🔧 使用 vessel_id
+    
    # 生成动作
    action_sequence = [{
        "device_id": heatchill_id,
@@ -160,8 +291,8 @@ def generate_heat_chill_start_protocol(
            "vessel": {"id": vessel_id},
        }
    }]
-
-    debug_print(f"启动加热协议生成完成")
+    
+    debug_print(f"✅ 启动加热协议生成完成 🎯")
    return action_sequence

 def generate_heat_chill_stop_protocol(
@@ -170,19 +301,21 @@ def generate_heat_chill_stop_protocol(
    **kwargs
 ) -> List[Dict[str, Any]]:
    """生成停止加热操作的协议序列"""
-
+    
    # 🔧 核心修改：从字典中提取容器ID
    vessel_id, _ = get_vessel(vessel)
-
-    debug_print(f"生成停止加热协议: vessel={vessel_id}")
-
+    
+    debug_print("🛑 开始生成停止加热协议 ✨")
+    debug_print(f"🥽 vessel: {vessel} (ID: {vessel_id})")
+    
    # 基础验证
-    if not vessel_id or vessel_id not in G.nodes():
+    if not vessel_id or vessel_id not in G.nodes():  # 🔧 使用 vessel_id
+        debug_print("❌ 容器验证失败!")
        raise ValueError("vessel 参数无效")
-
+    
    # 查找设备
-    heatchill_id = find_connected_heatchill(G, vessel_id)
-
+    heatchill_id = find_connected_heatchill(G, vessel_id)  # 🔧 使用 vessel_id
+    
    # 生成动作
    action_sequence = [{
        "device_id": heatchill_id,
@@ -190,6 +323,6 @@ def generate_heat_chill_stop_protocol(
        "action_kwargs": {
        }
    }]
-
-    debug_print(f"停止加热协议生成完成")
+    
+    debug_print(f"✅ 停止加热协议生成完成 🎯")
    return action_sequence
--- a/unilabos/compile/hydrogenate_protocol.py
+++ b/unilabos/compile/hydrogenate_protocol.py
@@ -1,50 +1,105 @@
 import networkx as nx
 from typing import List, Dict, Any, Optional
 from .utils.vessel_parser import get_vessel
-from .utils.logger_util import debug_print
-from .utils.unit_parser import parse_temperature_input, parse_time_input
+
+
+def parse_temperature(temp_str: str) -> float:
+    """
+    解析温度字符串，支持多种格式
+    
+    Args:
+        temp_str: 温度字符串（如 "45 °C", "45°C", "45"）
+    
+    Returns:
+        float: 温度值（摄氏度）
+    """
+    try:
+        # 移除常见的温度单位和符号
+        temp_clean = temp_str.replace("°C", "").replace("°", "").replace("C", "").strip()
+        return float(temp_clean)
+    except ValueError:
+        print(f"HYDROGENATE: 无法解析温度 '{temp_str}'，使用默认温度 25°C")
+        return 25.0
+
+
+def parse_time(time_str: str) -> float:
+    """
+    解析时间字符串，支持多种格式
+    
+    Args:
+        time_str: 时间字符串（如 "2 h", "120 min", "7200 s"）
+    
+    Returns:
+        float: 时间值（秒）
+    """
+    try:
+        time_clean = time_str.lower().strip()
+        
+        # 处理小时
+        if "h" in time_clean:
+            hours = float(time_clean.replace("h", "").strip())
+            return hours * 3600.0
+        
+        # 处理分钟
+        if "min" in time_clean:
+            minutes = float(time_clean.replace("min", "").strip())
+            return minutes * 60.0
+        
+        # 处理秒
+        if "s" in time_clean:
+            seconds = float(time_clean.replace("s", "").strip())
+            return seconds
+        
+        # 默认按小时处理
+        return float(time_clean) * 3600.0
+    
+    except ValueError:
+        print(f"HYDROGENATE: 无法解析时间 '{time_str}'，使用默认时间 2小时")
+        return 7200.0  # 2小时


 def find_associated_solenoid_valve(G: nx.DiGraph, device_id: str) -> Optional[str]:
    """查找与指定设备相关联的电磁阀"""
    solenoid_valves = [
-        node for node in G.nodes()
+        node for node in G.nodes() 
        if ('solenoid' in (G.nodes[node].get('class') or '').lower()
            or 'solenoid_valve' in node)
    ]
-
+    
    # 通过网络连接查找直接相连的电磁阀
    for solenoid in solenoid_valves:
        if G.has_edge(device_id, solenoid) or G.has_edge(solenoid, device_id):
            return solenoid
-
+    
    # 通过命名规则查找关联的电磁阀
    device_type = ""
    if 'gas' in device_id.lower():
        device_type = "gas"
    elif 'h2' in device_id.lower() or 'hydrogen' in device_id.lower():
        device_type = "gas"
-
+    
    if device_type:
        for solenoid in solenoid_valves:
            if device_type in solenoid.lower():
                return solenoid
-
+    
    return None


 def find_connected_device(G: nx.DiGraph, vessel: str, device_type: str) -> str:
    """
    查找与容器相连的指定类型设备
-
+    
    Args:
        G: 网络图
        vessel: 容器名称
        device_type: 设备类型 ('heater', 'stirrer', 'gas_source')
-
+    
    Returns:
        str: 设备ID，如果没有则返回None
    """
+    print(f"HYDROGENATE: 正在查找与容器 '{vessel}' 相连的 {device_type}...")
+    
    # 根据设备类型定义搜索关键词
    if device_type == 'heater':
        keywords = ['heater', 'heat', 'heatchill']
@@ -57,38 +112,40 @@ def find_connected_device(G: nx.DiGraph, vessel: str, device_type: str) -> str:
        device_class = 'virtual_gas_source'
    else:
        return None
-
+    
    # 查找设备节点
    device_nodes = []
    for node in G.nodes():
        node_data = G.nodes[node]
        node_name = node.lower()
        node_class = node_data.get('class', '').lower()
-
+        
+        # 通过名称匹配
        if any(keyword in node_name for keyword in keywords):
            device_nodes.append(node)
+        # 通过类型匹配
        elif device_class in node_class:
            device_nodes.append(node)
-
-    debug_print(f"找到的{device_type}节点: {device_nodes}")
-
+    
+    print(f"HYDROGENATE: 找到的{device_type}节点: {device_nodes}")
+    
    # 检查是否有设备与目标容器相连
    for device in device_nodes:
        if G.has_edge(device, vessel) or G.has_edge(vessel, device):
-            debug_print(f"找到与容器 '{vessel}' 相连的{device_type}: {device}")
+            print(f"HYDROGENATE: 找到与容器 '{vessel}' 相连的{device_type}: {device}")
            return device
-
+    
    # 如果没有直接连接，查找距离最近的设备
    for device in device_nodes:
        try:
            path = nx.shortest_path(G, source=device, target=vessel)
            if len(path) <= 3:  # 最多2个中间节点
-                debug_print(f"找到距离较近的{device_type}: {device}")
+                print(f"HYDROGENATE: 找到距离较近的{device_type}: {device}")
                return device
        except nx.NetworkXNoPath:
            continue
-
-    debug_print(f"未找到与容器 '{vessel}' 相连的{device_type}")
+    
+    print(f"HYDROGENATE: 未找到与容器 '{vessel}' 相连的{device_type}")
    return None


@@ -101,31 +158,36 @@ def generate_hydrogenate_protocol(
 ) -> List[Dict[str, Any]]:
    """
    生成氢化反应协议序列 - 支持vessel字典
-
+    
    Args:
        G: 有向图，节点为容器和设备
        vessel: 反应容器字典（从XDL传入）
        temp: 反应温度（如 "45 °C"）
        time: 反应时间（如 "2 h"）
        **kwargs: 其他可选参数，但不使用
-
+    
    Returns:
        List[Dict[str, Any]]: 动作序列
    """
-
+    
    # 🔧 核心修改：从字典中提取容器ID
    vessel_id, vessel_data = get_vessel(vessel)
-
+    
    action_sequence = []
-
+    
    # 解析参数
-    temperature = parse_temperature_input(temp)
-    reaction_time = parse_time_input(time)
-
-    debug_print(f"开始生成氢化反应协议: vessel={vessel_id}, "
-                f"temp={temperature}°C, time={reaction_time/3600:.1f}h")
-
-    # 记录氢化前的容器状态
+    temperature = parse_temperature(temp)
+    reaction_time = parse_time(time)
+    
+    print("🧪" * 20)
+    print(f"HYDROGENATE: 开始生成氢化反应协议（支持vessel字典）✨")
+    print(f"📝 输入参数:")
+    print(f"  🥽 vessel: {vessel} (ID: {vessel_id})")
+    print(f"  🌡️ 反应温度: {temperature}°C")
+    print(f"  ⏰ 反应时间: {reaction_time/3600:.1f} 小时")
+    print("🧪" * 20)
+    
+    # 🔧 新增：记录氢化前的容器状态（可选，氢化反应通常不改变体积）
    original_liquid_volume = 0.0
    if "data" in vessel and "liquid_volume" in vessel["data"]:
        current_volume = vessel["data"]["liquid_volume"]
@@ -133,36 +195,47 @@ def generate_hydrogenate_protocol(
            original_liquid_volume = current_volume[0]
        elif isinstance(current_volume, (int, float)):
            original_liquid_volume = current_volume
-
+    print(f"📊 氢化前液体体积: {original_liquid_volume:.2f}mL")
+    
    # 1. 验证目标容器存在
-    if vessel_id not in G.nodes():
-        debug_print(f"⚠️ 容器 '{vessel_id}' 不存在于系统中，跳过氢化反应")
+    print("📍 步骤1: 验证目标容器...")
+    if vessel_id not in G.nodes():  # 🔧 使用 vessel_id
+        print(f"⚠️ HYDROGENATE: 警告 - 容器 '{vessel_id}' 不存在于系统中，跳过氢化反应")
        return action_sequence
-
+    print(f"✅ 容器 '{vessel_id}' 验证通过")
+    
    # 2. 查找相连的设备
-    heater_id = find_connected_device(G, vessel_id, 'heater')
-    stirrer_id = find_connected_device(G, vessel_id, 'stirrer')
-    gas_source_id = find_connected_device(G, vessel_id, 'gas_source')
-
-    debug_print(f"设备配置: heater={heater_id or '未找到'}, "
-                f"stirrer={stirrer_id or '未找到'}, gas={gas_source_id or '未找到'}")
-
+    print("📍 步骤2: 查找相连设备...")
+    heater_id = find_connected_device(G, vessel_id, 'heater')  # 🔧 使用 vessel_id
+    stirrer_id = find_connected_device(G, vessel_id, 'stirrer')  # 🔧 使用 vessel_id
+    gas_source_id = find_connected_device(G, vessel_id, 'gas_source')  # 🔧 使用 vessel_id
+    
+    print(f"🔧 设备配置:")
+    print(f"  🔥 加热器: {heater_id or '未找到'}")
+    print(f"  🌪️ 搅拌器: {stirrer_id or '未找到'}")
+    print(f"  💨 气源: {gas_source_id or '未找到'}")
+    
    # 3. 启动搅拌器
+    print("📍 步骤3: 启动搅拌器...")
    if stirrer_id:
+        print(f"🌪️ 启动搅拌器 {stirrer_id}")
        action_sequence.append({
            "device_id": stirrer_id,
            "action_name": "start_stir",
            "action_kwargs": {
-                "vessel": {"id": vessel_id},
+                "vessel": vessel_id,  # 🔧 使用 vessel_id
                "stir_speed": 300.0,
                "purpose": "氢化反应: 开始搅拌"
            }
        })
+        print("✅ 搅拌器启动动作已添加")
    else:
-        debug_print(f"⚠️ 未找到搅拌器，继续执行")
-
+        print(f"⚠️ HYDROGENATE: 警告 - 未找到搅拌器，继续执行")
+    
    # 4. 启动气源（氢气）
+    print("📍 步骤4: 启动氢气源...")
    if gas_source_id:
+        print(f"💨 启动气源 {gas_source_id} (氢气)")
        action_sequence.append({
            "device_id": gas_source_id,
            "action_name": "set_status",
@@ -170,10 +243,11 @@ def generate_hydrogenate_protocol(
                "string": "ON"
            }
        })
-
+        
        # 查找相关的电磁阀
        gas_solenoid = find_associated_solenoid_valve(G, gas_source_id)
        if gas_solenoid:
+            print(f"🚪 开启气源电磁阀 {gas_solenoid}")
            action_sequence.append({
                "device_id": gas_solenoid,
                "action_name": "set_valve_position",
@@ -181,10 +255,12 @@ def generate_hydrogenate_protocol(
                    "command": "OPEN"
                }
            })
+        print("✅ 氢气源启动动作已添加")
    else:
-        debug_print(f"⚠️ 未找到气源，继续执行")
-
+        print(f"⚠️ HYDROGENATE: 警告 - 未找到气源，继续执行")
+    
    # 5. 等待气体稳定
+    print("📍 步骤5: 等待气体环境稳定...")
    action_sequence.append({
        "action_name": "wait",
        "action_kwargs": {
@@ -192,19 +268,22 @@ def generate_hydrogenate_protocol(
            "description": "等待氢气环境稳定"
        }
    })
-
+    print("✅ 气体稳定等待动作已添加")
+    
    # 6. 启动加热器
+    print("📍 步骤6: 启动加热反应...")
    if heater_id:
+        print(f"🔥 启动加热器 {heater_id} 到 {temperature}°C")
        action_sequence.append({
            "device_id": heater_id,
            "action_name": "heat_chill_start",
            "action_kwargs": {
-                "vessel": {"id": vessel_id},
+                "vessel": vessel_id,  # 🔧 使用 vessel_id
                "temp": temperature,
                "purpose": f"氢化反应: 加热到 {temperature}°C"
            }
        })
-
+        
        # 等待温度稳定
        action_sequence.append({
            "action_name": "wait",
@@ -213,38 +292,52 @@ def generate_hydrogenate_protocol(
                "description": f"等待温度稳定到 {temperature}°C"
            }
        })
-
-        # 模拟运行时间优化
+        
+        # 🕐 模拟运行时间优化
+        print("  ⏰ 检查模拟运行时间限制...")
        original_reaction_time = reaction_time
-        simulation_time_limit = 60.0
-
+        simulation_time_limit = 60.0  # 模拟运行时间限制：60秒
+        
        if reaction_time > simulation_time_limit:
            reaction_time = simulation_time_limit
-            debug_print(f"模拟运行优化: {original_reaction_time}s → {reaction_time}s")
-
+            print(f"  🎮 模拟运行优化: {original_reaction_time}s → {reaction_time}s (限制为{simulation_time_limit}s)")
+            print(f"  📊 时间缩短: {original_reaction_time/3600:.2f}小时 → {reaction_time/60:.1f}分钟")
+        else:
+            print(f"  ✅ 时间在限制内: {reaction_time}s ({reaction_time/60:.1f}分钟) 保持不变")
+        
        # 保持反应温度
        action_sequence.append({
            "device_id": heater_id,
            "action_name": "heat_chill",
            "action_kwargs": {
-                "vessel": {"id": vessel_id},
+                "vessel": vessel_id,  # 🔧 使用 vessel_id
                "temp": temperature,
                "time": reaction_time,
                "purpose": f"氢化反应: 保持 {temperature}°C，反应 {reaction_time/60:.1f}分钟" + (f" (模拟时间)" if original_reaction_time != reaction_time else "")
            }
        })
-
+        
+        # 显示时间调整信息
+        if original_reaction_time != reaction_time:
+            print(f"  🎭 模拟优化说明: 原计划 {original_reaction_time/3600:.2f}小时，实际模拟 {reaction_time/60:.1f}分钟")
+        
+        print("✅ 加热反应动作已添加")
+            
    else:
-        debug_print(f"⚠️ 未找到加热器，使用室温反应")
-
-        # 室温反应也需要时间优化
+        print(f"⚠️ HYDROGENATE: 警告 - 未找到加热器，使用室温反应")
+        
+        # 🕐 室温反应也需要时间优化
+        print("  ⏰ 检查室温反应模拟时间限制...")
        original_reaction_time = reaction_time
-        simulation_time_limit = 60.0
-
+        simulation_time_limit = 60.0  # 模拟运行时间限制：60秒
+        
        if reaction_time > simulation_time_limit:
            reaction_time = simulation_time_limit
-            debug_print(f"室温反应时间优化: {original_reaction_time}s → {reaction_time}s")
-
+            print(f"  🎮 室温反应时间优化: {original_reaction_time}s → {reaction_time}s")
+            print(f"  📊 时间缩短: {original_reaction_time/3600:.2f}小时 → {reaction_time/60:.1f}分钟")
+        else:
+            print(f"  ✅ 室温反应时间在限制内: {reaction_time}s 保持不变")
+        
        # 室温反应，只等待时间
        action_sequence.append({
            "action_name": "wait",
@@ -253,19 +346,28 @@ def generate_hydrogenate_protocol(
                "description": f"室温氢化反应 {reaction_time/60:.1f}分钟" + (f" (模拟时间)" if original_reaction_time != reaction_time else "")
            }
        })
-
+        
+        # 显示时间调整信息
+        if original_reaction_time != reaction_time:
+            print(f"  🎭 室温反应优化说明: 原计划 {original_reaction_time/3600:.2f}小时，实际模拟 {reaction_time/60:.1f}分钟")
+        
+        print("✅ 室温反应等待动作已添加")
+    
    # 7. 停止加热
+    print("📍 步骤7: 停止加热...")
    if heater_id:
        action_sequence.append({
            "device_id": heater_id,
            "action_name": "heat_chill_stop",
            "action_kwargs": {
-                "vessel": {"id": vessel_id},
+                "vessel": vessel_id,  # 🔧 使用 vessel_id
                "purpose": "氢化反应完成，停止加热"
            }
        })
-
+        print("✅ 停止加热动作已添加")
+    
    # 8. 等待冷却
+    print("📍 步骤8: 等待冷却...")
    action_sequence.append({
        "action_name": "wait",
        "action_kwargs": {
@@ -273,12 +375,15 @@ def generate_hydrogenate_protocol(
            "description": "等待反应混合物冷却"
        }
    })
-
+    print("✅ 冷却等待动作已添加")
+    
    # 9. 停止气源
+    print("📍 步骤9: 停止氢气源...")
    if gas_source_id:
        # 先关闭电磁阀
        gas_solenoid = find_associated_solenoid_valve(G, gas_source_id)
        if gas_solenoid:
+            print(f"🚪 关闭气源电磁阀 {gas_solenoid}")
            action_sequence.append({
                "device_id": gas_solenoid,
                "action_name": "set_valve_position",
@@ -286,7 +391,7 @@ def generate_hydrogenate_protocol(
                    "command": "CLOSED"
                }
            })
-
+        
        # 再关闭气源
        action_sequence.append({
            "device_id": gas_source_id,
@@ -295,24 +400,59 @@ def generate_hydrogenate_protocol(
                "string": "OFF"
            }
        })
-
+        print("✅ 氢气源停止动作已添加")
+    
    # 10. 停止搅拌
+    print("📍 步骤10: 停止搅拌...")
    if stirrer_id:
        action_sequence.append({
            "device_id": stirrer_id,
            "action_name": "stop_stir",
            "action_kwargs": {
-                "vessel": {"id": vessel_id},
+                "vessel": vessel_id,  # 🔧 使用 vessel_id
                "purpose": "氢化反应完成，停止搅拌"
            }
        })
-
-    # 氢化完成后的状态（氢化反应通常不改变体积）
-    final_liquid_volume = original_liquid_volume
-
+        print("✅ 停止搅拌动作已添加")
+    
+    # 🔧 新增：氢化完成后的状态（氢化反应通常不改变体积）
+    final_liquid_volume = original_liquid_volume  # 氢化反应体积基本不变
+    
    # 总结
-    debug_print(f"氢化反应协议生成完成: {len(action_sequence)} 个动作, "
-                f"vessel={vessel_id}, temp={temperature}°C, time={reaction_time/60:.1f}min, "
-                f"volume={original_liquid_volume:.2f}→{final_liquid_volume:.2f}mL")
-
+    print("🎊" * 20)
+    print(f"🎉 氢化反应协议生成完成! ✨")
+    print(f"📊 总动作数: {len(action_sequence)} 个")
+    print(f"🥽 反应容器: {vessel_id}")
+    print(f"🌡️ 反应温度: {temperature}°C")
+    print(f"⏰ 反应时间: {reaction_time/60:.1f}分钟")
+    print(f"⏱️ 预计总时间: {(reaction_time + 450)/3600:.1f} 小时")
+    print(f"📊 体积状态:")
+    print(f"  - 反应前体积: {original_liquid_volume:.2f}mL")
+    print(f"  - 反应后体积: {final_liquid_volume:.2f}mL (氢化反应体积基本不变)")
+    print("🎊" * 20)
+    
    return action_sequence
+
+
+# 测试函数
+def test_hydrogenate_protocol():
+    """测试氢化反应协议"""
+    print("🧪 === HYDROGENATE PROTOCOL 测试 === ✨")
+    
+    # 测试温度解析
+    test_temps = ["45 °C", "45°C", "45", "25 C", "invalid"]
+    for temp in test_temps:
+        parsed = parse_temperature(temp)
+        print(f"温度 '{temp}' -> {parsed}°C")
+    
+    # 测试时间解析
+    test_times = ["2 h", "120 min", "7200 s", "2", "invalid"]
+    for time in test_times:
+        parsed = parse_time(time)
+        print(f"时间 '{time}' -> {parsed/3600:.1f} 小时")
+    
+    print("✅ 测试完成 🎉")
+
+
+if __name__ == "__main__":
+    test_hydrogenate_protocol()
--- a/unilabos/compile/pump_protocol.py
+++ b/unilabos/compile/pump_protocol.py
@@ -2,18 +2,99 @@ import traceback
 import numpy as np
 import networkx as nx
 import asyncio
-import time as time_module  # 重命名time模块
+import time as time_module  # 🔧 重命名time模块
 from typing import List, Dict, Any
 import logging
 import sys

-from .utils.logger_util import debug_print
-from .utils.vessel_parser import get_vessel
-from .utils.resource_helper import get_resource_liquid_volume
+from unilabos.compile.utils.vessel_parser import get_vessel

 logger = logging.getLogger(__name__)


+def debug_print(message):
+    """强制输出调试信息"""
+    output = f"[TRANSFER] {message}"
+    logger.info(output)
+
+
+def get_vessel_liquid_volume(G: nx.DiGraph, vessel: str) -> float:
+    """
+    从容器节点的数据中获取液体体积
+    """
+    debug_print(f"🔍 开始读取容器 '{vessel}' 的液体体积...")
+
+    if vessel not in G.nodes():
+        logger.error(f"❌ 容器 '{vessel}' 不存在于系统图中")
+        debug_print(f"  - 系统中的容器: {list(G.nodes())}")
+        return 0.0
+
+    vessel_data = G.nodes[vessel].get('data', {})
+    debug_print(f"📋 容器 '{vessel}' 的数据结构: {vessel_data}")
+
+    total_volume = 0.0
+
+    # 方法1：检查 'liquid' 字段（列表格式）
+    debug_print("🔍 方法1: 检查 'liquid' 字段...")
+    if 'liquid' in vessel_data:
+        liquids = vessel_data['liquid']
+        debug_print(f"  - liquid 字段类型: {type(liquids)}")
+        debug_print(f"  - liquid 字段内容: {liquids}")
+
+        if isinstance(liquids, list):
+            debug_print(f"  - liquid 是列表，包含 {len(liquids)} 个元素")
+            for i, liquid in enumerate(liquids):
+                debug_print(f"    液体 {i + 1}: {liquid}")
+                if isinstance(liquid, dict):
+                    volume_keys = ['liquid_volume', 'volume', 'amount', 'quantity']
+                    for key in volume_keys:
+                        if key in liquid:
+                            try:
+                                vol = float(liquid[key])
+                                total_volume += vol
+                                debug_print(f"    ✅ 从 '{key}' 读取体积: {vol}mL")
+                                break
+                            except (ValueError, TypeError) as e:
+                                logger.warning(f"    ⚠️ 无法转换 '{key}': {liquid[key]} -> {str(e)}")
+                                continue
+        else:
+            debug_print(f"  - liquid 不是列表: {type(liquids)}")
+    else:
+        debug_print("  - 没有 'liquid' 字段")
+
+    # 方法2：检查直接的体积字段
+    debug_print("🔍 方法2: 检查直接体积字段...")
+    volume_keys = ['total_volume', 'volume', 'liquid_volume', 'amount', 'current_volume']
+    for key in volume_keys:
+        if key in vessel_data:
+            try:
+                vol = float(vessel_data[key])
+                total_volume = max(total_volume, vol)  # 取最大值
+                debug_print(f"  ✅ 从容器数据 '{key}' 读取体积: {vol}mL")
+                break
+            except (ValueError, TypeError) as e:
+                logger.warning(f"  ⚠️ 无法转换 '{key}': {vessel_data[key]} -> {str(e)}")
+                continue
+
+    # 方法3：检查 'state' 或 'status' 字段
+    debug_print("🔍 方法3: 检查 'state' 字段...")
+    if 'state' in vessel_data and isinstance(vessel_data['state'], dict):
+        state = vessel_data['state']
+        debug_print(f"  - state 字段内容: {state}")
+        if 'volume' in state:
+            try:
+                vol = float(state['volume'])
+                total_volume = max(total_volume, vol)
+                debug_print(f"  ✅ 从容器状态读取体积: {vol}mL")
+            except (ValueError, TypeError) as e:
+                logger.warning(f"  ⚠️ 无法转换 state.volume: {state['volume']} -> {str(e)}")
+    else:
+        debug_print("  - 没有 'state' 字段或不是字典")
+
+    debug_print(f"📊 容器 '{vessel}' 最终检测体积: {total_volume}mL")
+    return total_volume
+
+
 def is_integrated_pump(node_class: str, node_name: str = "") -> bool:
    """
    判断是否为泵阀一体设备
@@ -41,77 +122,108 @@ def is_integrated_pump(node_class: str, node_name: str = "") -> bool:

 def find_connected_pump(G, valve_node):
    """
-    查找与阀门相连的泵节点
-    区分电磁阀和多通阀，电磁阀不参与泵查找
+    查找与阀门相连的泵节点 - 修复版本
+    🔧 修复：区分电磁阀和多通阀，电磁阀不参与泵查找
    """
-    # 检查节点类型，电磁阀不应该查找泵
+    debug_print(f"🔍 查找与阀门 {valve_node} 相连的泵...")
+
+    # 🔧 关键修复：检查节点类型，电磁阀不应该查找泵
    node_data = G.nodes.get(valve_node, {})
    node_class = node_data.get("class", "") or ""

+    debug_print(f"  - 阀门类型: {node_class}")
+
    # 如果是电磁阀，不应该查找泵（电磁阀只是开关）
    if ("solenoid" in node_class.lower() or "solenoid_valve" in valve_node.lower()):
+        debug_print(f"  ⚠️ {valve_node} 是电磁阀，不应该查找泵节点")
        raise ValueError(f"电磁阀 {valve_node} 不应该参与泵查找逻辑")

    # 只有多通阀等复杂阀门才需要查找连接的泵
    if ("multiway" in node_class.lower() or "valve" in node_class.lower()):
+        debug_print(f"  - {valve_node} 是多通阀，查找连接的泵...")
        # 方法1：直接相邻的泵
        for neighbor in G.neighbors(valve_node):
            neighbor_class = G.nodes[neighbor].get("class", "") or ""
+            # 排除非 电磁阀 和 泵 的邻居
+            debug_print(f"    - 检查邻居 {neighbor}, class: {neighbor_class}")
            if "pump" in neighbor_class.lower():
+                debug_print(f"    ✅ 找到直接相连的泵: {neighbor}")
                return neighbor

        # 方法2：通过路径查找泵（最多2跳）
-        pump_nodes = [
-            node_id for node_id in G.nodes()
-            if "pump" in (G.nodes[node_id].get("class", "") or "").lower()
-        ]
+        debug_print(f"    - 未找到直接相连的泵，尝试路径查找...")

+        # 获取所有泵节点
+        pump_nodes = []
+        for node_id in G.nodes():
+            node_class = G.nodes[node_id].get("class", "") or ""
+            if "pump" in node_class.lower():
+                pump_nodes.append(node_id)
+
+        debug_print(f"    - 系统中的泵节点: {pump_nodes}")
+
+        # 查找到泵的最短路径
        for pump_node in pump_nodes:
            try:
                if nx.has_path(G, valve_node, pump_node):
                    path = nx.shortest_path(G, valve_node, pump_node)
-                    if len(path) - 1 <= 2:  # 最多允许2跳
+                    path_length = len(path) - 1
+                    debug_print(f"    - 到泵 {pump_node} 的路径: {path}, 距离: {path_length}")
+
+                    if path_length <= 2:  # 最多允许2跳
+                        debug_print(f"    ✅ 通过路径找到泵: {pump_node}")
                        return pump_node
            except nx.NetworkXNoPath:
                continue

+    # 最终失败
+    debug_print(f"  ❌ 完全找不到泵节点")
    raise ValueError(f"未找到与阀 {valve_node} 相连的泵节点")


 def build_pump_valve_maps(G, pump_backbone):
    """
-    构建泵-阀门映射
-    过滤掉电磁阀，只处理需要泵的多通阀
+    构建泵-阀门映射 - 修复版本
+    🔧 修复：过滤掉电磁阀，只处理需要泵的多通阀
    """
    pumps_from_node = {}
    valve_from_node = {}

-    # 过滤掉电磁阀
+    debug_print(f"🔧 构建泵-阀门映射，原始骨架: {pump_backbone}")
+
+    # 🔧 关键修复：过滤掉电磁阀
    filtered_backbone = []
    for node in pump_backbone:
        node_data = G.nodes.get(node, {})
        node_class = node_data.get("class", "") or ""

+        # 跳过电磁阀
        if ("solenoid" in node_class.lower() or "solenoid_valve" in node.lower()):
+            debug_print(f"  - 跳过电磁阀: {node}")
            continue

        filtered_backbone.append(node)

+    debug_print(f"🔧 过滤后的骨架: {filtered_backbone}")
+
    for node in filtered_backbone:
        node_data = G.nodes.get(node, {})
        node_class = node_data.get("class", "") or ""
        if is_integrated_pump(node_class, node):
            pumps_from_node[node] = node
            valve_from_node[node] = node
+            debug_print(f"  - 集成泵-阀: {node}")
        else:
            try:
                pump_node = find_connected_pump(G, node)
                pumps_from_node[node] = pump_node
                valve_from_node[node] = node
-            except ValueError:
+                debug_print(f"  - 阀门 {node} -> 泵 {pump_node}")
+            except ValueError as e:
+                debug_print(f"  - 跳过节点 {node}: {str(e)}")
                continue

-    debug_print(f"泵-阀映射: pumps={pumps_from_node}, valves={valve_from_node}")
+    debug_print(f"🔧 最终映射: pumps={pumps_from_node}, valves={valve_from_node}")
    return pumps_from_node, valve_from_node


@@ -124,8 +236,8 @@ def generate_pump_protocol(
        transfer_flowrate: float = 0.5,
 ) -> List[Dict[str, Any]]:
    """
-    生成泵操作的动作序列
-    正确处理包含电磁阀的路径
+    生成泵操作的动作序列 - 修复版本
+    🔧 修复：正确处理包含电磁阀的路径
    """
    pump_action_sequence = []
    nodes = G.nodes(data=True)
@@ -144,6 +256,7 @@ def generate_pump_protocol(
        logger.warning(f"transfer_flowrate <= 0，使用默认值 {transfer_flowrate}mL/s")

    # 验证容器存在
+    debug_print(f"🔍 验证源容器 '{from_vessel_id}' 和目标容器 '{to_vessel_id}' 是否存在...")
    if from_vessel_id not in G.nodes():
        logger.error(f"源容器 '{from_vessel_id}' 不存在")
        return pump_action_sequence
@@ -159,24 +272,28 @@ def generate_pump_protocol(
        logger.error(f"无法找到从 '{from_vessel_id}' 到 '{to_vessel_id}' 的路径")
        return pump_action_sequence

-    # 正确构建泵骨架，排除容器和电磁阀
+    # 🔧 关键修复：正确构建泵骨架，排除容器和电磁阀
    pump_backbone = []
    for node in shortest_path:
+        # 跳过起始和结束容器
        if node == from_vessel_id or node == to_vessel_id:
            continue

+        # 跳过电磁阀（电磁阀不参与泵操作）
        node_data = G.nodes.get(node, {})
        node_class = node_data.get("class", "") or ""
        if ("solenoid" in node_class.lower() or "solenoid_valve" in node.lower()):
+            debug_print(f"PUMP_TRANSFER: 跳过电磁阀 {node}")
            continue

+        # 只包含多通阀和泵
        if ("multiway" in node_class.lower() or "valve" in node_class.lower() or "pump" in node_class.lower()):
            pump_backbone.append(node)

-    debug_print(f"PUMP_TRANSFER: 泵骨架: {pump_backbone}")
+    debug_print(f"PUMP_TRANSFER: 过滤后的泵骨架: {pump_backbone}")

    if not pump_backbone:
-        debug_print("PUMP_TRANSFER: 没有泵骨架节点")
+        debug_print("PUMP_TRANSFER: 没有泵骨架节点，可能是直接容器连接或只有电磁阀")
        return pump_action_sequence

    if transfer_flowrate == 0:
@@ -192,7 +309,7 @@ def generate_pump_protocol(
        debug_print("PUMP_TRANSFER: 没有可用的泵映射")
        return pump_action_sequence

-    # 安全地获取最小转移体积
+    # 🔧 修复：安全地获取最小转移体积
    try:
        min_transfer_volumes = []
        for node in pump_backbone:
@@ -222,19 +339,19 @@ def generate_pump_protocol(
    volume_left = volume
    debug_print(f"PUMP_TRANSFER: 需要 {repeats} 次转移，单次最大体积 {min_transfer_volume} mL")

-    # 只在开头打印总体概览
+    # 🆕 只在开头打印总体概览
    if repeats > 1:
-        debug_print(f"分批转移: 总体积 {volume:.2f}mL, {repeats} 次, 单次最大 {min_transfer_volume} mL")
-        logger.info(f"分批转移: 总体积 {volume:.2f}mL, {repeats} 次转移")
+        debug_print(f"🔄 分批转移概览: 总体积 {volume:.2f}mL，需要 {repeats} 次转移")
+        logger.info(f"🔄 分批转移概览: 总体积 {volume:.2f}mL，需要 {repeats} 次转移")

-    # 创建一个自定义的wait动作，用于在执行时打印日志
+    # 🔧 创建一个自定义的wait动作，用于在执行时打印日志
    def create_progress_log_action(message: str) -> Dict[str, Any]:
        """创建一个特殊的等待动作，在执行时打印进度日志"""
        return {
            "action_name": "wait",
            "action_kwargs": {
-                "time": 0.1,
-                "progress_message": message
+                "time": 0.1,  # 很短的等待时间
+                "progress_message": message  # 自定义字段，用于进度日志
            }
        }

@@ -242,12 +359,12 @@ def generate_pump_protocol(
    for i in range(repeats):
        current_volume = min(volume_left, min_transfer_volume)

+        # 🆕 在每次循环开始时添加进度日志
        if repeats > 1:
-            pump_action_sequence.append(create_progress_log_action(
-                f"第 {i + 1}/{repeats} 次转移: {current_volume:.2f}mL ({from_vessel_id} -> {to_vessel_id})"
-            ))
+            start_message = f"🚀 准备开始第 {i + 1}/{repeats} 次转移: {current_volume:.2f}mL ({from_vessel_id} → {to_vessel_id}) 🚰"
+            pump_action_sequence.append(create_progress_log_action(start_message))

-        # 安全地获取边数据
+        # 🔧 修复：安全地获取边数据
        def get_safe_edge_data(node_a, node_b, key):
            try:
                edge_data = G.get_edge_data(node_a, node_b)
@@ -350,13 +467,13 @@ def generate_pump_protocol(
                ])
                pump_action_sequence.append({"action_name": "wait", "action_kwargs": {"time": 3}})

-        # 在每次循环结束时添加完成日志
+        # 🆕 在每次循环结束时添加完成日志
        if repeats > 1:
            remaining_volume = volume_left - current_volume
            if remaining_volume > 0:
-                end_message = f"第 {i + 1}/{repeats} 次完成, 剩余 {remaining_volume:.2f}mL"
+                end_message = f"✅ 第 {i + 1}/{repeats} 次转移完成! 剩余 {remaining_volume:.2f}mL 待转移 ⏳"
            else:
-                end_message = f"第 {i + 1}/{repeats} 次完成, 全部 {volume:.2f}mL 转移完毕"
+                end_message = f"🎉 第 {i + 1}/{repeats} 次转移完成! 全部 {volume:.2f}mL 转移完毕 ✨"

            pump_action_sequence.append(create_progress_log_action(end_message))

@@ -398,205 +515,300 @@ def generate_pump_protocol_with_rinsing(
    to_vessel_id, _ = get_vessel(to_vessel)

    with generate_pump_protocol_with_rinsing._lock:
-        debug_print(f"PUMP_TRANSFER: {from_vessel_id} -> {to_vessel_id}, volume={volume}, flowrate={flowrate}")
+        debug_print("=" * 60)
+        debug_print(f"PUMP_TRANSFER: 🚀 开始生成协议 (同步版本)")
+        debug_print(f"  📍 路径: {from_vessel_id} -> {to_vessel_id}")
+        debug_print(f"  🕐 时间戳: {time_module.time()}")
+        debug_print(f"  🔒 获得执行锁")
+        debug_print("=" * 60)

        # 短暂延迟，避免快速重复调用
        time_module.sleep(0.01)

+        debug_print("🔍 步骤1: 开始体积处理...")
+
        # 1. 处理体积参数
        final_volume = volume
+        debug_print(f"📋 初始设置: final_volume = {final_volume}")

-        # 如果volume为0，从容器读取实际体积
+        # 🔧 修复：如果volume为0（ROS2传入的空值），从容器读取实际体积
        if volume == 0.0:
+            debug_print("🎯 检测到 volume=0.0，开始自动体积检测...")

-            actual_volume = get_resource_liquid_volume(G.nodes.get(from_vessel_id, {}))
+            # 直接从源容器读取实际体积
+            actual_volume = get_vessel_liquid_volume(G, from_vessel_id)
+            debug_print(f"📖 从容器 '{from_vessel_id}' 读取到体积: {actual_volume}mL")

            if actual_volume > 0:
                final_volume = actual_volume
+                debug_print(f"✅ 成功设置体积为: {final_volume}mL")
            else:
-                final_volume = 10.0
-                logger.warning(f"无法从容器读取体积，使用默认值: {final_volume}mL")
+                final_volume = 10.0  # 如果读取失败，使用默认值
+                logger.warning(f"⚠️ 无法从容器读取体积，使用默认值: {final_volume}mL")
+        else:
+            debug_print(f"📌 体积非零，直接使用: {final_volume}mL")
+
        # 处理 amount 参数
        if amount and amount.strip():
+            debug_print(f"🔍 检测到 amount 参数: '{amount}'，开始解析...")
            parsed_volume = _parse_amount_to_volume(amount)
+            debug_print(f"📖 从 amount 解析得到体积: {parsed_volume}mL")

            if parsed_volume > 0:
                final_volume = parsed_volume
+                debug_print(f"✅ 使用从 amount 解析的体积: {final_volume}mL")
            elif parsed_volume == 0.0 and amount.lower().strip() == "all":
-                actual_volume = get_resource_liquid_volume(G.nodes.get(from_vessel_id, {}))
+                debug_print("🎯 检测到 amount='all'，从容器读取全部体积...")
+                actual_volume = get_vessel_liquid_volume(G, from_vessel_id)
                if actual_volume > 0:
                    final_volume = actual_volume
+                    debug_print(f"✅ amount='all'，设置体积为: {final_volume}mL")

        # 最终体积验证
+        debug_print(f"🔍 步骤2: 最终体积验证...")
        if final_volume <= 0:
-            logger.error(f"体积无效: {final_volume}mL")
+            logger.error(f"❌ 体积无效: {final_volume}mL")
            final_volume = 10.0
-            logger.warning(f"强制设置为默认值: {final_volume}mL")
+            logger.warning(f"⚠️ 强制设置为默认值: {final_volume}mL")

-        debug_print(f"最终体积: {final_volume}mL")
+        debug_print(f"✅ 最终确定体积: {final_volume}mL")

        # 2. 处理流速参数
+        debug_print(f"🔍 步骤3: 处理流速参数...")
+        debug_print(f"  - 原始 flowrate: {flowrate}")
+        debug_print(f"  - 原始 transfer_flowrate: {transfer_flowrate}")
+
        final_flowrate = flowrate if flowrate > 0 else 2.5
        final_transfer_flowrate = transfer_flowrate if transfer_flowrate > 0 else 0.5

        if flowrate <= 0:
-            logger.warning(f"flowrate <= 0，修正为: {final_flowrate}mL/s")
+            logger.warning(f"⚠️ flowrate <= 0，修正为: {final_flowrate}mL/s")
        if transfer_flowrate <= 0:
-            logger.warning(f"transfer_flowrate <= 0，修正为: {final_transfer_flowrate}mL/s")
+            logger.warning(f"⚠️ transfer_flowrate <= 0，修正为: {final_transfer_flowrate}mL/s")
+
+        debug_print(f"✅ 修正后流速: flowrate={final_flowrate}mL/s, transfer_flowrate={final_transfer_flowrate}mL/s")

        # 3. 根据时间计算流速
        if time > 0 and final_volume > 0:
+            debug_print(f"🔍 步骤4: 根据时间计算流速...")
            calculated_flowrate = final_volume / time
+            debug_print(f"  - 计算得到流速: {calculated_flowrate}mL/s")

            if flowrate <= 0 or flowrate == 2.5:
                final_flowrate = min(calculated_flowrate, 10.0)
+                debug_print(f"  - 调整 flowrate 为: {final_flowrate}mL/s")
            if transfer_flowrate <= 0 or transfer_flowrate == 0.5:
                final_transfer_flowrate = min(calculated_flowrate, 5.0)
+                debug_print(f"  - 调整 transfer_flowrate 为: {final_transfer_flowrate}mL/s")

        # 4. 根据速度规格调整
        if rate_spec:
+            debug_print(f"🔍 步骤5: 根据速度规格调整...")
+            debug_print(f"  - 速度规格: '{rate_spec}'")
+
            if rate_spec == "dropwise":
                final_flowrate = min(final_flowrate, 0.1)
                final_transfer_flowrate = min(final_transfer_flowrate, 0.1)
+                debug_print(f"  - dropwise模式，流速调整为: {final_flowrate}mL/s")
            elif rate_spec == "slowly":
                final_flowrate = min(final_flowrate, 0.5)
                final_transfer_flowrate = min(final_transfer_flowrate, 0.3)
+                debug_print(f"  - slowly模式，流速调整为: {final_flowrate}mL/s")
            elif rate_spec == "quickly":
                final_flowrate = max(final_flowrate, 5.0)
                final_transfer_flowrate = max(final_transfer_flowrate, 2.0)
-            debug_print(f"速度规格 '{rate_spec}': flowrate={final_flowrate}, transfer={final_transfer_flowrate}")
+                debug_print(f"  - quickly模式，流速调整为: {final_flowrate}mL/s")

    # 5. 处理冲洗参数
+    debug_print(f"🔍 步骤6: 处理冲洗参数...")
    final_rinsing_solvent = rinsing_solvent
    final_rinsing_volume = rinsing_volume if rinsing_volume > 0 else 5.0
    final_rinsing_repeats = rinsing_repeats if rinsing_repeats > 0 else 2

    if rinsing_volume <= 0:
-        logger.warning(f"rinsing_volume <= 0，修正为: {final_rinsing_volume}mL")
+        logger.warning(f"⚠️ rinsing_volume <= 0，修正为: {final_rinsing_volume}mL")
    if rinsing_repeats <= 0:
-        logger.warning(f"rinsing_repeats <= 0，修正为: {final_rinsing_repeats}次")
+        logger.warning(f"⚠️ rinsing_repeats <= 0，修正为: {final_rinsing_repeats}次")

    # 根据物理属性调整冲洗参数
    if viscous or solid:
        final_rinsing_repeats = max(final_rinsing_repeats, 3)
        final_rinsing_volume = max(final_rinsing_volume, 10.0)
+        debug_print(f"🧪 粘稠/固体物质，调整冲洗参数：{final_rinsing_repeats}次，{final_rinsing_volume}mL")

    # 参数总结
-    debug_print(f"最终参数: volume={final_volume}mL, flowrate={final_flowrate}mL/s, "
-                f"transfer_flowrate={final_transfer_flowrate}mL/s, "
-                f"rinsing={final_rinsing_solvent}/{final_rinsing_volume}mL/{final_rinsing_repeats}次")
+    debug_print("📊 最终参数总结:")
+    debug_print(f"  - 体积: {final_volume}mL")
+    debug_print(f"  - 流速: {final_flowrate}mL/s")
+    debug_print(f"  - 转移流速: {final_transfer_flowrate}mL/s")
+    debug_print(f"  - 冲洗溶剂: '{final_rinsing_solvent}'")
+    debug_print(f"  - 冲洗体积: {final_rinsing_volume}mL")
+    debug_print(f"  - 冲洗次数: {final_rinsing_repeats}次")
+
+    # ========== 执行基础转移 ==========
+
+    debug_print("🔧 步骤7: 开始执行基础转移...")

-    # 执行基础转移
    try:
+        debug_print(f"  - 调用 generate_pump_protocol...")
+        debug_print(
+            f"  - 参数: G, '{from_vessel_id}', '{to_vessel_id}', {final_volume}, {final_flowrate}, {final_transfer_flowrate}")

        pump_action_sequence = generate_pump_protocol(
            G, from_vessel_id, to_vessel_id, final_volume,
            final_flowrate, final_transfer_flowrate
        )

-        debug_print(f"基础转移生成了 {len(pump_action_sequence)} 个动作")
+        debug_print(f"  - generate_pump_protocol 返回结果:")
+        debug_print(f"    - 动作序列长度: {len(pump_action_sequence)}")
+        debug_print(f"    - 动作序列是否为空: {len(pump_action_sequence) == 0}")

        if not pump_action_sequence:
-            debug_print("基础转移协议为空")
+            debug_print("❌ 基础转移协议生成为空，可能是路径问题")
+            debug_print(f"  - 源容器存在: {from_vessel_id in G.nodes()}")
+            debug_print(f"  - 目标容器存在: {to_vessel_id in G.nodes()}")

            if from_vessel_id in G.nodes() and to_vessel_id in G.nodes():
                try:
                    path = nx.shortest_path(G, source=from_vessel_id, target=to_vessel_id)
-                    debug_print(f"路径存在: {path}")
-                except Exception:
-                    pass
+                    debug_print(f"  - 路径存在: {path}")
+                except Exception as path_error:
+                    debug_print(f"  - 无法找到路径: {str(path_error)}")

            return [
                {
                    "device_id": "system",
                    "action_name": "log_message",
                    "action_kwargs": {
-                        "message": f"路径问题，无法转移: {final_volume}mL 从 {from_vessel_id} 到 {to_vessel_id}"
+                        "message": f"⚠️ 路径问题，无法转移: {final_volume}mL 从 {from_vessel_id} 到 {to_vessel_id}"
                    }
                }
            ]

+        debug_print(f"✅ 基础转移生成了 {len(pump_action_sequence)} 个动作")
+
+        # 打印前几个动作用于调试
+        if len(pump_action_sequence) > 0:
+            debug_print("🔍 前几个动作预览:")
+            for i, action in enumerate(pump_action_sequence[:3]):
+                debug_print(f"  动作 {i + 1}: {action}")
+            if len(pump_action_sequence) > 3:
+                debug_print(f"  ... 还有 {len(pump_action_sequence) - 3} 个动作")
+
    except Exception as e:
-        debug_print(f"基础转移失败: {str(e)}\n{traceback.format_exc()}")
+        debug_print(f"❌ 基础转移失败: {str(e)}")
+        import traceback
+        debug_print(f"详细错误: {traceback.format_exc()}")
        return [
            {
                "device_id": "system",
                "action_name": "log_message",
                "action_kwargs": {
-                    "message": f"转移失败: {final_volume}mL 从 {from_vessel_id} 到 {to_vessel_id}, 错误: {str(e)}"
+                    "message": f"❌ 转移失败: {final_volume}mL 从 {from_vessel_id} 到 {to_vessel_id}, 错误: {str(e)}"
                }
            }
        ]

-    # 执行冲洗操作
+    # ========== 执行冲洗操作 ==========
+
+    debug_print("🔧 步骤8: 检查冲洗操作...")
+
    if final_rinsing_solvent and final_rinsing_solvent.strip() and final_rinsing_repeats > 0:
+        debug_print(f"🧽 开始冲洗操作，溶剂: '{final_rinsing_solvent}'")

        try:
            if final_rinsing_solvent.strip() != "air":
+                debug_print("  - 执行液体冲洗...")
                rinsing_actions = _generate_rinsing_sequence(
                    G, from_vessel_id, to_vessel_id, final_rinsing_solvent,
                    final_rinsing_volume, final_rinsing_repeats,
                    final_flowrate, final_transfer_flowrate
                )
                pump_action_sequence.extend(rinsing_actions)
+                debug_print(f"  - 添加了 {len(rinsing_actions)} 个冲洗动作")
            else:
+                debug_print("  - 执行空气冲洗...")
                air_rinsing_actions = _generate_air_rinsing_sequence(
                    G, from_vessel_id, to_vessel_id, final_rinsing_volume, final_rinsing_repeats,
                    final_flowrate, final_transfer_flowrate
                )
                pump_action_sequence.extend(air_rinsing_actions)
+                debug_print(f"  - 添加了 {len(air_rinsing_actions)} 个空气冲洗动作")
        except Exception as e:
-            debug_print(f"冲洗操作失败: {str(e)}")
+            debug_print(f"⚠️ 冲洗操作失败: {str(e)}，跳过冲洗")
    else:
-        debug_print(f"跳过冲洗 (solvent='{final_rinsing_solvent}', repeats={final_rinsing_repeats})")
+        debug_print(f"⏭️ 跳过冲洗操作")
+        debug_print(f"  - 溶剂: '{final_rinsing_solvent}'")
+        debug_print(f"  - 次数: {final_rinsing_repeats}")
+        debug_print(f"  - 条件满足: {bool(final_rinsing_solvent and final_rinsing_solvent.strip() and final_rinsing_repeats > 0)}")

-    # 最终结果
-    debug_print(f"PUMP_TRANSFER 完成: {from_vessel_id} -> {to_vessel_id}, "
-                f"volume={final_volume}mL, 动作数={len(pump_action_sequence)}")
+    # ========== 最终结果 ==========
+
+    debug_print("=" * 60)
+    debug_print(f"🎉 PUMP_TRANSFER: 协议生成完成")
+    debug_print(f"  📊 总动作数: {len(pump_action_sequence)}")
+    debug_print(f"  📋 最终体积: {final_volume}mL")
+    debug_print(f"  🚀 执行路径: {from_vessel_id} -> {to_vessel_id}")

    # 最终验证
    if len(pump_action_sequence) == 0:
+        debug_print("🚨 协议生成结果为空！这是异常情况")
        return [
            {
                "device_id": "system",
                "action_name": "log_message",
                "action_kwargs": {
-                    "message": "协议生成失败: 无法生成任何动作序列"
+                    "message": f"🚨 协议生成失败: 无法生成任何动作序列"
                }
            }
        ]

+    debug_print("=" * 60)
    return pump_action_sequence


 def _parse_amount_to_volume(amount: str) -> float:
    """解析 amount 字符串为体积"""
+    debug_print(f"🔍 解析 amount: '{amount}'")
+
    if not amount:
+        debug_print("  - amount 为空，返回 0.0")
        return 0.0

    amount = amount.lower().strip()
+    debug_print(f"  - 处理后的 amount: '{amount}'")

    # 处理特殊关键词
    if amount == "all":
+        debug_print("  - 检测到 'all'，返回 0.0（需要后续处理）")
        return 0.0  # 返回0.0，让调用者处理

    # 提取数字
    import re
    numbers = re.findall(r'[\d.]+', amount)
+    debug_print(f"  - 提取到的数字: {numbers}")

    if numbers:
        volume = float(numbers[0])
+        debug_print(f"  - 基础体积: {volume}")

        # 单位转换
        if 'ml' in amount or 'milliliter' in amount:
+            debug_print(f"  - 单位: mL，最终体积: {volume}")
            return volume
        elif 'l' in amount and 'ml' not in amount:
-            return volume * 1000
+            final_volume = volume * 1000
+            debug_print(f"  - 单位: L，最终体积: {final_volume}mL")
+            return final_volume
        elif 'μl' in amount or 'microliter' in amount:
-            return volume / 1000
+            final_volume = volume / 1000
+            debug_print(f"  - 单位: μL，最终体积: {final_volume}mL")
+            return final_volume
        else:
-            return volume  # 默认mL
+            debug_print(f"  - 无单位，假设为 mL: {volume}")
+            return volume

+    debug_print("  - 无法解析，返回 0.0")
    return 0.0


--- a/unilabos/compile/recrystallize_protocol.py
+++ b/unilabos/compile/recrystallize_protocol.py
@@ -4,64 +4,76 @@ import logging
 from typing import List, Dict, Any, Tuple, Union
 from .utils.vessel_parser import get_vessel, find_solvent_vessel
 from .utils.unit_parser import parse_volume_input
-from .utils.logger_util import debug_print
 from .pump_protocol import generate_pump_protocol_with_rinsing

 logger = logging.getLogger(__name__)

+def debug_print(message):
+    """调试输出"""
+    logger.info(f"[RECRYSTALLIZE] {message}")
+

 def parse_ratio(ratio_str: str) -> Tuple[float, float]:
    """
    解析比例字符串，支持多种格式
-
+    
    Args:
        ratio_str: 比例字符串（如 "1:1", "3:7", "50:50"）
-
+    
    Returns:
        Tuple[float, float]: 比例元组 (ratio1, ratio2)
    """
+    debug_print(f"⚖️ 开始解析比例: '{ratio_str}' 📊")
+    
    try:
+        # 处理 "1:1", "3:7", "50:50" 等格式
        if ":" in ratio_str:
            parts = ratio_str.split(":")
            if len(parts) == 2:
                ratio1 = float(parts[0])
                ratio2 = float(parts[1])
+                debug_print(f"✅ 冒号格式解析成功: {ratio1}:{ratio2} 🎯")
                return ratio1, ratio2
-
+        
+        # 处理 "1-1", "3-7" 等格式
        if "-" in ratio_str:
            parts = ratio_str.split("-")
            if len(parts) == 2:
                ratio1 = float(parts[0])
                ratio2 = float(parts[1])
+                debug_print(f"✅ 横线格式解析成功: {ratio1}:{ratio2} 🎯")
                return ratio1, ratio2
-
+        
+        # 处理 "1,1", "3,7" 等格式
        if "," in ratio_str:
            parts = ratio_str.split(",")
            if len(parts) == 2:
                ratio1 = float(parts[0])
                ratio2 = float(parts[1])
+                debug_print(f"✅ 逗号格式解析成功: {ratio1}:{ratio2} 🎯")
                return ratio1, ratio2
-
-        debug_print(f"无法解析比例 '{ratio_str}'，使用默认比例 1:1")
+        
+        # 默认 1:1
+        debug_print(f"⚠️ 无法解析比例 '{ratio_str}'，使用默认比例 1:1 🎭")
        return 1.0, 1.0
-
+    
    except ValueError:
-        debug_print(f"比例解析错误 '{ratio_str}'，使用默认比例 1:1")
+        debug_print(f"❌ 比例解析错误 '{ratio_str}'，使用默认比例 1:1 🎭")
        return 1.0, 1.0


 def generate_recrystallize_protocol(
    G: nx.DiGraph,
-    vessel: dict,
+    vessel: dict,  # 🔧 修改：从字符串改为字典类型
    ratio: str,
    solvent1: str,
    solvent2: str,
-    volume: Union[str, float],
+    volume: Union[str, float],  # 支持字符串和数值
    **kwargs
 ) -> List[Dict[str, Any]]:
    """
    生成重结晶协议序列 - 支持vessel字典和体积运算
-
+    
    Args:
        G: 有向图，节点为容器和设备
        vessel: 目标容器字典（从XDL传入）
@@ -70,18 +82,28 @@ def generate_recrystallize_protocol(
        solvent2: 第二种溶剂名称
        volume: 总体积（支持 "100 mL", "50", "2.5 L" 等）
        **kwargs: 其他可选参数
-
+    
    Returns:
        List[Dict[str, Any]]: 动作序列
    """
-
+    
+    # 🔧 核心修改：从字典中提取容器ID
    vessel_id, vessel_data = get_vessel(vessel)
-
+    
    action_sequence = []
-
-    debug_print(f"开始生成重结晶协议: vessel={vessel_id}, ratio={ratio}, solvent1={solvent1}, solvent2={solvent2}, volume={volume}")
-
-    # 记录重结晶前的容器状态
+    
+    debug_print("💎" * 20)
+    debug_print("🚀 开始生成重结晶协议（支持vessel字典和体积运算）✨")
+    debug_print(f"📝 输入参数:")
+    debug_print(f"  🥽 vessel: {vessel} (ID: {vessel_id})")
+    debug_print(f"  ⚖️ 比例: {ratio}")
+    debug_print(f"  🧪 溶剂1: {solvent1}")
+    debug_print(f"  🧪 溶剂2: {solvent2}")
+    debug_print(f"  💧 总体积: {volume} (类型: {type(volume)})")
+    debug_print("💎" * 20)
+    
+    # 🔧 新增：记录重结晶前的容器状态
+    debug_print("🔍 记录重结晶前容器状态...")
    original_liquid_volume = 0.0
    if "data" in vessel and "liquid_volume" in vessel["data"]:
        current_volume = vessel["data"]["liquid_volume"]
@@ -89,73 +111,102 @@ def generate_recrystallize_protocol(
            original_liquid_volume = current_volume[0]
        elif isinstance(current_volume, (int, float)):
            original_liquid_volume = current_volume
-
+    debug_print(f"📊 重结晶前液体体积: {original_liquid_volume:.2f}mL")
+    
    # 1. 验证目标容器存在
-    if vessel_id not in G.nodes():
+    debug_print("📍 步骤1: 验证目标容器... 🔧")
+    if vessel_id not in G.nodes():  # 🔧 使用 vessel_id
+        debug_print(f"❌ 目标容器 '{vessel_id}' 不存在于系统中! 😱")
        raise ValueError(f"目标容器 '{vessel_id}' 不存在于系统中")
-
+    debug_print(f"✅ 目标容器 '{vessel_id}' 验证通过 🎯")
+    
    # 2. 解析体积（支持单位）
+    debug_print("📍 步骤2: 解析体积（支持单位）... 💧")
    final_volume = parse_volume_input(volume, "mL")
-    debug_print(f"体积解析: {volume} -> {final_volume}mL")
-
+    debug_print(f"🎯 体积解析完成: {volume} → {final_volume}mL ✨")
+    
    # 3. 解析比例
+    debug_print("📍 步骤3: 解析比例... ⚖️")
    ratio1, ratio2 = parse_ratio(ratio)
    total_ratio = ratio1 + ratio2
-
+    debug_print(f"🎯 比例解析完成: {ratio1}:{ratio2} (总比例: {total_ratio}) ✨")
+    
    # 4. 计算各溶剂体积
+    debug_print("📍 步骤4: 计算各溶剂体积... 🧮")
    volume1 = final_volume * (ratio1 / total_ratio)
    volume2 = final_volume * (ratio2 / total_ratio)
-
-    debug_print(f"溶剂体积: {solvent1}={volume1:.2f}mL, {solvent2}={volume2:.2f}mL")
-
+    
+    debug_print(f"🧪 {solvent1} 体积: {volume1:.2f} mL ({ratio1}/{total_ratio} × {final_volume})")
+    debug_print(f"🧪 {solvent2} 体积: {volume2:.2f} mL ({ratio2}/{total_ratio} × {final_volume})")
+    debug_print(f"✅ 体积计算完成: 总计 {volume1 + volume2:.2f} mL 🎯")
+    
    # 5. 查找溶剂容器
+    debug_print("📍 步骤5: 查找溶剂容器... 🔍")
    try:
+        debug_print(f"  🔍 查找溶剂1容器...")
        solvent1_vessel = find_solvent_vessel(G, solvent1)
+        debug_print(f"  🎉 找到溶剂1容器: {solvent1_vessel} ✨")
    except ValueError as e:
+        debug_print(f"  ❌ 溶剂1容器查找失败: {str(e)} 😭")
        raise ValueError(f"无法找到溶剂1 '{solvent1}': {str(e)}")
-
+    
    try:
+        debug_print(f"  🔍 查找溶剂2容器...")
        solvent2_vessel = find_solvent_vessel(G, solvent2)
+        debug_print(f"  🎉 找到溶剂2容器: {solvent2_vessel} ✨")
    except ValueError as e:
+        debug_print(f"  ❌ 溶剂2容器查找失败: {str(e)} 😭")
        raise ValueError(f"无法找到溶剂2 '{solvent2}': {str(e)}")
-
+    
    # 6. 验证路径存在
+    debug_print("📍 步骤6: 验证传输路径... 🛤️")
    try:
-        path1 = nx.shortest_path(G, source=solvent1_vessel, target=vessel_id)
+        path1 = nx.shortest_path(G, source=solvent1_vessel, target=vessel_id)  # 🔧 使用 vessel_id
+        debug_print(f"  🛤️ 溶剂1路径: {' → '.join(path1)} ✅")
    except nx.NetworkXNoPath:
+        debug_print(f"  ❌ 溶剂1路径不可达: {solvent1_vessel} → {vessel_id} 😞")
        raise ValueError(f"从溶剂1容器 '{solvent1_vessel}' 到目标容器 '{vessel_id}' 没有可用路径")
-
+    
    try:
-        path2 = nx.shortest_path(G, source=solvent2_vessel, target=vessel_id)
+        path2 = nx.shortest_path(G, source=solvent2_vessel, target=vessel_id)  # 🔧 使用 vessel_id
+        debug_print(f"  🛤️ 溶剂2路径: {' → '.join(path2)} ✅")
    except nx.NetworkXNoPath:
+        debug_print(f"  ❌ 溶剂2路径不可达: {solvent2_vessel} → {vessel_id} 😞")
        raise ValueError(f"从溶剂2容器 '{solvent2_vessel}' 到目标容器 '{vessel_id}' 没有可用路径")
-
+    
    # 7. 添加第一种溶剂
+    debug_print("📍 步骤7: 添加第一种溶剂... 🧪")
+    debug_print(f"  🚰 开始添加溶剂1: {solvent1} ({volume1:.2f} mL)")
+    
    try:
        pump_actions1 = generate_pump_protocol_with_rinsing(
            G=G,
            from_vessel=solvent1_vessel,
-            to_vessel=vessel_id,
-            volume=volume1,
+            to_vessel=vessel_id,  # 🔧 使用 vessel_id
+            volume=volume1,             # 使用解析后的体积
            amount="",
            time=0.0,
            viscous=False,
-            rinsing_solvent="",
+            rinsing_solvent="",  # 重结晶不需要清洗
            rinsing_volume=0.0,
            rinsing_repeats=0,
            solid=False,
-            flowrate=2.0,
+            flowrate=2.0,  # 正常流速
            transfer_flowrate=0.5
        )
-
+        
        action_sequence.extend(pump_actions1)
-
+        debug_print(f"  ✅ 溶剂1泵送动作已添加: {len(pump_actions1)} 个动作 🚰✨")
+        
    except Exception as e:
+        debug_print(f"  ❌ 溶剂1泵协议生成失败: {str(e)} 😭")
        raise ValueError(f"生成溶剂1泵协议时出错: {str(e)}")
-
-    # 更新容器体积 - 添加溶剂1后
+    
+    # 🔧 新增：更新容器体积 - 添加溶剂1后
+    debug_print("  🔧 更新容器体积 - 添加溶剂1后...")
    new_volume_after_solvent1 = original_liquid_volume + volume1
-
+    
+    # 更新vessel字典中的体积
    if "data" in vessel and "liquid_volume" in vessel["data"]:
        current_volume = vessel["data"]["liquid_volume"]
        if isinstance(current_volume, list):
@@ -165,14 +216,15 @@ def generate_recrystallize_protocol(
                vessel["data"]["liquid_volume"] = [new_volume_after_solvent1]
        else:
            vessel["data"]["liquid_volume"] = new_volume_after_solvent1
-
+    
+    # 同时更新图中的容器数据
    if vessel_id in G.nodes():
        if 'data' not in G.nodes[vessel_id]:
            G.nodes[vessel_id]['data'] = {}
-
+        
        vessel_node_data = G.nodes[vessel_id]['data']
        current_node_volume = vessel_node_data.get('liquid_volume', 0.0)
-
+        
        if isinstance(current_node_volume, list):
            if len(current_node_volume) > 0:
                G.nodes[vessel_id]['data']['liquid_volume'][0] = new_volume_after_solvent1
@@ -180,42 +232,53 @@ def generate_recrystallize_protocol(
                G.nodes[vessel_id]['data']['liquid_volume'] = [new_volume_after_solvent1]
        else:
            G.nodes[vessel_id]['data']['liquid_volume'] = new_volume_after_solvent1
-
+    
+    debug_print(f"  📊 体积更新: {original_liquid_volume:.2f}mL + {volume1:.2f}mL = {new_volume_after_solvent1:.2f}mL")
+    
    # 8. 等待溶剂1稳定
+    debug_print("  ⏳ 添加溶剂1稳定等待...")
    action_sequence.append({
        "action_name": "wait",
        "action_kwargs": {
-            "time": 5.0,
+            "time": 5.0,  # 缩短等待时间
            "description": f"等待溶剂1 {solvent1} 稳定"
        }
    })
-
+    debug_print("  ✅ 溶剂1稳定等待已添加 ⏰✨")
+    
    # 9. 添加第二种溶剂
+    debug_print("📍 步骤8: 添加第二种溶剂... 🧪")
+    debug_print(f"  🚰 开始添加溶剂2: {solvent2} ({volume2:.2f} mL)")
+    
    try:
        pump_actions2 = generate_pump_protocol_with_rinsing(
            G=G,
            from_vessel=solvent2_vessel,
-            to_vessel=vessel_id,
-            volume=volume2,
+            to_vessel=vessel_id,  # 🔧 使用 vessel_id
+            volume=volume2,             # 使用解析后的体积
            amount="",
            time=0.0,
            viscous=False,
-            rinsing_solvent="",
+            rinsing_solvent="",  # 重结晶不需要清洗
            rinsing_volume=0.0,
            rinsing_repeats=0,
            solid=False,
-            flowrate=2.0,
+            flowrate=2.0,  # 正常流速
            transfer_flowrate=0.5
        )
-
+        
        action_sequence.extend(pump_actions2)
-
+        debug_print(f"  ✅ 溶剂2泵送动作已添加: {len(pump_actions2)} 个动作 🚰✨")
+        
    except Exception as e:
+        debug_print(f"  ❌ 溶剂2泵协议生成失败: {str(e)} 😭")
        raise ValueError(f"生成溶剂2泵协议时出错: {str(e)}")
-
-    # 更新容器体积 - 添加溶剂2后
+    
+    # 🔧 新增：更新容器体积 - 添加溶剂2后
+    debug_print("  🔧 更新容器体积 - 添加溶剂2后...")
    final_liquid_volume = new_volume_after_solvent1 + volume2
-
+    
+    # 更新vessel字典中的体积
    if "data" in vessel and "liquid_volume" in vessel["data"]:
        current_volume = vessel["data"]["liquid_volume"]
        if isinstance(current_volume, list):
@@ -225,14 +288,15 @@ def generate_recrystallize_protocol(
                vessel["data"]["liquid_volume"] = [final_liquid_volume]
        else:
            vessel["data"]["liquid_volume"] = final_liquid_volume
-
+    
+    # 同时更新图中的容器数据
    if vessel_id in G.nodes():
        if 'data' not in G.nodes[vessel_id]:
            G.nodes[vessel_id]['data'] = {}
-
+        
        vessel_node_data = G.nodes[vessel_id]['data']
        current_node_volume = vessel_node_data.get('liquid_volume', 0.0)
-
+        
        if isinstance(current_node_volume, list):
            if len(current_node_volume) > 0:
                G.nodes[vessel_id]['data']['liquid_volume'][0] = final_liquid_volume
@@ -240,25 +304,36 @@ def generate_recrystallize_protocol(
                G.nodes[vessel_id]['data']['liquid_volume'] = [final_liquid_volume]
        else:
            G.nodes[vessel_id]['data']['liquid_volume'] = final_liquid_volume
-
+    
+    debug_print(f"  📊 最终体积: {new_volume_after_solvent1:.2f}mL + {volume2:.2f}mL = {final_liquid_volume:.2f}mL")
+    
    # 10. 等待溶剂2稳定
+    debug_print("  ⏳ 添加溶剂2稳定等待...")
    action_sequence.append({
        "action_name": "wait",
        "action_kwargs": {
-            "time": 5.0,
+            "time": 5.0,  # 缩短等待时间
            "description": f"等待溶剂2 {solvent2} 稳定"
        }
    })
-
+    debug_print("  ✅ 溶剂2稳定等待已添加 ⏰✨")
+    
    # 11. 等待重结晶完成
-    original_crystallize_time = 600.0
-    simulation_time_limit = 60.0
+    debug_print("📍 步骤9: 等待重结晶完成... 💎")
+    
+    # 模拟运行时间优化
+    debug_print("  ⏱️ 检查模拟运行时间限制...")
+    original_crystallize_time = 600.0  # 原始重结晶时间
+    simulation_time_limit = 60.0  # 模拟运行时间限制：60秒

    final_crystallize_time = min(original_crystallize_time, simulation_time_limit)
-
+    
    if original_crystallize_time > simulation_time_limit:
-        debug_print(f"模拟运行优化: {original_crystallize_time}s -> {final_crystallize_time}s")
-
+        debug_print(f"  🎮 模拟运行优化: {original_crystallize_time}s → {final_crystallize_time}s ⚡")
+        debug_print(f"  📊 时间缩短: {original_crystallize_time/60:.1f}分钟 → {final_crystallize_time/60:.1f}分钟 🚀")
+    else:
+        debug_print(f"  ✅ 时间在限制内: {final_crystallize_time}s 保持不变 🎯")
+    
    action_sequence.append({
        "action_name": "wait",
        "action_kwargs": {
@@ -266,28 +341,50 @@ def generate_recrystallize_protocol(
            "description": f"等待重结晶完成（{solvent1}:{solvent2} = {ratio}，总体积 {final_volume}mL）" + (f" (模拟时间)" if original_crystallize_time != final_crystallize_time else "")
        }
    })
-
-    debug_print(f"重结晶协议生成完成: {len(action_sequence)} 个动作, 容器={vessel_id}, 体积变化: {original_liquid_volume:.2f} -> {final_liquid_volume:.2f}mL")
-
+    debug_print(f"  ✅ 重结晶等待已添加: {final_crystallize_time}s 💎✨")
+    
+    # 显示时间调整信息
+    if original_crystallize_time != final_crystallize_time:
+        debug_print(f"  🎭 模拟优化说明: 原计划 {original_crystallize_time/60:.1f}分钟，实际模拟 {final_crystallize_time/60:.1f}分钟 ⚡")
+    
+    # 总结
+    debug_print("💎" * 20)
+    debug_print(f"🎉 重结晶协议生成完成! ✨")
+    debug_print(f"📊 总动作数: {len(action_sequence)} 个")
+    debug_print(f"🥽 目标容器: {vessel_id}")
+    debug_print(f"💧 总体积变化:")
+    debug_print(f"  - 原始体积: {original_liquid_volume:.2f}mL")
+    debug_print(f"  - 添加溶剂: {final_volume:.2f}mL")
+    debug_print(f"  - 最终体积: {final_liquid_volume:.2f}mL")
+    debug_print(f"⚖️ 溶剂比例: {solvent1}:{solvent2} = {ratio1}:{ratio2}")
+    debug_print(f"🧪 溶剂1: {solvent1} ({volume1:.2f}mL)")
+    debug_print(f"🧪 溶剂2: {solvent2} ({volume2:.2f}mL)")
+    debug_print(f"⏱️ 预计总时间: {(final_crystallize_time + 10)/60:.1f} 分钟 ⌛")
+    debug_print("💎" * 20)
+    
    return action_sequence


 # 测试函数
 def test_recrystallize_protocol():
    """测试重结晶协议"""
-    debug_print("=== RECRYSTALLIZE PROTOCOL 测试 ===")
-
+    debug_print("🧪 === RECRYSTALLIZE PROTOCOL 测试 === ✨")
+    
+    # 测试体积解析
+    debug_print("💧 测试体积解析...")
    test_volumes = ["100 mL", "2.5 L", "500", "50.5", "?", "invalid"]
    for vol in test_volumes:
        parsed = parse_volume_input(vol)
-        debug_print(f"体积 '{vol}' -> {parsed}mL")
-
+        debug_print(f"  📊 体积 '{vol}' -> {parsed}mL")
+    
+    # 测试比例解析
+    debug_print("⚖️ 测试比例解析...")
    test_ratios = ["1:1", "3:7", "50:50", "1-1", "2,8", "invalid"]
    for ratio in test_ratios:
        r1, r2 = parse_ratio(ratio)
-        debug_print(f"比例 '{ratio}' -> {r1}:{r2}")
-
-    debug_print("测试完成")
+        debug_print(f"  📊 比例 '{ratio}' -> {r1}:{r2}")
+    
+    debug_print("✅ 测试完成 🎉")

 if __name__ == "__main__":
-    test_recrystallize_protocol()
+    test_recrystallize_protocol()
--- a/unilabos/compile/reset_handling_protocol.py
+++ b/unilabos/compile/reset_handling_protocol.py
@@ -1,87 +1,253 @@
 import networkx as nx
 import logging
+import sys
 from typing import List, Dict, Any, Optional
-from .utils.logger_util import debug_print, action_log
-from .utils.vessel_parser import find_solvent_vessel
 from .pump_protocol import generate_pump_protocol_with_rinsing

 # 设置日志
 logger = logging.getLogger(__name__)

-create_action_log = action_log
+# 确保输出编码为UTF-8
+if hasattr(sys.stdout, 'reconfigure'):
+    try:
+        sys.stdout.reconfigure(encoding='utf-8')
+        sys.stderr.reconfigure(encoding='utf-8')
+    except:
+        pass
+
+def debug_print(message):
+    """调试输出函数 - 支持中文"""
+    try:
+        # 确保消息是字符串格式
+        safe_message = str(message)
+        print(f"[重置处理] {safe_message}", flush=True)
+        logger.info(f"[重置处理] {safe_message}")
+    except UnicodeEncodeError:
+        # 如果编码失败，尝试替换不支持的字符
+        safe_message = str(message).encode('utf-8', errors='replace').decode('utf-8')
+        print(f"[重置处理] {safe_message}", flush=True)
+        logger.info(f"[重置处理] {safe_message}")
+    except Exception as e:
+        # 最后的安全措施
+        fallback_message = f"日志输出错误: {repr(message)}"
+        print(f"[重置处理] {fallback_message}", flush=True)
+        logger.info(f"[重置处理] {fallback_message}")
+
+def create_action_log(message: str, emoji: str = "📝") -> Dict[str, Any]:
+    """创建一个动作日志 - 支持中文和emoji"""
+    try:
+        full_message = f"{emoji} {message}"
+        debug_print(full_message)
+        logger.info(full_message)
+        
+        return {
+            "action_name": "wait",
+            "action_kwargs": {
+                "time": 0.1,
+                "log_message": full_message,
+                "progress_message": full_message
+            }
+        }
+    except Exception as e:
+        # 如果emoji有问题，使用纯文本
+        safe_message = f"[日志] {message}"
+        debug_print(safe_message)
+        logger.info(safe_message)
+        
+        return {
+            "action_name": "wait", 
+            "action_kwargs": {
+                "time": 0.1,
+                "log_message": safe_message,
+                "progress_message": safe_message
+            }
+        }
+
+def find_solvent_vessel(G: nx.DiGraph, solvent: str) -> str:
+    """
+    查找溶剂容器，支持多种匹配模式
+    
+    Args:
+        G: 网络图
+        solvent: 溶剂名称（如 "methanol", "ethanol", "water"）
+    
+    Returns:
+        str: 溶剂容器ID
+    """
+    debug_print(f"🔍 正在查找溶剂 '{solvent}' 的容器...")
+    
+    # 构建可能的容器名称
+    possible_names = [
+        f"flask_{solvent}",           # flask_methanol
+        f"bottle_{solvent}",          # bottle_methanol
+        f"reagent_{solvent}",         # reagent_methanol
+        f"reagent_bottle_{solvent}",  # reagent_bottle_methanol
+        f"{solvent}_flask",           # methanol_flask
+        f"{solvent}_bottle",          # methanol_bottle
+        f"{solvent}",                 # methanol
+        f"vessel_{solvent}",          # vessel_methanol
+    ]
+    
+    debug_print(f"🎯 候选容器名称: {possible_names[:3]}... (共{len(possible_names)}个)")
+    
+    # 第一步：通过容器名称匹配
+    debug_print("📋 方法1: 精确名称匹配...")
+    for vessel_name in possible_names:
+        if vessel_name in G.nodes():
+            debug_print(f"✅ 通过名称匹配找到容器: {vessel_name}")
+            return vessel_name
+    debug_print("⚠️ 精确名称匹配失败，尝试模糊匹配...")
+    
+    # 第二步：通过模糊匹配
+    debug_print("📋 方法2: 模糊名称匹配...")
+    for node_id in G.nodes():
+        if G.nodes[node_id].get('type') == 'container':
+            node_name = G.nodes[node_id].get('name', '').lower()
+            
+            # 检查是否包含溶剂名称
+            if solvent.lower() in node_id.lower() or solvent.lower() in node_name:
+                debug_print(f"✅ 通过模糊匹配找到容器: {node_id}")
+                return node_id
+    debug_print("⚠️ 模糊匹配失败，尝试液体类型匹配...")
+    
+    # 第三步：通过液体类型匹配
+    debug_print("📋 方法3: 液体类型匹配...")
+    for node_id in G.nodes():
+        if G.nodes[node_id].get('type') == 'container':
+            vessel_data = G.nodes[node_id].get('data', {})
+            liquids = vessel_data.get('liquid', [])
+            
+            for liquid in liquids:
+                if isinstance(liquid, dict):
+                    liquid_type = (liquid.get('liquid_type') or liquid.get('name', '')).lower()
+                    reagent_name = vessel_data.get('reagent_name', '').lower()
+                    
+                    if solvent.lower() in liquid_type or solvent.lower() in reagent_name:
+                        debug_print(f"✅ 通过液体类型匹配找到容器: {node_id}")
+                        return node_id
+    
+    # 列出可用容器帮助调试
+    debug_print("📊 显示可用容器信息...")
+    available_containers = []
+    for node_id in G.nodes():
+        if G.nodes[node_id].get('type') == 'container':
+            vessel_data = G.nodes[node_id].get('data', {})
+            liquids = vessel_data.get('liquid', [])
+            liquid_types = [liquid.get('liquid_type', '') or liquid.get('name', '') 
+                           for liquid in liquids if isinstance(liquid, dict)]
+            
+            available_containers.append({
+                'id': node_id,
+                'name': G.nodes[node_id].get('name', ''),
+                'liquids': liquid_types,
+                'reagent_name': vessel_data.get('reagent_name', '')
+            })
+    
+    debug_print(f"📋 可用容器列表 (共{len(available_containers)}个):")
+    for i, container in enumerate(available_containers[:5]):  # 只显示前5个
+        debug_print(f"  {i+1}. 🥽 {container['id']}: {container['name']}")
+        debug_print(f"     💧 液体: {container['liquids']}")
+        debug_print(f"     🧪 试剂: {container['reagent_name']}")
+    
+    if len(available_containers) > 5:
+        debug_print(f"    ... 还有 {len(available_containers)-5} 个容器")
+    
+    debug_print(f"❌ 找不到溶剂 '{solvent}' 对应的容器")
+    raise ValueError(f"找不到溶剂 '{solvent}' 对应的容器。尝试了: {possible_names[:3]}...")

 def generate_reset_handling_protocol(
    G: nx.DiGraph,
    solvent: str,
-    vessel: Optional[str] = None,
-    **kwargs
+    vessel: Optional[str] = None,  # 🆕 新增可选vessel参数
+    **kwargs  # 接收其他可能的参数但不使用
 ) -> List[Dict[str, Any]]:
    """
    生成重置处理协议序列 - 支持自定义容器
-
+    
    Args:
        G: 有向图，节点为容器和设备
        solvent: 溶剂名称（从XDL传入）
        vessel: 目标容器名称（可选，默认为 "main_reactor"）
        **kwargs: 其他可选参数，但不使用
-
+    
    Returns:
        List[Dict[str, Any]]: 动作序列
    """
    action_sequence = []
+    
+    # 🔧 修改：支持自定义vessel参数
+    target_vessel = vessel if vessel is not None else "main_reactor"  # 默认目标容器
+    volume = 50.0  # 默认体积 50 mL

-    target_vessel = vessel if vessel is not None else "main_reactor"
-    volume = 50.0
-
-    debug_print(f"开始生成重置处理协议: solvent={solvent}, vessel={target_vessel}, volume={volume}mL")
-
+    debug_print("=" * 60)
+    debug_print("🚀 开始生成重置处理协议")
+    debug_print(f"📋 输入参数:")
+    debug_print(f"  🧪 溶剂: {solvent}")
+    debug_print(f"  🥽 目标容器: {target_vessel} {'(默认)' if vessel is None else '(指定)'}")
+    debug_print(f"  💧 体积: {volume} mL")
+    debug_print(f"  ⚙️ 其他参数: {kwargs}")
+    debug_print("=" * 60)
+    
    # 添加初始日志
-    action_sequence.append(action_log(f"开始重置处理操作 - 容器: {target_vessel}", "🎬"))
-    action_sequence.append(action_log(f"使用溶剂: {solvent}", "🧪"))
-    action_sequence.append(action_log(f"重置体积: {volume}mL", "💧"))
-
+    action_sequence.append(create_action_log(f"开始重置处理操作 - 容器: {target_vessel}", "🎬"))
+    action_sequence.append(create_action_log(f"使用溶剂: {solvent}", "🧪"))
+    action_sequence.append(create_action_log(f"重置体积: {volume}mL", "💧"))
+    
    if vessel is None:
-        action_sequence.append(action_log("使用默认目标容器: main_reactor", "⚙️"))
+        action_sequence.append(create_action_log("使用默认目标容器: main_reactor", "⚙️"))
    else:
-        action_sequence.append(action_log(f"使用指定目标容器: {vessel}", "🎯"))
-
+        action_sequence.append(create_action_log(f"使用指定目标容器: {vessel}", "🎯"))
+    
    # 1. 验证目标容器存在
-    action_sequence.append(action_log("正在验证目标容器...", "🔍"))
-
+    debug_print("🔍 步骤1: 验证目标容器...")
+    action_sequence.append(create_action_log("正在验证目标容器...", "🔍"))
+    
    if target_vessel not in G.nodes():
-        action_sequence.append(action_log(f"目标容器 '{target_vessel}' 不存在", "❌"))
+        debug_print(f"❌ 目标容器 '{target_vessel}' 不存在于系统中!")
+        action_sequence.append(create_action_log(f"目标容器 '{target_vessel}' 不存在", "❌"))
        raise ValueError(f"目标容器 '{target_vessel}' 不存在于系统中")
-
-    action_sequence.append(action_log(f"目标容器验证通过: {target_vessel}", "✅"))
-
+    
+    debug_print(f"✅ 目标容器 '{target_vessel}' 验证通过")
+    action_sequence.append(create_action_log(f"目标容器验证通过: {target_vessel}", "✅"))
+    
    # 2. 查找溶剂容器
-    action_sequence.append(action_log("正在查找溶剂容器...", "🔍"))
-
+    debug_print("🔍 步骤2: 查找溶剂容器...")
+    action_sequence.append(create_action_log("正在查找溶剂容器...", "🔍"))
+    
    try:
        solvent_vessel = find_solvent_vessel(G, solvent)
-        debug_print(f"找到溶剂容器: {solvent_vessel}")
-        action_sequence.append(action_log(f"找到溶剂容器: {solvent_vessel}", "✅"))
+        debug_print(f"✅ 找到溶剂容器: {solvent_vessel}")
+        action_sequence.append(create_action_log(f"找到溶剂容器: {solvent_vessel}", "✅"))
    except ValueError as e:
-        action_sequence.append(action_log(f"溶剂容器查找失败: {str(e)}", "❌"))
+        debug_print(f"❌ 溶剂容器查找失败: {str(e)}")
+        action_sequence.append(create_action_log(f"溶剂容器查找失败: {str(e)}", "❌"))
        raise ValueError(f"无法找到溶剂 '{solvent}': {str(e)}")
-
+    
    # 3. 验证路径存在
-    action_sequence.append(action_log("正在验证传输路径...", "🛤️"))
-
+    debug_print("🔍 步骤3: 验证传输路径...")
+    action_sequence.append(create_action_log("正在验证传输路径...", "🛤️"))
+    
    try:
        path = nx.shortest_path(G, source=solvent_vessel, target=target_vessel)
-        action_sequence.append(action_log(f"传输路径: {' → '.join(path)}", "🛤️"))
+        debug_print(f"✅ 找到路径: {' → '.join(path)}")
+        action_sequence.append(create_action_log(f"传输路径: {' → '.join(path)}", "🛤️"))
    except nx.NetworkXNoPath:
-        action_sequence.append(action_log(f"路径不可达: {solvent_vessel} → {target_vessel}", "❌"))
+        debug_print(f"❌ 路径不可达: {solvent_vessel} → {target_vessel}")
+        action_sequence.append(create_action_log(f"路径不可达: {solvent_vessel} → {target_vessel}", "❌"))
        raise ValueError(f"从溶剂容器 '{solvent_vessel}' 到目标容器 '{target_vessel}' 没有可用路径")
-
+    
    # 4. 使用pump_protocol转移溶剂
-    action_sequence.append(action_log("开始溶剂转移操作...", "🚰"))
-    action_sequence.append(action_log(f"转移: {solvent_vessel} → {target_vessel} ({volume}mL)", "🚛"))
-
+    debug_print("🔍 步骤4: 转移溶剂...")
+    action_sequence.append(create_action_log("开始溶剂转移操作...", "🚰"))
+    
+    debug_print(f"🚛 开始转移: {solvent_vessel} → {target_vessel}")
+    debug_print(f"💧 转移体积: {volume} mL")
+    action_sequence.append(create_action_log(f"转移: {solvent_vessel} → {target_vessel} ({volume}mL)", "🚛"))
+    
    try:
-        action_sequence.append(action_log("正在生成泵送协议...", "🔄"))
-
+        debug_print("🔄 生成泵送协议...")
+        action_sequence.append(create_action_log("正在生成泵送协议...", "🔄"))
+        
        pump_actions = generate_pump_protocol_with_rinsing(
            G=G,
            from_vessel=solvent_vessel,
@@ -90,34 +256,41 @@ def generate_reset_handling_protocol(
            amount="",
            time=0.0,
            viscous=False,
-            rinsing_solvent="",
+            rinsing_solvent="",  # 重置处理不需要清洗
            rinsing_volume=0.0,
            rinsing_repeats=0,
            solid=False,
-            flowrate=2.5,
-            transfer_flowrate=0.5
+            flowrate=2.5,  # 正常流速
+            transfer_flowrate=0.5  # 正常转移流速
        )
-
+        
        action_sequence.extend(pump_actions)
-        debug_print(f"泵送协议已添加: {len(pump_actions)} 个动作")
-        action_sequence.append(action_log(f"泵送协议完成 ({len(pump_actions)} 个操作)", "✅"))
-
+        debug_print(f"✅ 泵送协议已添加: {len(pump_actions)} 个动作")
+        action_sequence.append(create_action_log(f"泵送协议完成 ({len(pump_actions)} 个操作)", "✅"))
+        
    except Exception as e:
-        action_sequence.append(action_log(f"泵送协议生成失败: {str(e)}", "❌"))
+        debug_print(f"❌ 泵送协议生成失败: {str(e)}")
+        action_sequence.append(create_action_log(f"泵送协议生成失败: {str(e)}", "❌"))
        raise ValueError(f"生成泵协议时出错: {str(e)}")
-
+    
    # 5. 等待溶剂稳定
-    action_sequence.append(action_log("等待溶剂稳定...", "⏳"))
-
-    original_wait_time = 10.0
-    simulation_time_limit = 5.0
+    debug_print("🔍 步骤5: 等待溶剂稳定...")
+    action_sequence.append(create_action_log("等待溶剂稳定...", "⏳"))
+    
+    # 模拟运行时间优化
+    debug_print("⏱️ 检查模拟运行时间限制...")
+    original_wait_time = 10.0  # 原始等待时间
+    simulation_time_limit = 5.0  # 模拟运行时间限制：5秒
+    
    final_wait_time = min(original_wait_time, simulation_time_limit)
-
+    
    if original_wait_time > simulation_time_limit:
-        action_sequence.append(action_log(f"时间优化: {original_wait_time}s → {final_wait_time}s", "⚡"))
+        debug_print(f"🎮 模拟运行优化: {original_wait_time}s → {final_wait_time}s")
+        action_sequence.append(create_action_log(f"时间优化: {original_wait_time}s → {final_wait_time}s", "⚡"))
    else:
-        action_sequence.append(action_log(f"等待时间: {final_wait_time}s", "⏰"))
-
+        debug_print(f"✅ 时间在限制内: {final_wait_time}s 保持不变")
+        action_sequence.append(create_action_log(f"等待时间: {final_wait_time}s", "⏰"))
+    
    action_sequence.append({
        "action_name": "wait",
        "action_kwargs": {
@@ -125,50 +298,90 @@ def generate_reset_handling_protocol(
            "description": f"等待溶剂 {solvent} 在容器 {target_vessel} 中稳定" + (f" (模拟时间)" if original_wait_time != final_wait_time else "")
        }
    })
-
+    debug_print(f"✅ 稳定等待已添加: {final_wait_time}s")
+    
+    # 显示时间调整信息
    if original_wait_time != final_wait_time:
-        action_sequence.append(action_log("应用模拟时间优化", "🎭"))
-
+        debug_print(f"🎭 模拟优化说明: 原计划 {original_wait_time}s，实际模拟 {final_wait_time}s")
+        action_sequence.append(create_action_log("应用模拟时间优化", "🎭"))
+    
    # 总结
-    debug_print(f"重置处理协议生成完成: {len(action_sequence)} 个动作, {solvent_vessel} -> {target_vessel}, {volume}mL")
-
+    debug_print("=" * 60)
+    debug_print(f"🎉 重置处理协议生成完成!")
+    debug_print(f"📊 总结信息:")
+    debug_print(f"  📋 总动作数: {len(action_sequence)} 个")
+    debug_print(f"  🧪 溶剂: {solvent}")
+    debug_print(f"  🥽 源容器: {solvent_vessel}")
+    debug_print(f"  🥽 目标容器: {target_vessel} {'(默认)' if vessel is None else '(指定)'}")
+    debug_print(f"  💧 转移体积: {volume} mL")
+    debug_print(f"  ⏱️ 预计总时间: {(final_wait_time + 5):.0f} 秒")
+    debug_print(f"  🎯 操作结果: 已添加 {volume} mL {solvent} 到 {target_vessel}")
+    debug_print("=" * 60)
+    
+    # 添加完成日志
    summary_msg = f"重置处理完成: {target_vessel} (使用 {volume}mL {solvent})"
    if vessel is None:
        summary_msg += " [默认容器]"
    else:
        summary_msg += " [指定容器]"
-
-    action_sequence.append(action_log(summary_msg, "🎉"))
-
+    
+    action_sequence.append(create_action_log(summary_msg, "🎉"))
+    
    return action_sequence

 # === 便捷函数 ===

 def reset_main_reactor(G: nx.DiGraph, solvent: str = "methanol", **kwargs) -> List[Dict[str, Any]]:
    """重置主反应器 (默认行为)"""
+    debug_print(f"🔄 重置主反应器，使用溶剂: {solvent}")
    return generate_reset_handling_protocol(G, solvent=solvent, vessel=None, **kwargs)

 def reset_custom_vessel(G: nx.DiGraph, vessel: str, solvent: str = "methanol", **kwargs) -> List[Dict[str, Any]]:
    """重置指定容器"""
+    debug_print(f"🔄 重置指定容器: {vessel}，使用溶剂: {solvent}")
    return generate_reset_handling_protocol(G, solvent=solvent, vessel=vessel, **kwargs)

 def reset_with_water(G: nx.DiGraph, vessel: Optional[str] = None, **kwargs) -> List[Dict[str, Any]]:
    """使用水重置容器"""
+    target = vessel or "main_reactor"
+    debug_print(f"💧 使用水重置容器: {target}")
    return generate_reset_handling_protocol(G, solvent="water", vessel=vessel, **kwargs)

 def reset_with_methanol(G: nx.DiGraph, vessel: Optional[str] = None, **kwargs) -> List[Dict[str, Any]]:
    """使用甲醇重置容器"""
+    target = vessel or "main_reactor"
+    debug_print(f"🧪 使用甲醇重置容器: {target}")
    return generate_reset_handling_protocol(G, solvent="methanol", vessel=vessel, **kwargs)

 def reset_with_ethanol(G: nx.DiGraph, vessel: Optional[str] = None, **kwargs) -> List[Dict[str, Any]]:
    """使用乙醇重置容器"""
+    target = vessel or "main_reactor"
+    debug_print(f"🧪 使用乙醇重置容器: {target}")
    return generate_reset_handling_protocol(G, solvent="ethanol", vessel=vessel, **kwargs)

 # 测试函数
 def test_reset_handling_protocol():
    """测试重置处理协议"""
-    debug_print("=== 重置处理协议测试 ===")
-    debug_print("测试完成")
+    debug_print("=== 重置处理协议增强中文版测试 ===")
+    
+    # 测试溶剂名称
+    debug_print("🧪 测试常用溶剂名称...")
+    test_solvents = ["methanol", "ethanol", "water", "acetone", "dmso"]
+    for solvent in test_solvents:
+        debug_print(f"  🔍 测试溶剂: {solvent}")
+    
+    # 测试容器参数
+    debug_print("🥽 测试容器参数...")
+    test_cases = [
+        {"solvent": "methanol", "vessel": None, "desc": "默认容器"},
+        {"solvent": "ethanol", "vessel": "reactor_2", "desc": "指定容器"},
+        {"solvent": "water", "vessel": "flask_1", "desc": "自定义容器"}
+    ]
+    
+    for case in test_cases:
+        debug_print(f"  🧪 测试案例: {case['desc']} - {case['solvent']} -> {case['vessel'] or 'main_reactor'}")
+    
+    debug_print("✅ 测试完成")

 if __name__ == "__main__":
-    test_reset_handling_protocol()
+    test_reset_handling_protocol()
--- a/unilabos/compile/run_column_protocol.py
+++ b/unilabos/compile/run_column_protocol.py
@@ -2,54 +2,60 @@ from typing import List, Dict, Any, Union
 import networkx as nx
 import logging
 import re
-from .utils.vessel_parser import get_vessel, find_solvent_vessel
-from .utils.resource_helper import get_resource_id, get_resource_data, get_resource_liquid_volume, update_vessel_volume
-from .utils.logger_util import debug_print
+from .utils.vessel_parser import get_vessel
 from .pump_protocol import generate_pump_protocol_with_rinsing

 logger = logging.getLogger(__name__)

+def debug_print(message):
+    """调试输出"""
+    logger.info(f"[RUN_COLUMN] {message}")
+
 def parse_percentage(pct_str: str) -> float:
    """
    解析百分比字符串为数值
-
+    
    Args:
        pct_str: 百分比字符串（如 "40 %", "40%", "40"）
-
+    
    Returns:
        float: 百分比数值（0-100）
    """
    if not pct_str or not pct_str.strip():
        return 0.0
-
+    
    pct_str = pct_str.strip().lower()
-
+    debug_print(f"🔍 解析百分比: '{pct_str}'")
+    
    # 移除百分号和空格
    pct_clean = re.sub(r'[%\s]', '', pct_str)
-
+    
+    # 提取数字
    match = re.search(r'([0-9]*\.?[0-9]+)', pct_clean)
    if match:
        value = float(match.group(1))
+        debug_print(f"✅ 百分比解析结果: {value}%")
        return value
-
-    debug_print(f"无法解析百分比: '{pct_str}'，返回0.0")
+    
+    debug_print(f"⚠️ 无法解析百分比: '{pct_str}'，返回0.0")
    return 0.0

 def parse_ratio(ratio_str: str) -> tuple:
    """
    解析比例字符串为两个数值
-
+    
    Args:
        ratio_str: 比例字符串（如 "5:95", "1:1", "40:60"）
-
+    
    Returns:
-        tuple: (ratio1, ratio2) 两个比例值（百分比）
+        tuple: (ratio1, ratio2) 两个比例值
    """
    if not ratio_str or not ratio_str.strip():
-        return (50.0, 50.0)
-
+        return (50.0, 50.0)  # 默认1:1
+    
    ratio_str = ratio_str.strip()
-
+    debug_print(f"🔍 解析比例: '{ratio_str}'")
+    
    # 支持多种分隔符：: / -
    if ':' in ratio_str:
        parts = ratio_str.split(':')
@@ -60,82 +66,101 @@ def parse_ratio(ratio_str: str) -> tuple:
    elif 'to' in ratio_str.lower():
        parts = ratio_str.lower().split('to')
    else:
-        debug_print(f"无法解析比例格式: '{ratio_str}'，使用默认1:1")
+        debug_print(f"⚠️ 无法解析比例格式: '{ratio_str}'，使用默认1:1")
        return (50.0, 50.0)
-
+    
    if len(parts) >= 2:
        try:
            ratio1 = float(parts[0].strip())
            ratio2 = float(parts[1].strip())
            total = ratio1 + ratio2
-
+            
+            # 转换为百分比
            pct1 = (ratio1 / total) * 100
            pct2 = (ratio2 / total) * 100
-
+            
+            debug_print(f"✅ 比例解析结果: {ratio1}:{ratio2} -> {pct1:.1f}%:{pct2:.1f}%")
            return (pct1, pct2)
        except ValueError as e:
-            debug_print(f"比例数值转换失败: {str(e)}")
-
-    debug_print(f"比例解析失败，使用默认1:1")
+            debug_print(f"⚠️ 比例数值转换失败: {str(e)}")
+    
+    debug_print(f"⚠️ 比例解析失败，使用默认1:1")
    return (50.0, 50.0)

 def parse_rf_value(rf_str: str) -> float:
    """
    解析Rf值字符串
-
+    
    Args:
        rf_str: Rf值字符串（如 "0.3", "0.45", "?"）
-
+    
    Returns:
        float: Rf值（0-1）
    """
    if not rf_str or not rf_str.strip():
-        return 0.3
-
+        return 0.3  # 默认Rf值
+    
    rf_str = rf_str.strip().lower()
-
+    debug_print(f"🔍 解析Rf值: '{rf_str}'")
+    
+    # 处理未知Rf值
    if rf_str in ['?', 'unknown', 'tbd', 'to be determined']:
-        return 0.3
-
+        default_rf = 0.3
+        debug_print(f"❓ 检测到未知Rf值，使用默认值: {default_rf}")
+        return default_rf
+    
+    # 提取数字
    match = re.search(r'([0-9]*\.?[0-9]+)', rf_str)
    if match:
        value = float(match.group(1))
+        # 确保Rf值在0-1范围内
        if value > 1.0:
-            value = value / 100.0
-        value = max(0.0, min(1.0, value))
+            value = value / 100.0  # 可能是百分比形式
+        value = max(0.0, min(1.0, value))  # 限制在0-1范围
+        debug_print(f"✅ Rf值解析结果: {value}")
        return value
-
+    
+    debug_print(f"⚠️ 无法解析Rf值: '{rf_str}'，使用默认值0.3")
    return 0.3

 def find_column_device(G: nx.DiGraph) -> str:
    """查找柱层析设备"""
+    debug_print("🔍 查找柱层析设备...")
+    
+    # 查找虚拟柱设备
    for node in G.nodes():
        node_data = G.nodes[node]
        node_class = node_data.get('class', '') or ''
-
+        
        if 'virtual_column' in node_class.lower() or 'column' in node_class.lower():
-            debug_print(f"找到柱层析设备: {node}")
+            debug_print(f"🎉 找到柱层析设备: {node} ✨")
            return node
-
+    
+    # 如果没有找到，尝试创建虚拟设备名称
    possible_names = ['column_1', 'virtual_column_1', 'chromatography_column_1']
    for name in possible_names:
        if name in G.nodes():
-            debug_print(f"找到柱设备: {name}")
+            debug_print(f"🎉 找到柱设备: {name} ✨")
            return name
-
-    debug_print("未找到柱层析设备，将使用pump protocol直接转移")
+    
+    debug_print("⚠️ 未找到柱层析设备，将使用pump protocol直接转移")
    return ""

 def find_column_vessel(G: nx.DiGraph, column: str) -> str:
    """查找柱容器"""
+    debug_print(f"🔍 查找柱容器: '{column}'")
+    
+    # 直接检查column参数是否是容器
    if column in G.nodes():
        node_type = G.nodes[column].get('type', '')
        if node_type == 'container':
+            debug_print(f"🎉 找到柱容器: {column} ✨")
            return column
-
+    
+    # 尝试常见的命名规则
    possible_names = [
        f"column_{column}",
-        f"{column}_column",
+        f"{column}_column", 
        f"vessel_{column}",
        f"{column}_vessel",
        "column_vessel",
@@ -144,25 +169,211 @@ def find_column_vessel(G: nx.DiGraph, column: str) -> str:
        "preparative_column",
        "column"
    ]
-
+    
    for vessel_name in possible_names:
        if vessel_name in G.nodes():
            node_type = G.nodes[vessel_name].get('type', '')
            if node_type == 'container':
+                debug_print(f"🎉 找到柱容器: {vessel_name} ✨")
                return vessel_name
-
+    
+    debug_print(f"⚠️ 未找到柱容器，将直接在源容器中进行分离")
    return ""

+def find_solvent_vessel(G: nx.DiGraph, solvent: str) -> str:
+    """查找溶剂容器 - 增强版"""
+    if not solvent or not solvent.strip():
+        return ""
+    
+    solvent = solvent.strip().replace(' ', '_').lower()
+    debug_print(f"🔍 查找溶剂容器: '{solvent}'")
+    
+    # 🔧 方法1：直接搜索 data.reagent_name
+    for node in G.nodes():
+        node_data = G.nodes[node].get('data', {})
+        node_type = G.nodes[node].get('type', '')
+        
+        # 只搜索容器类型的节点
+        if node_type == 'container':
+            reagent_name = node_data.get('reagent_name', '').lower()
+            reagent_config = G.nodes[node].get('config', {}).get('reagent', '').lower()
+            
+            # 检查 data.reagent_name 和 config.reagent
+            if reagent_name == solvent or reagent_config == solvent:
+                debug_print(f"🎉 通过reagent_name找到溶剂容器: {node} (reagent: {reagent_name or reagent_config}) ✨")
+                return node
+            
+            # 模糊匹配 reagent_name
+            if solvent in reagent_name or reagent_name in solvent:
+                debug_print(f"🎉 通过reagent_name模糊匹配到溶剂容器: {node} (reagent: {reagent_name}) ✨")
+                return node
+            
+            if solvent in reagent_config or reagent_config in solvent:
+                debug_print(f"🎉 通过config.reagent模糊匹配到溶剂容器: {node} (reagent: {reagent_config}) ✨")
+                return node
+    
+    # 🔧 方法2：常见的溶剂容器命名规则
+    possible_names = [
+        f"flask_{solvent}",
+        f"bottle_{solvent}",
+        f"reagent_{solvent}",
+        f"{solvent}_bottle",
+        f"{solvent}_flask",
+        f"solvent_{solvent}",
+        f"reagent_bottle_{solvent}"
+    ]
+    
+    for vessel_name in possible_names:
+        if vessel_name in G.nodes():
+            node_type = G.nodes[vessel_name].get('type', '')
+            if node_type == 'container':
+                debug_print(f"🎉 通过命名规则找到溶剂容器: {vessel_name} ✨")
+                return vessel_name
+    
+    # 🔧 方法3：节点名称模糊匹配
+    for node in G.nodes():
+        node_type = G.nodes[node].get('type', '')
+        if node_type == 'container':
+            if ('flask_' in node or 'bottle_' in node or 'reagent_' in node) and solvent in node.lower():
+                debug_print(f"🎉 通过节点名称模糊匹配到溶剂容器: {node} ✨")
+                return node
+    
+    # 🔧 方法4：特殊溶剂名称映射
+    solvent_mapping = {
+        'dmf': ['dmf', 'dimethylformamide', 'n,n-dimethylformamide'],
+        'ethyl_acetate': ['ethyl_acetate', 'ethylacetate', 'etoac', 'ea'],
+        'hexane': ['hexane', 'hexanes', 'n-hexane'],
+        'methanol': ['methanol', 'meoh', 'ch3oh'],
+        'water': ['water', 'h2o', 'distilled_water'],
+        'acetone': ['acetone', 'ch3coch3', '2-propanone'],
+        'dichloromethane': ['dichloromethane', 'dcm', 'ch2cl2', 'methylene_chloride'],
+        'chloroform': ['chloroform', 'chcl3', 'trichloromethane']
+    }
+    
+    # 查找映射的同义词
+    for canonical_name, synonyms in solvent_mapping.items():
+        if solvent in synonyms:
+            debug_print(f"🔍 检测到溶剂同义词: '{solvent}' -> '{canonical_name}'")
+            return find_solvent_vessel(G, canonical_name)  # 递归搜索
+    
+    debug_print(f"⚠️ 未找到溶剂 '{solvent}' 的容器")
+    return ""
+
+def get_vessel_liquid_volume(vessel: dict) -> float:
+    """
+    获取容器中的液体体积 - 支持vessel字典
+    
+    Args:
+        vessel: 容器字典
+        
+    Returns:
+        float: 液体体积（mL）
+    """
+    if not vessel or "data" not in vessel:
+        debug_print(f"⚠️ 容器数据为空，返回 0.0mL")
+        return 0.0
+    
+    vessel_data = vessel["data"]
+    vessel_id = vessel.get("id", "unknown")
+    
+    debug_print(f"🔍 读取容器 '{vessel_id}' 体积数据: {vessel_data}")
+    
+    # 检查liquid_volume字段
+    if "liquid_volume" in vessel_data:
+        liquid_volume = vessel_data["liquid_volume"]
+        
+        # 处理列表格式
+        if isinstance(liquid_volume, list):
+            if len(liquid_volume) > 0:
+                volume = liquid_volume[0]
+                if isinstance(volume, (int, float)):
+                    debug_print(f"✅ 容器 '{vessel_id}' 体积: {volume}mL (列表格式)")
+                    return float(volume)
+        
+        # 处理直接数值格式
+        elif isinstance(liquid_volume, (int, float)):
+            debug_print(f"✅ 容器 '{vessel_id}' 体积: {liquid_volume}mL (数值格式)")
+            return float(liquid_volume)
+    
+    # 检查其他可能的体积字段
+    volume_keys = ['current_volume', 'total_volume', 'volume']
+    for key in volume_keys:
+        if key in vessel_data:
+            try:
+                volume = float(vessel_data[key])
+                if volume > 0:
+                    debug_print(f"✅ 容器 '{vessel_id}' 体积: {volume}mL (字段: {key})")
+                    return volume
+            except (ValueError, TypeError):
+                continue
+    
+    debug_print(f"⚠️ 无法获取容器 '{vessel_id}' 的体积，返回默认值 50.0mL")
+    return 50.0
+
+def update_vessel_volume(vessel: dict, G: nx.DiGraph, new_volume: float, description: str = "") -> None:
+    """
+    更新容器体积（同时更新vessel字典和图节点）
+    
+    Args:
+        vessel: 容器字典
+        G: 网络图
+        new_volume: 新体积
+        description: 更新描述
+    """
+    vessel_id = vessel.get("id", "unknown")
+    
+    if description:
+        debug_print(f"🔧 更新容器体积 - {description}")
+    
+    # 更新vessel字典中的体积
+    if "data" in vessel:
+        if "liquid_volume" in vessel["data"]:
+            current_volume = vessel["data"]["liquid_volume"]
+            if isinstance(current_volume, list):
+                if len(current_volume) > 0:
+                    vessel["data"]["liquid_volume"][0] = new_volume
+                else:
+                    vessel["data"]["liquid_volume"] = [new_volume]
+            else:
+                vessel["data"]["liquid_volume"] = new_volume
+        else:
+            vessel["data"]["liquid_volume"] = new_volume
+    else:
+        vessel["data"] = {"liquid_volume": new_volume}
+    
+    # 同时更新图中的容器数据
+    if vessel_id in G.nodes():
+        if 'data' not in G.nodes[vessel_id]:
+            G.nodes[vessel_id]['data'] = {}
+        
+        vessel_node_data = G.nodes[vessel_id]['data']
+        current_node_volume = vessel_node_data.get('liquid_volume', 0.0)
+        
+        if isinstance(current_node_volume, list):
+            if len(current_node_volume) > 0:
+                G.nodes[vessel_id]['data']['liquid_volume'][0] = new_volume
+            else:
+                G.nodes[vessel_id]['data']['liquid_volume'] = [new_volume]
+        else:
+            G.nodes[vessel_id]['data']['liquid_volume'] = new_volume
+    
+    debug_print(f"📊 容器 '{vessel_id}' 体积已更新为: {new_volume:.2f}mL")
+
 def calculate_solvent_volumes(total_volume: float, pct1: float, pct2: float) -> tuple:
    """根据百分比计算溶剂体积"""
    volume1 = (total_volume * pct1) / 100.0
    volume2 = (total_volume * pct2) / 100.0
+    
+    debug_print(f"🧮 溶剂体积计算: 总体积{total_volume}mL")
+    debug_print(f"  - 溶剂1: {pct1}% = {volume1}mL")
+    debug_print(f"  - 溶剂2: {pct2}% = {volume2}mL")
+    
    return (volume1, volume2)

 def generate_run_column_protocol(
    G: nx.DiGraph,
-    from_vessel: dict,
-    to_vessel: dict,
+    from_vessel: dict,  # 🔧 修改：从字符串改为字典类型
+    to_vessel: dict,    # 🔧 修改：从字符串改为字典类型
    column: str,
    rf: str = "",
    pct1: str = "",
@@ -174,7 +385,7 @@ def generate_run_column_protocol(
 ) -> List[Dict[str, Any]]:
    """
    生成柱层析分离的协议序列 - 支持vessel字典和体积运算
-
+    
    Args:
        G: 有向图，节点为设备和容器，边为流体管道
        from_vessel: 源容器字典（从XDL传入）
@@ -187,112 +398,173 @@ def generate_run_column_protocol(
        solvent2: 第二种溶剂名称（可选）
        ratio: 溶剂比例（如 "5:95"，可选，优先级高于pct1/pct2）
        **kwargs: 其他可选参数
-
+    
    Returns:
        List[Dict[str, Any]]: 柱层析分离操作的动作序列
    """
-
+    
+    # 🔧 核心修改：从字典中提取容器ID
    from_vessel_id, _ = get_vessel(from_vessel)
    to_vessel_id, _ = get_vessel(to_vessel)

-    debug_print(f"开始生成柱层析协议: {from_vessel_id} -> {to_vessel_id}, column={column}")
-
+    debug_print("🏛️" * 20)
+    debug_print("🚀 开始生成柱层析协议（支持vessel字典和体积运算）✨")
+    debug_print(f"📝 输入参数:")
+    debug_print(f"  🥽 from_vessel: {from_vessel} (ID: {from_vessel_id})")
+    debug_print(f"  🥽 to_vessel: {to_vessel} (ID: {to_vessel_id})")
+    debug_print(f"  🏛️ column: '{column}'")
+    debug_print(f"  📊 rf: '{rf}'")
+    debug_print(f"  🧪 溶剂配比: pct1='{pct1}', pct2='{pct2}', ratio='{ratio}'")
+    debug_print(f"  🧪 溶剂名称: solvent1='{solvent1}', solvent2='{solvent2}'")
+    debug_print("🏛️" * 20)
+    
    action_sequence = []
-
-    # 记录柱层析前的容器状态
-    original_from_volume = get_resource_liquid_volume(from_vessel)
-    original_to_volume = get_resource_liquid_volume(to_vessel)
-
+    
+    # 🔧 新增：记录柱层析前的容器状态
+    debug_print("🔍 记录柱层析前容器状态...")
+    original_from_volume = get_vessel_liquid_volume(from_vessel)
+    original_to_volume = get_vessel_liquid_volume(to_vessel)
+    
+    debug_print(f"📊 柱层析前状态:")
+    debug_print(f"  - 源容器 {from_vessel_id}: {original_from_volume:.2f}mL")
+    debug_print(f"  - 目标容器 {to_vessel_id}: {original_to_volume:.2f}mL")
+    
    # === 参数验证 ===
-    if not from_vessel_id:
+    debug_print("📍 步骤1: 参数验证...")
+    
+    if not from_vessel_id:  # 🔧 使用 from_vessel_id
        raise ValueError("from_vessel 参数不能为空")
-    if not to_vessel_id:
+    if not to_vessel_id:    # 🔧 使用 to_vessel_id
        raise ValueError("to_vessel 参数不能为空")
    if not column:
        raise ValueError("column 参数不能为空")
-
-    if from_vessel_id not in G.nodes():
+    
+    if from_vessel_id not in G.nodes():  # 🔧 使用 from_vessel_id
        raise ValueError(f"源容器 '{from_vessel_id}' 不存在于系统中")
-    if to_vessel_id not in G.nodes():
+    if to_vessel_id not in G.nodes():    # 🔧 使用 to_vessel_id
        raise ValueError(f"目标容器 '{to_vessel_id}' 不存在于系统中")
-
+    
+    debug_print("✅ 基本参数验证通过")
+    
    # === 参数解析 ===
+    debug_print("📍 步骤2: 参数解析...")
+    
+    # 解析Rf值
    final_rf = parse_rf_value(rf)
-
+    debug_print(f"🎯 最终Rf值: {final_rf}")
+    
+    # 解析溶剂比例（ratio优先级高于pct1/pct2）
    if ratio and ratio.strip():
        final_pct1, final_pct2 = parse_ratio(ratio)
+        debug_print(f"📊 使用ratio参数: {final_pct1:.1f}% : {final_pct2:.1f}%")
    else:
        final_pct1 = parse_percentage(pct1) if pct1 else 50.0
        final_pct2 = parse_percentage(pct2) if pct2 else 50.0
-
+        
+        # 如果百分比和不是100%，进行归一化
        total_pct = final_pct1 + final_pct2
        if total_pct == 0:
            final_pct1, final_pct2 = 50.0, 50.0
        elif total_pct != 100.0:
            final_pct1 = (final_pct1 / total_pct) * 100
            final_pct2 = (final_pct2 / total_pct) * 100
-
+        
+        debug_print(f"📊 使用百分比参数: {final_pct1:.1f}% : {final_pct2:.1f}%")
+    
+    # 设置默认溶剂（如果未指定）
    final_solvent1 = solvent1.strip() if solvent1 else "ethyl_acetate"
    final_solvent2 = solvent2.strip() if solvent2 else "hexane"
-
-    debug_print(f"参数: rf={final_rf}, 溶剂={final_solvent1}:{final_solvent2} = {final_pct1:.1f}%:{final_pct2:.1f}%")
-
+    
+    debug_print(f"🧪 最终溶剂: {final_solvent1} : {final_solvent2}")
+    
    # === 查找设备和容器 ===
+    debug_print("📍 步骤3: 查找设备和容器...")
+    
+    # 查找柱层析设备
    column_device_id = find_column_device(G)
+    
+    # 查找柱容器
    column_vessel = find_column_vessel(G, column)
+    
+    # 查找溶剂容器
    solvent1_vessel = find_solvent_vessel(G, final_solvent1)
    solvent2_vessel = find_solvent_vessel(G, final_solvent2)
-
+    
+    debug_print(f"🔧 设备映射:")
+    debug_print(f"  - 柱设备: '{column_device_id}'")
+    debug_print(f"  - 柱容器: '{column_vessel}'")
+    debug_print(f"  - 溶剂1容器: '{solvent1_vessel}'")
+    debug_print(f"  - 溶剂2容器: '{solvent2_vessel}'")
+    
    # === 获取源容器体积 ===
+    debug_print("📍 步骤4: 获取源容器体积...")
+    
    source_volume = original_from_volume
    if source_volume <= 0:
-        source_volume = 50.0
-
+        source_volume = 50.0  # 默认体积
+        debug_print(f"⚠️ 无法获取源容器体积，使用默认值: {source_volume}mL")
+    else:
+        debug_print(f"✅ 源容器体积: {source_volume}mL")
+    
    # === 计算溶剂体积 ===
+    debug_print("📍 步骤5: 计算溶剂体积...")
+    
+    # 洗脱溶剂通常是样品体积的2-5倍
    total_elution_volume = source_volume * 3.0
    solvent1_volume, solvent2_volume = calculate_solvent_volumes(
        total_elution_volume, final_pct1, final_pct2
    )
-
+    
    # === 执行柱层析流程 ===
+    debug_print("📍 步骤6: 执行柱层析流程...")
+    
+    # 🔧 新增：体积变化跟踪变量
    current_from_volume = source_volume
    current_to_volume = original_to_volume
    current_column_volume = 0.0
-
+    
    try:
-        # 步骤1: 样品上柱
-        if column_vessel and column_vessel != from_vessel_id:
+        # 步骤6.1: 样品上柱（如果有独立的柱容器）
+        if column_vessel and column_vessel != from_vessel_id:  # 🔧 使用 from_vessel_id
+            debug_print(f"📍 6.1: 样品上柱 - {source_volume}mL 从 {from_vessel_id} 到 {column_vessel}")
+            
            try:
                sample_transfer_actions = generate_pump_protocol_with_rinsing(
                    G=G,
-                    from_vessel=from_vessel_id,
+                    from_vessel=from_vessel_id,  # 🔧 使用 from_vessel_id
                    to_vessel=column_vessel,
                    volume=source_volume,
-                    flowrate=1.0,
+                    flowrate=1.0,  # 慢速上柱
                    transfer_flowrate=0.5,
-                    rinsing_solvent="",
+                    rinsing_solvent="",  # 暂不冲洗
                    rinsing_volume=0.0,
                    rinsing_repeats=0
                )
                action_sequence.extend(sample_transfer_actions)
-
-                current_from_volume = 0.0
-                current_column_volume = source_volume
-
+                debug_print(f"✅ 样品上柱完成，添加了 {len(sample_transfer_actions)} 个动作")
+                
+                # 🔧 新增：更新体积 - 样品转移到柱上
+                current_from_volume = 0.0  # 源容器体积变为0
+                current_column_volume = source_volume  # 柱容器体积增加
+                
                update_vessel_volume(from_vessel, G, current_from_volume, "样品上柱后，源容器清空")
-
+                
+                # 如果柱容器在图中，也更新其体积
                if column_vessel in G.nodes():
                    if 'data' not in G.nodes[column_vessel]:
                        G.nodes[column_vessel]['data'] = {}
                    G.nodes[column_vessel]['data']['liquid_volume'] = current_column_volume
-
+                    debug_print(f"📊 柱容器 '{column_vessel}' 体积更新为: {current_column_volume:.2f}mL")
+                
            except Exception as e:
-                debug_print(f"样品上柱失败: {str(e)}")
-
-        # 步骤2: 添加洗脱溶剂1
+                debug_print(f"⚠️ 样品上柱失败: {str(e)}")
+        
+        # 步骤6.2: 添加洗脱溶剂1（如果有溶剂容器）
        if solvent1_vessel and solvent1_volume > 0:
+            debug_print(f"📍 6.2: 添加洗脱溶剂1 - {solvent1_volume:.1f}mL {final_solvent1}")
+            
            try:
-                target_vessel = column_vessel if column_vessel else from_vessel_id
+                target_vessel = column_vessel if column_vessel else from_vessel_id  # 🔧 使用 from_vessel_id
                solvent1_transfer_actions = generate_pump_protocol_with_rinsing(
                    G=G,
                    from_vessel=solvent1_vessel,
@@ -302,22 +574,27 @@ def generate_run_column_protocol(
                    transfer_flowrate=1.0
                )
                action_sequence.extend(solvent1_transfer_actions)
-
+                debug_print(f"✅ 溶剂1添加完成，添加了 {len(solvent1_transfer_actions)} 个动作")
+                
+                # 🔧 新增：更新体积 - 添加溶剂1
                if target_vessel == column_vessel:
                    current_column_volume += solvent1_volume
                    if column_vessel in G.nodes():
                        G.nodes[column_vessel]['data']['liquid_volume'] = current_column_volume
+                        debug_print(f"📊 柱容器体积增加: +{solvent1_volume:.2f}mL = {current_column_volume:.2f}mL")
                elif target_vessel == from_vessel_id:
                    current_from_volume += solvent1_volume
                    update_vessel_volume(from_vessel, G, current_from_volume, "添加溶剂1后")
-
+                
            except Exception as e:
-                debug_print(f"溶剂1添加失败: {str(e)}")
-
-        # 步骤3: 添加洗脱溶剂2
+                debug_print(f"⚠️ 溶剂1添加失败: {str(e)}")
+        
+        # 步骤6.3: 添加洗脱溶剂2（如果有溶剂容器）
        if solvent2_vessel and solvent2_volume > 0:
+            debug_print(f"📍 6.3: 添加洗脱溶剂2 - {solvent2_volume:.1f}mL {final_solvent2}")
+            
            try:
-                target_vessel = column_vessel if column_vessel else from_vessel_id
+                target_vessel = column_vessel if column_vessel else from_vessel_id  # 🔧 使用 from_vessel_id
                solvent2_transfer_actions = generate_pump_protocol_with_rinsing(
                    G=G,
                    from_vessel=solvent2_vessel,
@@ -327,26 +604,31 @@ def generate_run_column_protocol(
                    transfer_flowrate=1.0
                )
                action_sequence.extend(solvent2_transfer_actions)
-
+                debug_print(f"✅ 溶剂2添加完成，添加了 {len(solvent2_transfer_actions)} 个动作")
+                
+                # 🔧 新增：更新体积 - 添加溶剂2
                if target_vessel == column_vessel:
                    current_column_volume += solvent2_volume
                    if column_vessel in G.nodes():
                        G.nodes[column_vessel]['data']['liquid_volume'] = current_column_volume
+                        debug_print(f"📊 柱容器体积增加: +{solvent2_volume:.2f}mL = {current_column_volume:.2f}mL")
                elif target_vessel == from_vessel_id:
                    current_from_volume += solvent2_volume
                    update_vessel_volume(from_vessel, G, current_from_volume, "添加溶剂2后")
-
+                
            except Exception as e:
-                debug_print(f"溶剂2添加失败: {str(e)}")
-
-        # 步骤4: 使用柱层析设备执行分离
+                debug_print(f"⚠️ 溶剂2添加失败: {str(e)}")
+        
+        # 步骤6.4: 使用柱层析设备执行分离（如果有设备）
        if column_device_id:
+            debug_print(f"📍 6.4: 使用柱层析设备执行分离")
+            
            column_separation_action = {
                "device_id": column_device_id,
                "action_name": "run_column",
                "action_kwargs": {
-                    "from_vessel": from_vessel_id,
-                    "to_vessel": to_vessel_id,
+                    "from_vessel": from_vessel_id,  # 🔧 使用 from_vessel_id
+                    "to_vessel": to_vessel_id,      # 🔧 使用 to_vessel_id
                    "column": column,
                    "rf": rf,
                    "pct1": pct1,
@@ -357,65 +639,85 @@ def generate_run_column_protocol(
                }
            }
            action_sequence.append(column_separation_action)
-
-            separation_time = max(30, min(120, int(total_elution_volume / 2)))
+            debug_print(f"✅ 柱层析设备动作已添加")
+            
+            # 等待分离完成
+            separation_time = max(30, min(120, int(total_elution_volume / 2)))  # 30-120秒，基于体积
            action_sequence.append({
                "action_name": "wait",
                "action_kwargs": {"time": separation_time}
            })
-
-        # 步骤5: 产物收集
-        if column_vessel and column_vessel != to_vessel_id:
+            debug_print(f"✅ 等待分离完成: {separation_time}秒")
+        
+        # 步骤6.5: 产物收集（从柱容器到目标容器）
+        if column_vessel and column_vessel != to_vessel_id:  # 🔧 使用 to_vessel_id
+            debug_print(f"📍 6.5: 产物收集 - 从 {column_vessel} 到 {to_vessel_id}")
+            
            try:
+                # 估算产物体积（原始样品体积的70-90%，收率考虑）
                product_volume = source_volume * 0.8
-
+                
                product_transfer_actions = generate_pump_protocol_with_rinsing(
                    G=G,
                    from_vessel=column_vessel,
-                    to_vessel=to_vessel_id,
+                    to_vessel=to_vessel_id,  # 🔧 使用 to_vessel_id
                    volume=product_volume,
                    flowrate=1.5,
                    transfer_flowrate=0.8
                )
                action_sequence.extend(product_transfer_actions)
-
+                debug_print(f"✅ 产物收集完成，添加了 {len(product_transfer_actions)} 个动作")
+                
+                # 🔧 新增：更新体积 - 产物收集到目标容器
                current_to_volume += product_volume
-                current_column_volume -= product_volume
-
+                current_column_volume -= product_volume  # 柱容器体积减少
+                
                update_vessel_volume(to_vessel, G, current_to_volume, "产物收集后")
-
+                
+                # 更新柱容器体积
                if column_vessel in G.nodes():
                    G.nodes[column_vessel]['data']['liquid_volume'] = max(0.0, current_column_volume)
-
+                    debug_print(f"📊 柱容器体积减少: -{product_volume:.2f}mL = {current_column_volume:.2f}mL")
+                
            except Exception as e:
-                debug_print(f"产物收集失败: {str(e)}")
-
-        # 步骤6: 简化模式 - 直接转移
+                debug_print(f"⚠️ 产物收集失败: {str(e)}")
+        
+        # 步骤6.6: 如果没有独立的柱设备和容器，执行简化的直接转移
        if not column_device_id and not column_vessel:
+            debug_print(f"📍 6.6: 简化模式 - 直接转移 {source_volume}mL 从 {from_vessel_id} 到 {to_vessel_id}")
+            
            try:
                direct_transfer_actions = generate_pump_protocol_with_rinsing(
                    G=G,
-                    from_vessel=from_vessel_id,
-                    to_vessel=to_vessel_id,
+                    from_vessel=from_vessel_id,  # 🔧 使用 from_vessel_id
+                    to_vessel=to_vessel_id,      # 🔧 使用 to_vessel_id
                    volume=source_volume,
                    flowrate=2.0,
                    transfer_flowrate=1.0
                )
                action_sequence.extend(direct_transfer_actions)
-
-                current_from_volume = 0.0
-                current_to_volume += source_volume
-
+                debug_print(f"✅ 直接转移完成，添加了 {len(direct_transfer_actions)} 个动作")
+                
+                # 🔧 新增：更新体积 - 直接转移
+                current_from_volume = 0.0  # 源容器清空
+                current_to_volume += source_volume  # 目标容器增加
+                
                update_vessel_volume(from_vessel, G, current_from_volume, "直接转移后，源容器清空")
                update_vessel_volume(to_vessel, G, current_to_volume, "直接转移后，目标容器增加")
-
+                
            except Exception as e:
-                debug_print(f"直接转移失败: {str(e)}")
-
+                debug_print(f"⚠️ 直接转移失败: {str(e)}")
+        
    except Exception as e:
-        debug_print(f"协议生成失败: {str(e)}")
-
+        debug_print(f"❌ 协议生成失败: {str(e)} 😭")
+        
+        # 不添加不确定的动作，直接让action_sequence保持为空列表
+        # action_sequence 已经在函数开始时初始化为 []
+    
+    # 确保至少有一个有效的动作，如果完全失败就返回空列表
    if not action_sequence:
+        debug_print("⚠️ 没有生成任何有效动作")
+        # 可以选择返回空列表或添加一个基本的等待动作
        action_sequence.append({
            "action_name": "wait",
            "action_kwargs": {
@@ -423,50 +725,83 @@ def generate_run_column_protocol(
                "description": "柱层析协议执行完成"
            }
        })
-
-    final_from_volume = get_resource_liquid_volume(from_vessel)
-    final_to_volume = get_resource_liquid_volume(to_vessel)
-
-    debug_print(f"柱层析协议生成完成: {len(action_sequence)} 个动作, {from_vessel_id} -> {to_vessel_id}, 收集={final_to_volume - original_to_volume:.2f}mL")
-
+    
+    # 🔧 新增：柱层析完成后的最终状态报告
+    final_from_volume = get_vessel_liquid_volume(from_vessel)
+    final_to_volume = get_vessel_liquid_volume(to_vessel)
+    
+    # 🎊 总结
+    debug_print("🏛️" * 20)
+    debug_print(f"🎉 柱层析协议生成完成! ✨")
+    debug_print(f"📊 总动作数: {len(action_sequence)} 个")
+    debug_print(f"🥽 路径: {from_vessel_id} → {to_vessel_id}")
+    debug_print(f"🏛️ 柱子: {column}")
+    debug_print(f"🧪 溶剂: {final_solvent1}:{final_solvent2} = {final_pct1:.1f}%:{final_pct2:.1f}%")
+    debug_print(f"📊 体积变化统计:")
+    debug_print(f"  源容器 {from_vessel_id}:")
+    debug_print(f"    - 柱层析前: {original_from_volume:.2f}mL")
+    debug_print(f"    - 柱层析后: {final_from_volume:.2f}mL")
+    debug_print(f"  目标容器 {to_vessel_id}:")
+    debug_print(f"    - 柱层析前: {original_to_volume:.2f}mL")
+    debug_print(f"    - 柱层析后: {final_to_volume:.2f}mL")
+    debug_print(f"    - 收集体积: {final_to_volume - original_to_volume:.2f}mL")
+    debug_print(f"⏱️ 预计总时间: {len(action_sequence) * 5:.0f} 秒 ⌛")
+    debug_print("🏛️" * 20)
+    
    return action_sequence

-# 便捷函数
-def generate_ethyl_acetate_hexane_column_protocol(G: nx.DiGraph, from_vessel: dict, to_vessel: dict,
+# 🔧 新增：便捷函数
+def generate_ethyl_acetate_hexane_column_protocol(G: nx.DiGraph, from_vessel: dict, to_vessel: dict, 
                                                 column: str, ratio: str = "30:70") -> List[Dict[str, Any]]:
    """乙酸乙酯-己烷柱层析（常用组合）"""
-    return generate_run_column_protocol(G, from_vessel, to_vessel, column,
+    from_vessel_id = from_vessel["id"]
+    to_vessel_id = to_vessel["id"]
+    debug_print(f"🧪⛽ 乙酸乙酯-己烷柱层析: {from_vessel_id} → {to_vessel_id} @ {ratio}")
+    return generate_run_column_protocol(G, from_vessel, to_vessel, column, 
                                      solvent1="ethyl_acetate", solvent2="hexane", ratio=ratio)

-def generate_methanol_dcm_column_protocol(G: nx.DiGraph, from_vessel: dict, to_vessel: dict,
+def generate_methanol_dcm_column_protocol(G: nx.DiGraph, from_vessel: dict, to_vessel: dict, 
                                        column: str, ratio: str = "5:95") -> List[Dict[str, Any]]:
    """甲醇-二氯甲烷柱层析"""
-    return generate_run_column_protocol(G, from_vessel, to_vessel, column,
+    from_vessel_id = from_vessel["id"]
+    to_vessel_id = to_vessel["id"]
+    debug_print(f"🧪🧪 甲醇-DCM柱层析: {from_vessel_id} → {to_vessel_id} @ {ratio}")
+    return generate_run_column_protocol(G, from_vessel, to_vessel, column, 
                                      solvent1="methanol", solvent2="dichloromethane", ratio=ratio)

-def generate_gradient_column_protocol(G: nx.DiGraph, from_vessel: dict, to_vessel: dict,
-                                    column: str, start_ratio: str = "10:90",
+def generate_gradient_column_protocol(G: nx.DiGraph, from_vessel: dict, to_vessel: dict, 
+                                    column: str, start_ratio: str = "10:90", 
                                    end_ratio: str = "50:50") -> List[Dict[str, Any]]:
    """梯度洗脱柱层析（中等比例）"""
+    from_vessel_id, _ = get_vessel(from_vessel)
+    to_vessel_id, _ = get_vessel(to_vessel)
+    debug_print(f"📈 梯度柱层析: {from_vessel_id} → {to_vessel_id} ({start_ratio} → {end_ratio})")
+    # 使用中间比例作为近似
    return generate_run_column_protocol(G, from_vessel, to_vessel, column, ratio="30:70")

-def generate_polar_column_protocol(G: nx.DiGraph, from_vessel: dict, to_vessel: dict,
+def generate_polar_column_protocol(G: nx.DiGraph, from_vessel: dict, to_vessel: dict, 
                                 column: str) -> List[Dict[str, Any]]:
    """极性化合物柱层析（高极性溶剂比例）"""
-    return generate_run_column_protocol(G, from_vessel, to_vessel, column,
+    from_vessel_id, _ = get_vessel(from_vessel)
+    to_vessel_id, _ = get_vessel(to_vessel)
+    debug_print(f"⚡ 极性化合物柱层析: {from_vessel_id} → {to_vessel_id}")
+    return generate_run_column_protocol(G, from_vessel, to_vessel, column, 
                                      solvent1="ethyl_acetate", solvent2="hexane", ratio="70:30")

-def generate_nonpolar_column_protocol(G: nx.DiGraph, from_vessel: dict, to_vessel: dict,
+def generate_nonpolar_column_protocol(G: nx.DiGraph, from_vessel: dict, to_vessel: dict, 
                                    column: str) -> List[Dict[str, Any]]:
    """非极性化合物柱层析（低极性溶剂比例）"""
-    return generate_run_column_protocol(G, from_vessel, to_vessel, column,
+    from_vessel_id, _ = get_vessel(from_vessel)
+    to_vessel_id, _ = get_vessel(to_vessel)
+    debug_print(f"🛢️ 非极性化合物柱层析: {from_vessel_id} → {to_vessel_id}")
+    return generate_run_column_protocol(G, from_vessel, to_vessel, column, 
                                      solvent1="ethyl_acetate", solvent2="hexane", ratio="5:95")

 # 测试函数
 def test_run_column_protocol():
    """测试柱层析协议"""
-    debug_print("=== RUN COLUMN PROTOCOL 测试 ===")
-    debug_print("测试完成")
+    debug_print("🧪 === RUN COLUMN PROTOCOL 测试 === ✨")
+    debug_print("✅ 测试完成 🎉")

 if __name__ == "__main__":
    test_run_column_protocol()
--- a/unilabos/compile/separate_protocol.py
+++ b/unilabos/compile/separate_protocol.py
@@ -1,11 +1,41 @@
+from functools import partial
+
 import networkx as nx
+import re
+import logging
+import sys
 from typing import List, Dict, Any, Union
-from .utils.vessel_parser import get_vessel, find_solvent_vessel, find_connected_stirrer
-from .utils.resource_helper import get_resource_liquid_volume, update_vessel_volume
-from .utils.logger_util import debug_print, action_log
-from .utils.unit_parser import parse_volume_input
+from .utils.vessel_parser import get_vessel
+from .utils.logger_util import action_log
 from .pump_protocol import generate_pump_protocol_with_rinsing

+logger = logging.getLogger(__name__)
+
+# 确保输出编码为UTF-8
+if hasattr(sys.stdout, 'reconfigure'):
+    try:
+        sys.stdout.reconfigure(encoding='utf-8')
+        sys.stderr.reconfigure(encoding='utf-8')
+    except:
+        pass
+
+def debug_print(message):
+    """调试输出函数 - 支持中文"""
+    try:
+        # 确保消息是字符串格式
+        safe_message = str(message)
+        logger.info(f"[SEPARATE] {safe_message}")
+    except UnicodeEncodeError:
+        # 如果编码失败，尝试替换不支持的字符
+        safe_message = str(message).encode('utf-8', errors='replace').decode('utf-8')
+        logger.info(f"[SEPARATE] {safe_message}")
+    except Exception as e:
+        # 最后的安全措施
+        fallback_message = f"日志输出错误: {repr(message)}"
+        logger.info(f"[SEPARATE] {fallback_message}")
+
+create_action_log = partial(action_log, prefix="[SEPARATE]")
+

 def generate_separate_protocol(
    G: nx.DiGraph,
@@ -63,33 +93,45 @@ def generate_separate_protocol(
    # 🔧 核心修改：从字典中提取容器ID
    vessel_id, vessel_data = get_vessel(vessel)

-    debug_print(f"开始生成分离协议: vessel={vessel_id}, purpose={purpose}, "
-                f"product_phase={product_phase}, solvent={solvent}, "
-                f"volume={volume}, repeats={repeats}")
+    debug_print("🌀" * 20)
+    debug_print("🚀 开始生成分离协议（支持vessel字典和体积运算）✨")
+    debug_print(f"📝 输入参数:")
+    debug_print(f"  🥽 vessel: {vessel} (ID: {vessel_id})")
+    debug_print(f"  🎯 分离目的: '{purpose}'")
+    debug_print(f"  📊 产物相: '{product_phase}'")
+    debug_print(f"  💧 溶剂: '{solvent}'")
+    debug_print(f"  📏 体积: {volume} (类型: {type(volume)})")
+    debug_print(f"  🔄 重复次数: {repeats}")
+    debug_print(f"  🎯 产物容器: '{product_vessel}'")
+    debug_print(f"  🗑️ 废液容器: '{waste_vessel}'")
+    debug_print(f"  📦 其他参数: {kwargs}")
+    debug_print("🌀" * 20)

    action_sequence = []

-    # 记录分离前的容器状态
-    original_liquid_volume = get_resource_liquid_volume(vessel)
-    debug_print(f"分离前液体体积: {original_liquid_volume:.2f}mL")
+    # 🔧 新增：记录分离前的容器状态
+    debug_print("🔍 记录分离前容器状态...")
+    original_liquid_volume = get_vessel_liquid_volume(vessel)
+    debug_print(f"📊 分离前液体体积: {original_liquid_volume:.2f}mL")

    # === 参数验证和标准化 ===
-    action_sequence.append(action_log(f"开始分离操作 - 容器: {vessel_id}", "🎬", prefix="[SEPARATE]"))
-    action_sequence.append(action_log(f"分离目的: {purpose}", "🧪", prefix="[SEPARATE]"))
-    action_sequence.append(action_log(f"产物相: {product_phase}", "📊", prefix="[SEPARATE]"))
+    debug_print("🔍 步骤1: 参数验证和标准化...")
+    action_sequence.append(create_action_log(f"开始分离操作 - 容器: {vessel_id}", "🎬"))
+    action_sequence.append(create_action_log(f"分离目的: {purpose}", "🧪"))
+    action_sequence.append(create_action_log(f"产物相: {product_phase}", "📊"))

    # 统一容器参数 - 支持字典和字符串
-    final_vessel_id = vessel_id
+    def extract_vessel_id(vessel_param):
+        if isinstance(vessel_param, dict):
+            return vessel_param.get("id", "")
+        elif isinstance(vessel_param, str):
+            return vessel_param
+        else:
+            return ""

-    to_vessel_result = get_vessel(to_vessel) if to_vessel else None
-    if to_vessel_result is None or to_vessel_result[0] == "":
-        to_vessel_result = get_vessel(product_vessel) if product_vessel else None
-    final_to_vessel_id = to_vessel_result[0] if to_vessel_result else ""
-
-    waste_vessel_result = get_vessel(waste_phase_to_vessel) if waste_phase_to_vessel else None
-    if waste_vessel_result is None or waste_vessel_result[0] == "":
-        waste_vessel_result = get_vessel(waste_vessel) if waste_vessel else None
-    final_waste_vessel_id = waste_vessel_result[0] if waste_vessel_result else ""
+    final_vessel_id, _ = vessel_id
+    final_to_vessel_id, _ = get_vessel(to_vessel) or get_vessel(product_vessel)
+    final_waste_vessel_id, _ = get_vessel(waste_phase_to_vessel) or get_vessel(waste_vessel)

    # 统一体积参数
    final_volume = parse_volume_input(volume or solvent_volume)
@@ -99,12 +141,16 @@ def generate_separate_protocol(
        repeats = 1
        debug_print(f"⚠️ 重复次数参数 <= 0，自动设置为 1")

-    debug_print(f"标准化参数: vessel={final_vessel_id}, to={final_to_vessel_id}, "
-                f"waste={final_waste_vessel_id}, volume={final_volume}mL, repeats={repeats}")
+    debug_print(f"🔧 标准化后的参数:")
+    debug_print(f"  🥼 分离容器: '{final_vessel_id}'")
+    debug_print(f"  🎯 产物容器: '{final_to_vessel_id}'")
+    debug_print(f"  🗑️ 废液容器: '{final_waste_vessel_id}'")
+    debug_print(f"  📏 溶剂体积: {final_volume}mL")
+    debug_print(f"  🔄 重复次数: {repeats}")

-    action_sequence.append(action_log(f"分离容器: {final_vessel_id}", "🧪", prefix="[SEPARATE]"))
-    action_sequence.append(action_log(f"溶剂体积: {final_volume}mL", "📏", prefix="[SEPARATE]"))
-    action_sequence.append(action_log(f"重复次数: {repeats}", "🔄", prefix="[SEPARATE]"))
+    action_sequence.append(create_action_log(f"分离容器: {final_vessel_id}", "🧪"))
+    action_sequence.append(create_action_log(f"溶剂体积: {final_volume}mL", "📏"))
+    action_sequence.append(create_action_log(f"重复次数: {repeats}", "🔄"))

    # 验证必需参数
    if not purpose:
@@ -114,68 +160,72 @@ def generate_separate_protocol(
    if purpose not in ["wash", "extract", "separate"]:
        debug_print(f"⚠️ 未知的分离目的 '{purpose}'，使用默认值 'separate'")
        purpose = "separate"
-        action_sequence.append(action_log(f"未知目的，使用: {purpose}", "⚠️", prefix="[SEPARATE]"))
+        action_sequence.append(create_action_log(f"未知目的，使用: {purpose}", "⚠️"))
    if product_phase not in ["top", "bottom"]:
        debug_print(f"⚠️ 未知的产物相 '{product_phase}'，使用默认值 'top'")
        product_phase = "top"
-        action_sequence.append(action_log(f"未知相别，使用: {product_phase}", "⚠️", prefix="[SEPARATE]"))
+        action_sequence.append(create_action_log(f"未知相别，使用: {product_phase}", "⚠️"))

-    action_sequence.append(action_log("参数验证通过", "✅", prefix="[SEPARATE]"))
+    debug_print("✅ 参数验证通过")
+    action_sequence.append(create_action_log("参数验证通过", "✅"))

    # === 查找设备 ===
-    action_sequence.append(action_log("正在查找相关设备...", "🔍", prefix="[SEPARATE]"))
+    debug_print("🔍 步骤2: 查找设备...")
+    action_sequence.append(create_action_log("正在查找相关设备...", "🔍"))

    # 查找分离器设备
-    separator_device = find_separator_device(G, final_vessel_id)
+    separator_device = find_separator_device(G, final_vessel_id)  # 🔧 使用 final_vessel_id
    if separator_device:
-        action_sequence.append(action_log(f"找到分离器设备: {separator_device}", "🧪", prefix="[SEPARATE]"))
+        action_sequence.append(create_action_log(f"找到分离器设备: {separator_device}", "🧪"))
    else:
        debug_print("⚠️ 未找到分离器设备，可能无法执行分离")
-        action_sequence.append(action_log("未找到分离器设备", "⚠️", prefix="[SEPARATE]"))
+        action_sequence.append(create_action_log("未找到分离器设备", "⚠️"))

    # 查找搅拌器
-    stirrer_device = find_connected_stirrer(G, final_vessel_id)
+    stirrer_device = find_connected_stirrer(G, final_vessel_id)  # 🔧 使用 final_vessel_id
    if stirrer_device:
-        action_sequence.append(action_log(f"找到搅拌器: {stirrer_device}", "🌪️", prefix="[SEPARATE]"))
+        action_sequence.append(create_action_log(f"找到搅拌器: {stirrer_device}", "🌪️"))
    else:
-        action_sequence.append(action_log("未找到搅拌器", "⚠️", prefix="[SEPARATE]"))
+        action_sequence.append(create_action_log("未找到搅拌器", "⚠️"))

    # 查找溶剂容器（如果需要）
    solvent_vessel = ""
    if solvent and solvent.strip():
-        try:
-            solvent_vessel = find_solvent_vessel(G, solvent)
-        except ValueError:
-            solvent_vessel = ""
+        solvent_vessel = find_solvent_vessel(G, solvent)
        if solvent_vessel:
-            action_sequence.append(action_log(f"找到溶剂容器: {solvent_vessel}", "💧", prefix="[SEPARATE]"))
+            action_sequence.append(create_action_log(f"找到溶剂容器: {solvent_vessel}", "💧"))
        else:
-            action_sequence.append(action_log(f"未找到溶剂容器: {solvent}", "⚠️", prefix="[SEPARATE]"))
+            action_sequence.append(create_action_log(f"未找到溶剂容器: {solvent}", "⚠️"))

-    debug_print(f"设备配置: separator={separator_device}, stirrer={stirrer_device}, solvent_vessel={solvent_vessel}")
+    debug_print(f"📊 设备配置:")
+    debug_print(f"  🧪 分离器设备: '{separator_device}'")
+    debug_print(f"  🌪️ 搅拌器设备: '{stirrer_device}'")
+    debug_print(f"  💧 溶剂容器: '{solvent_vessel}'")

    # === 执行分离流程 ===
-    action_sequence.append(action_log("开始分离工作流程", "🎯", prefix="[SEPARATE]"))
+    debug_print("🔍 步骤3: 执行分离流程...")
+    action_sequence.append(create_action_log("开始分离工作流程", "🎯"))

-    # 体积变化跟踪变量
+    # 🔧 新增：体积变化跟踪变量
    current_volume = original_liquid_volume

    try:
        for repeat_idx in range(repeats):
            cycle_num = repeat_idx + 1
-            debug_print(f"分离循环 {cycle_num}/{repeats} 开始")
-            action_sequence.append(action_log(f"分离循环 {cycle_num}/{repeats} 开始", "🔄", prefix="[SEPARATE]"))
+            debug_print(f"🔄 第{cycle_num}轮: 开始分离循环 {cycle_num}/{repeats}")
+            action_sequence.append(create_action_log(f"分离循环 {cycle_num}/{repeats} 开始", "🔄"))

            # 步骤3.1: 添加溶剂（如果需要）
            if solvent_vessel and final_volume > 0:
-                action_sequence.append(action_log(f"向分离容器添加 {final_volume}mL {solvent}", "💧", prefix="[SEPARATE]"))
+                debug_print(f"🔄 第{cycle_num}轮 步骤1: 添加溶剂 {solvent} ({final_volume}mL)")
+                action_sequence.append(create_action_log(f"向分离容器添加 {final_volume}mL {solvent}", "💧"))

                try:
                    # 使用pump protocol添加溶剂
                    pump_actions = generate_pump_protocol_with_rinsing(
                        G=G,
                        from_vessel=solvent_vessel,
-                        to_vessel=final_vessel_id,
+                        to_vessel=final_vessel_id,  # 🔧 使用 final_vessel_id
                        volume=final_volume,
                        amount="",
                        time=0.0,
@@ -192,27 +242,30 @@ def generate_separate_protocol(
                        **kwargs
                    )
                    action_sequence.extend(pump_actions)
-                    action_sequence.append(action_log(f"溶剂转移完成 ({len(pump_actions)} 个操作)", "✅", prefix="[SEPARATE]"))
+                    debug_print(f"✅ 溶剂添加完成，添加了 {len(pump_actions)} 个动作")
+                    action_sequence.append(create_action_log(f"溶剂转移完成 ({len(pump_actions)} 个操作)", "✅"))

-                    # 更新体积 - 添加溶剂后
+                    # 🔧 新增：更新体积 - 添加溶剂后
                    current_volume += final_volume
                    update_vessel_volume(vessel, G, current_volume, f"添加{final_volume}mL {solvent}后")

                except Exception as e:
                    debug_print(f"❌ 溶剂添加失败: {str(e)}")
-                    action_sequence.append(action_log(f"溶剂添加失败: {str(e)}", "❌", prefix="[SEPARATE]"))
+                    action_sequence.append(create_action_log(f"溶剂添加失败: {str(e)}", "❌"))
            else:
-                action_sequence.append(action_log("无需添加溶剂", "⏭️", prefix="[SEPARATE]"))
+                debug_print(f"🔄 第{cycle_num}轮 步骤1: 无需添加溶剂")
+                action_sequence.append(create_action_log("无需添加溶剂", "⏭️"))

            # 步骤3.2: 启动搅拌（如果有搅拌器）
            if stirrer_device and stir_time > 0:
-                action_sequence.append(action_log(f"开始搅拌: {stir_speed}rpm，持续 {stir_time}s", "🌪️", prefix="[SEPARATE]"))
+                debug_print(f"🔄 第{cycle_num}轮 步骤2: 开始搅拌 ({stir_speed}rpm，持续 {stir_time}s)")
+                action_sequence.append(create_action_log(f"开始搅拌: {stir_speed}rpm，持续 {stir_time}s", "🌪️"))

                action_sequence.append({
                    "device_id": stirrer_device,
                    "action_name": "start_stir",
                    "action_kwargs": {
-                        "vessel": {"id": final_vessel_id},
+                        "vessel": {"id": final_vessel_id},  # 🔧 使用 final_vessel_id
                        "stir_speed": stir_speed,
                        "purpose": f"分离混合 - {purpose}"
                    }
@@ -220,37 +273,43 @@ def generate_separate_protocol(

                # 搅拌等待
                stir_minutes = stir_time / 60
-                action_sequence.append(action_log(f"搅拌中，持续 {stir_minutes:.1f} 分钟", "⏱️", prefix="[SEPARATE]"))
+                action_sequence.append(create_action_log(f"搅拌中，持续 {stir_minutes:.1f} 分钟", "⏱️"))
                action_sequence.append({
                    "action_name": "wait",
                    "action_kwargs": {"time": stir_time}
                })

                # 停止搅拌
-                action_sequence.append(action_log("停止搅拌器", "🛑", prefix="[SEPARATE]"))
+                action_sequence.append(create_action_log("停止搅拌器", "🛑"))
                action_sequence.append({
                    "device_id": stirrer_device,
                    "action_name": "stop_stir",
-                    "action_kwargs": {"vessel": final_vessel_id}
+                    "action_kwargs": {"vessel": final_vessel_id}  # 🔧 使用 final_vessel_id
                })

            else:
-                action_sequence.append(action_log("无需搅拌", "⏭️", prefix="[SEPARATE]"))
+                debug_print(f"🔄 第{cycle_num}轮 步骤2: 无需搅拌")
+                action_sequence.append(create_action_log("无需搅拌", "⏭️"))

            # 步骤3.3: 静置分层
            if settling_time > 0:
+                debug_print(f"🔄 第{cycle_num}轮 步骤3: 静置分层 ({settling_time}s)")
                settling_minutes = settling_time / 60
-                action_sequence.append(action_log(f"静置分层 ({settling_minutes:.1f} 分钟)", "⚖️", prefix="[SEPARATE]"))
+                action_sequence.append(create_action_log(f"静置分层 ({settling_minutes:.1f} 分钟)", "⚖️"))
                action_sequence.append({
                    "action_name": "wait",
                    "action_kwargs": {"time": settling_time}
                })
            else:
-                action_sequence.append(action_log("未指定静置时间", "⏭️", prefix="[SEPARATE]"))
+                debug_print(f"🔄 第{cycle_num}轮 步骤3: 未指定静置时间")
+                action_sequence.append(create_action_log("未指定静置时间", "⏭️"))

            # 步骤3.4: 执行分离操作
            if separator_device:
-                action_sequence.append(action_log(f"执行分离: 收集{product_phase}相", "🧪", prefix="[SEPARATE]"))
+                debug_print(f"🔄 第{cycle_num}轮 步骤4: 执行分离操作")
+                action_sequence.append(create_action_log(f"执行分离: 收集{product_phase}相", "🧪"))
+
+                # 🔧 替换为具体的分离操作逻辑（基于old版本）

                # 首先进行分液判断（电导突跃）
                action_sequence.append({
@@ -265,10 +324,11 @@ def generate_separate_protocol(
                phase_volume = current_volume / 2

                # 智能查找分离容器底部
-                separation_vessel_bottom = find_separation_vessel_bottom(G, final_vessel_id)
+                separation_vessel_bottom = find_separation_vessel_bottom(G, final_vessel_id)  # ✅

                if product_phase == "bottom":
-                    action_sequence.append(action_log("收集底相产物", "📦", prefix="[SEPARATE]"))
+                    debug_print(f"🔄 收集底相产物到 {final_to_vessel_id}")
+                    action_sequence.append(create_action_log("收集底相产物", "📦"))

                    # 产物转移到目标瓶
                    if final_to_vessel_id:
@@ -304,7 +364,8 @@ def generate_separate_protocol(
                        action_sequence.extend(pump_actions)

                elif product_phase == "top":
-                    action_sequence.append(action_log("收集上相产物", "📦", prefix="[SEPARATE]"))
+                    debug_print(f"🔄 收集上相产物到 {final_to_vessel_id}")
+                    action_sequence.append(create_action_log("收集上相产物", "📦"))

                    # 弃去下面那一相进废液
                    if final_waste_vessel_id:
@@ -339,9 +400,10 @@ def generate_separate_protocol(
                        )
                        action_sequence.extend(pump_actions)

-                action_sequence.append(action_log("分离操作完成", "✅", prefix="[SEPARATE]"))
+                debug_print(f"✅ 分离操作已完成")
+                action_sequence.append(create_action_log("分离操作完成", "✅"))

-                # 分离后体积估算
+                # 🔧 新增：分离后体积估算
                separated_volume = phase_volume * 0.95  # 假设5%损失，只保留产物相体积
                update_vessel_volume(vessel, G, separated_volume, f"分离操作后（第{cycle_num}轮）")
                current_volume = separated_volume
@@ -349,21 +411,23 @@ def generate_separate_protocol(
                # 收集结果
                if final_to_vessel_id:
                    action_sequence.append(
-                        action_log(f"产物 ({product_phase}相) 收集到: {final_to_vessel_id}", "📦", prefix="[SEPARATE]"))
+                        create_action_log(f"产物 ({product_phase}相) 收集到: {final_to_vessel_id}", "📦"))
                if final_waste_vessel_id:
-                    action_sequence.append(action_log(f"废相收集到: {final_waste_vessel_id}", "🗑️", prefix="[SEPARATE]"))
+                    action_sequence.append(create_action_log(f"废相收集到: {final_waste_vessel_id}", "🗑️"))

            else:
-                action_sequence.append(action_log("无分离器设备可用", "❌", prefix="[SEPARATE]"))
+                debug_print(f"🔄 第{cycle_num}轮 步骤4: 无分离器设备，跳过分离")
+                action_sequence.append(create_action_log("无分离器设备可用", "❌"))
                # 添加等待时间模拟分离
                action_sequence.append({
                    "action_name": "wait",
                    "action_kwargs": {"time": 10.0}
                })

-            # 如果不是最后一次，从中转瓶转移回分液漏斗
+            # 🔧 新增：如果不是最后一次，从中转瓶转移回分液漏斗（基于old版本逻辑）
            if repeat_idx < repeats - 1 and final_to_vessel_id and final_to_vessel_id != final_vessel_id:
-                action_sequence.append(action_log("产物转回分离容器，准备下一轮", "🔄", prefix="[SEPARATE]"))
+                debug_print(f"🔄 第{cycle_num}轮: 产物转移回分离容器准备下一轮")
+                action_sequence.append(create_action_log("产物转回分离容器，准备下一轮", "🔄"))

                pump_actions = generate_pump_protocol_with_rinsing(
                    G=G,
@@ -380,85 +444,368 @@ def generate_separate_protocol(

            # 循环间等待（除了最后一次）
            if repeat_idx < repeats - 1:
-                action_sequence.append(action_log("等待下一次循环...", "⏳", prefix="[SEPARATE]"))
+                debug_print(f"🔄 第{cycle_num}轮: 等待下一次循环...")
+                action_sequence.append(create_action_log("等待下一次循环...", "⏳"))
                action_sequence.append({
                    "action_name": "wait",
                    "action_kwargs": {"time": 5}
                })
            else:
-                action_sequence.append(action_log(f"分离循环 {cycle_num}/{repeats} 完成", "🌟", prefix="[SEPARATE]"))
+                action_sequence.append(create_action_log(f"分离循环 {cycle_num}/{repeats} 完成", "🌟"))

    except Exception as e:
        debug_print(f"❌ 分离工作流程执行失败: {str(e)}")
-        action_sequence.append(action_log(f"分离工作流程失败: {str(e)}", "❌", prefix="[SEPARATE]"))
+        action_sequence.append(create_action_log(f"分离工作流程失败: {str(e)}", "❌"))

-    # 分离完成后的最终状态报告
-    final_liquid_volume = get_resource_liquid_volume(vessel)
+    # 🔧 新增：分离完成后的最终状态报告
+    final_liquid_volume = get_vessel_liquid_volume(vessel)

    # === 最终结果 ===
    total_time = (stir_time + settling_time + 15) * repeats  # 估算总时间

-    debug_print(f"分离协议生成完成: {len(action_sequence)} 个动作, "
-                f"预计 {total_time:.0f}s, 体积 {original_liquid_volume:.2f}→{final_liquid_volume:.2f}mL")
+    debug_print("🌀" * 20)
+    debug_print(f"🎉 分离协议生成完成")
+    debug_print(f"📊 协议统计:")
+    debug_print(f"  📋 总动作数: {len(action_sequence)}")
+    debug_print(f"  ⏱️ 预计总时间: {total_time:.0f}s ({total_time / 60:.1f} 分钟)")
+    debug_print(f"  🥼 分离容器: {final_vessel_id}")
+    debug_print(f"  🎯 分离目的: {purpose}")
+    debug_print(f"  📊 产物相: {product_phase}")
+    debug_print(f"  🔄 重复次数: {repeats}")
+    debug_print(f"💧 体积变化统计:")
+    debug_print(f"  - 分离前体积: {original_liquid_volume:.2f}mL")
+    debug_print(f"  - 分离后体积: {final_liquid_volume:.2f}mL")
+    if solvent:
+        debug_print(f"  💧 溶剂: {solvent} ({final_volume}mL × {repeats}轮 = {final_volume * repeats:.2f}mL)")
+    if final_to_vessel_id:
+        debug_print(f"  🎯 产物容器: {final_to_vessel_id}")
+    if final_waste_vessel_id:
+        debug_print(f"  🗑️ 废液容器: {final_waste_vessel_id}")
+    debug_print("🌀" * 20)

    # 添加完成日志
    summary_msg = f"分离协议完成: {final_vessel_id} ({purpose}，{repeats} 次循环)"
    if solvent:
        summary_msg += f"，使用 {final_volume * repeats:.2f}mL {solvent}"
-    action_sequence.append(action_log(summary_msg, "🎉", prefix="[SEPARATE]"))
+    action_sequence.append(create_action_log(summary_msg, "🎉"))

    return action_sequence

+def parse_volume_input(volume_input: Union[str, float]) -> float:
+    """
+    解析体积输入，支持带单位的字符串
+    
+    Args:
+        volume_input: 体积输入（如 "200 mL", "?", 50.0）
+    
+    Returns:
+        float: 体积（毫升）
+    """
+    if isinstance(volume_input, (int, float)):
+        debug_print(f"📏 体积输入为数值: {volume_input}")
+        return float(volume_input)
+    
+    if not volume_input or not str(volume_input).strip():
+        debug_print(f"⚠️ 体积输入为空，返回 0.0mL")
+        return 0.0
+    
+    volume_str = str(volume_input).lower().strip()
+    debug_print(f"🔍 解析体积输入: '{volume_str}'")
+    
+    # 处理未知体积
+    if volume_str in ['?', 'unknown', 'tbd', 'to be determined', '未知', '待定']:
+        default_volume = 100.0  # 默认100mL
+        debug_print(f"❓ 检测到未知体积，使用默认值: {default_volume}mL")
+        return default_volume
+    
+    # 移除空格并提取数字和单位
+    volume_clean = re.sub(r'\s+', '', volume_str)
+    
+    # 匹配数字和单位的正则表达式
+    match = re.match(r'([0-9]*\.?[0-9]+)\s*(ml|l|μl|ul|microliter|milliliter|liter|毫升|升|微升)?', volume_clean)
+    
+    if not match:
+        debug_print(f"⚠️ 无法解析体积: '{volume_str}'，使用默认值 100mL")
+        return 100.0
+    
+    value = float(match.group(1))
+    unit = match.group(2) or 'ml'  # 默认单位为毫升
+    
+    # 转换为毫升
+    if unit in ['l', 'liter', '升']:
+        volume = value * 1000.0  # L -> mL
+        debug_print(f"🔄 体积转换: {value}L -> {volume}mL")
+    elif unit in ['μl', 'ul', 'microliter', '微升']:
+        volume = value / 1000.0  # μL -> mL
+        debug_print(f"🔄 体积转换: {value}μL -> {volume}mL")
+    else:  # ml, milliliter, 毫升 或默认
+        volume = value  # 已经是mL
+        debug_print(f"✅ 体积已为毫升单位: {volume}mL")
+    
+    return volume
+
+def find_solvent_vessel(G: nx.DiGraph, solvent: str) -> str:
+    """查找溶剂容器，支持多种匹配模式"""
+    if not solvent or not solvent.strip():
+        debug_print("⏭️ 未指定溶剂，跳过溶剂容器查找")
+        return ""
+    
+    debug_print(f"🔍 正在查找溶剂 '{solvent}' 的容器...")
+    
+    # 🔧 方法1：直接搜索 data.reagent_name 和 config.reagent
+    debug_print(f"📋 方法1: 搜索试剂字段...")
+    for node in G.nodes():
+        node_data = G.nodes[node].get('data', {})
+        node_type = G.nodes[node].get('type', '')
+        config_data = G.nodes[node].get('config', {})
+        
+        # 只搜索容器类型的节点
+        if node_type == 'container':
+            reagent_name = node_data.get('reagent_name', '').lower()
+            config_reagent = config_data.get('reagent', '').lower()
+            
+            # 精确匹配
+            if reagent_name == solvent.lower() or config_reagent == solvent.lower():
+                debug_print(f"✅ 通过试剂字段精确匹配找到容器: {node}")
+                return node
+            
+            # 模糊匹配
+            if (solvent.lower() in reagent_name and reagent_name) or \
+               (solvent.lower() in config_reagent and config_reagent):
+                debug_print(f"✅ 通过试剂字段模糊匹配找到容器: {node}")
+                return node
+    
+    # 🔧 方法2：常见的容器命名规则
+    debug_print(f"📋 方法2: 使用命名规则...")
+    solvent_clean = solvent.lower().replace(' ', '_').replace('-', '_')
+    possible_names = [
+        f"flask_{solvent_clean}",
+        f"bottle_{solvent_clean}",
+        f"vessel_{solvent_clean}",
+        f"{solvent_clean}_flask",
+        f"{solvent_clean}_bottle",
+        f"solvent_{solvent_clean}",
+        f"reagent_{solvent_clean}",
+        f"reagent_bottle_{solvent_clean}",
+        f"reagent_bottle_1",  # 通用试剂瓶
+        f"reagent_bottle_2",
+        f"reagent_bottle_3"
+    ]
+    
+    debug_print(f"🎯 尝试的容器名称: {possible_names[:5]}... (共 {len(possible_names)} 个)")
+    
+    for name in possible_names:
+        if name in G.nodes():
+            node_type = G.nodes[name].get('type', '')
+            if node_type == 'container':
+                debug_print(f"✅ 通过命名规则找到容器: {name}")
+                return name
+    
+    # 🔧 方法3：使用第一个试剂瓶作为备选
+    debug_print(f"📋 方法3: 查找备用试剂瓶...")
+    for node_id in G.nodes():
+        node_data = G.nodes[node_id]
+        if (node_data.get('type') == 'container' and 
+            ('reagent' in node_id.lower() or 'bottle' in node_id.lower())):
+            debug_print(f"⚠️ 未找到专用容器，使用备用容器: {node_id}")
+            return node_id
+    
+    debug_print(f"❌ 无法找到溶剂 '{solvent}' 的容器")
+    return ""

 def find_separator_device(G: nx.DiGraph, vessel: str) -> str:
    """查找分离器设备，支持多种查找方式"""
+    debug_print(f"🔍 正在查找容器 '{vessel}' 的分离器设备...")
+    
    # 方法1：查找连接到容器的分离器设备
+    debug_print(f"📋 方法1: 检查连接的分离器...")
    separator_nodes = []
    for node in G.nodes():
        node_class = G.nodes[node].get('class', '').lower()
        if 'separator' in node_class:
            separator_nodes.append(node)
+            debug_print(f"📋 发现分离器设备: {node}")
+            
            # 检查是否连接到目标容器
            if G.has_edge(node, vessel) or G.has_edge(vessel, node):
+                debug_print(f"✅ 找到连接的分离器: {node}")
                return node
-
+    
+    debug_print(f"📊 找到的分离器总数: {len(separator_nodes)}")
+    
    # 方法2：根据命名规则查找
+    debug_print(f"📋 方法2: 使用命名规则...")
    possible_names = [
        f"{vessel}_controller",
        f"{vessel}_separator",
        vessel,  # 容器本身可能就是分离器
        "separator_1",
        "virtual_separator",
-        "liquid_handler_1",
+        "liquid_handler_1",  # 液体处理器也可能用于分离
        "controller_1"
    ]
-
+    
+    debug_print(f"🎯 尝试的分离器名称: {possible_names}")
+    
    for name in possible_names:
        if name in G.nodes():
            node_class = G.nodes[name].get('class', '').lower()
            if 'separator' in node_class or 'controller' in node_class:
+                debug_print(f"✅ 通过命名规则找到分离器: {name}")
                return name
-
-    # 方法3：使用第一个可用分离器
+    
+    # 方法3：查找第一个分离器设备
+    debug_print(f"📋 方法3: 使用第一个可用分离器...")
    if separator_nodes:
        debug_print(f"⚠️ 使用第一个分离器设备: {separator_nodes[0]}")
        return separator_nodes[0]
-
+    
    debug_print(f"❌ 未找到分离器设备")
    return ""

+def find_connected_stirrer(G: nx.DiGraph, vessel: str) -> str:
+    """查找连接到指定容器的搅拌器"""
+    debug_print(f"🔍 正在查找与容器 {vessel} 连接的搅拌器...")
+    
+    stirrer_nodes = []
+    for node in G.nodes():
+        node_data = G.nodes[node]
+        node_class = node_data.get('class', '') or ''
+        
+        if 'stirrer' in node_class.lower():
+            stirrer_nodes.append(node)
+            debug_print(f"📋 发现搅拌器: {node}")
+    
+    debug_print(f"📊 找到的搅拌器总数: {len(stirrer_nodes)}")
+    
+    # 检查哪个搅拌器与目标容器相连
+    for stirrer in stirrer_nodes:
+        if G.has_edge(stirrer, vessel) or G.has_edge(vessel, stirrer):
+            debug_print(f"✅ 找到连接的搅拌器: {stirrer}")
+            return stirrer
+    
+    # 如果没有连接的搅拌器，返回第一个可用的
+    if stirrer_nodes:
+        debug_print(f"⚠️ 未找到直接连接的搅拌器，使用第一个可用的: {stirrer_nodes[0]}")
+        return stirrer_nodes[0]
+    
+    debug_print("❌ 未找到搅拌器")
+    return ""
+
+def get_vessel_liquid_volume(vessel: dict) -> float:
+    """
+    获取容器中的液体体积 - 支持vessel字典
+    
+    Args:
+        vessel: 容器字典
+        
+    Returns:
+        float: 液体体积（mL）
+    """
+    if not vessel or "data" not in vessel:
+        debug_print(f"⚠️ 容器数据为空，返回 0.0mL")
+        return 0.0
+    
+    vessel_data = vessel["data"]
+    vessel_id = vessel.get("id", "unknown")
+    
+    debug_print(f"🔍 读取容器 '{vessel_id}' 体积数据: {vessel_data}")
+    
+    # 检查liquid_volume字段
+    if "liquid_volume" in vessel_data:
+        liquid_volume = vessel_data["liquid_volume"]
+        
+        # 处理列表格式
+        if isinstance(liquid_volume, list):
+            if len(liquid_volume) > 0:
+                volume = liquid_volume[0]
+                if isinstance(volume, (int, float)):
+                    debug_print(f"✅ 容器 '{vessel_id}' 体积: {volume}mL (列表格式)")
+                    return float(volume)
+        
+        # 处理直接数值格式
+        elif isinstance(liquid_volume, (int, float)):
+            debug_print(f"✅ 容器 '{vessel_id}' 体积: {liquid_volume}mL (数值格式)")
+            return float(liquid_volume)
+    
+    # 检查其他可能的体积字段
+    volume_keys = ['current_volume', 'total_volume', 'volume']
+    for key in volume_keys:
+        if key in vessel_data:
+            try:
+                volume = float(vessel_data[key])
+                if volume > 0:
+                    debug_print(f"✅ 容器 '{vessel_id}' 体积: {volume}mL (字段: {key})")
+                    return volume
+            except (ValueError, TypeError):
+                continue
+    
+    debug_print(f"⚠️ 无法获取容器 '{vessel_id}' 的体积，返回默认值 50.0mL")
+    return 50.0
+
+def update_vessel_volume(vessel: dict, G: nx.DiGraph, new_volume: float, description: str = "") -> None:
+    """
+    更新容器体积（同时更新vessel字典和图节点）
+    
+    Args:
+        vessel: 容器字典
+        G: 网络图
+        new_volume: 新体积
+        description: 更新描述
+    """
+    vessel_id = vessel.get("id", "unknown")
+    
+    if description:
+        debug_print(f"🔧 更新容器体积 - {description}")
+    
+    # 更新vessel字典中的体积
+    if "data" in vessel:
+        if "liquid_volume" in vessel["data"]:
+            current_volume = vessel["data"]["liquid_volume"]
+            if isinstance(current_volume, list):
+                if len(current_volume) > 0:
+                    vessel["data"]["liquid_volume"][0] = new_volume
+                else:
+                    vessel["data"]["liquid_volume"] = [new_volume]
+            else:
+                vessel["data"]["liquid_volume"] = new_volume
+        else:
+            vessel["data"]["liquid_volume"] = new_volume
+    else:
+        vessel["data"] = {"liquid_volume": new_volume}
+    
+    # 同时更新图中的容器数据
+    if vessel_id in G.nodes():
+        if 'data' not in G.nodes[vessel_id]:
+            G.nodes[vessel_id]['data'] = {}
+        
+        vessel_node_data = G.nodes[vessel_id]['data']
+        current_node_volume = vessel_node_data.get('liquid_volume', 0.0)
+        
+        if isinstance(current_node_volume, list):
+            if len(current_node_volume) > 0:
+                G.nodes[vessel_id]['data']['liquid_volume'][0] = new_volume
+            else:
+                G.nodes[vessel_id]['data']['liquid_volume'] = [new_volume]
+        else:
+            G.nodes[vessel_id]['data']['liquid_volume'] = new_volume
+    
+    debug_print(f"📊 容器 '{vessel_id}' 体积已更新为: {new_volume:.2f}mL")
+

 def find_separation_vessel_bottom(G: nx.DiGraph, vessel_id: str) -> str:
    """
    智能查找分离容器的底部容器（假设为flask或vessel类型）
-
+    
    Args:
        G: 网络图
        vessel_id: 分离容器ID
-
+        
    Returns:
        str: 底部容器ID
    """
+    debug_print(f"🔍 查找分离容器 {vessel_id} 的底部容器...")
+    
    # 方法1：根据命名规则推测
    possible_bottoms = [
        f"{vessel_id}_bottom",
@@ -467,25 +814,32 @@ def find_separation_vessel_bottom(G: nx.DiGraph, vessel_id: str) -> str:
        f"{vessel_id}_flask",
        f"{vessel_id}_vessel"
    ]
-
+    
+    debug_print(f"📋 尝试的底部容器名称: {possible_bottoms}")
+    
    for bottom_id in possible_bottoms:
        if bottom_id in G.nodes():
            node_type = G.nodes[bottom_id].get('type', '')
            if node_type == 'container':
+                debug_print(f"✅ 通过命名规则找到底部容器: {bottom_id}")
                return bottom_id
-
-    # 方法2：查找与分离器相连的容器
+    
+    # 方法2：查找与分离器相连的容器（假设底部容器会与分离器相连）
+    debug_print(f"📋 方法2: 查找连接的容器...")
    for node in G.nodes():
        node_data = G.nodes[node]
        node_class = node_data.get('class', '') or ''
-
+        
        if 'separator' in node_class.lower():
+            # 检查分离器的输入端
            if G.has_edge(node, vessel_id):
                for neighbor in G.neighbors(node):
                    if neighbor != vessel_id:
                        neighbor_type = G.nodes[neighbor].get('type', '')
                        if neighbor_type == 'container':
+                            debug_print(f"✅ 通过连接找到底部容器: {neighbor}")
                            return neighbor
-
+    
    debug_print(f"❌ 无法找到分离容器 {vessel_id} 的底部容器")
    return ""
+
--- a/unilabos/compile/stir_protocol.py
+++ b/unilabos/compile/stir_protocol.py
@@ -1,40 +1,116 @@
 from typing import List, Dict, Any, Union
 import networkx as nx
 import logging
+import re

 from .utils.unit_parser import parse_time_input
-from .utils.resource_helper import get_resource_id, get_resource_display_info
-from .utils.logger_util import debug_print
-from .utils.vessel_parser import find_connected_stirrer

 logger = logging.getLogger(__name__)

+def debug_print(message):
+    """调试输出"""
+    logger.info(f"[STIR] {message}")
+
+
+def find_connected_stirrer(G: nx.DiGraph, vessel: str = None) -> str:
+    """查找与指定容器相连的搅拌设备"""
+    debug_print(f"🔍 查找搅拌设备，目标容器: {vessel} 🥽")
+    
+    # 🔧 查找所有搅拌设备
+    stirrer_nodes = []
+    for node in G.nodes():
+        node_data = G.nodes[node]
+        node_class = node_data.get('class', '') or ''
+        
+        if 'stirrer' in node_class.lower() or 'virtual_stirrer' in node_class:
+            stirrer_nodes.append(node)
+            debug_print(f"🎉 找到搅拌设备: {node} 🌪️")
+    
+    # 🔗 检查连接
+    if vessel and stirrer_nodes:
+        for stirrer in stirrer_nodes:
+            if G.has_edge(stirrer, vessel) or G.has_edge(vessel, stirrer):
+                debug_print(f"✅ 搅拌设备 '{stirrer}' 与容器 '{vessel}' 相连 🔗")
+                return stirrer
+    
+    # 🎯 使用第一个可用设备
+    if stirrer_nodes:
+        selected = stirrer_nodes[0]
+        debug_print(f"🔧 使用第一个搅拌设备: {selected} 🌪️")
+        return selected
+    
+    # 🆘 默认设备
+    debug_print("⚠️ 未找到搅拌设备，使用默认设备 🌪️")
+    return "stirrer_1"
+
 def validate_and_fix_params(stir_time: float, stir_speed: float, settling_time: float) -> tuple:
    """验证和修正参数"""
+    # ⏰ 搅拌时间验证
    if stir_time < 0:
-        debug_print(f"搅拌时间 {stir_time}s 无效，修正为 100s")
+        debug_print(f"⚠️ 搅拌时间 {stir_time}s 无效，修正为 100s 🕐")
        stir_time = 100.0
    elif stir_time > 100:  # 限制为100s
-        debug_print(f"搅拌时间 {stir_time}s 过长，仿真运行时修正为 100s")
+        debug_print(f"⚠️ 搅拌时间 {stir_time}s 过长，仿真运行时，修正为 100s 🕐")
        stir_time = 100.0
-
+    else:
+        debug_print(f"✅ 搅拌时间 {stir_time}s ({stir_time/60:.1f}分钟) 有效 ⏰")
+    
+    # 🌪️ 搅拌速度验证
    if stir_speed < 10.0 or stir_speed > 1500.0:
-        debug_print(f"搅拌速度 {stir_speed} RPM 超出范围，修正为 300 RPM")
+        debug_print(f"⚠️ 搅拌速度 {stir_speed} RPM 超出范围，修正为 300 RPM 🌪️")
        stir_speed = 300.0
-
+    else:
+        debug_print(f"✅ 搅拌速度 {stir_speed} RPM 在正常范围内 🌪️")
+    
+    # ⏱️ 沉降时间验证
    if settling_time < 0 or settling_time > 600:  # 限制为10分钟
-        debug_print(f"沉降时间 {settling_time}s 超出范围，修正为 60s")
+        debug_print(f"⚠️ 沉降时间 {settling_time}s 超出范围，修正为 60s ⏱️")
        settling_time = 60.0
-
+    else:
+        debug_print(f"✅ 沉降时间 {settling_time}s 在正常范围内 ⏱️")
+    
    return stir_time, stir_speed, settling_time

-def extract_vessel_id(vessel) -> str:
-    """从vessel参数中提取vessel_id，兼容 str / dict / ResourceDictInstance"""
-    return get_resource_id(vessel)
+def extract_vessel_id(vessel: Union[str, dict]) -> str:
+    """
+    从vessel参数中提取vessel_id
+    
+    Args:
+        vessel: vessel字典或vessel_id字符串
+        
+    Returns:
+        str: vessel_id
+    """
+    if isinstance(vessel, dict):
+        vessel_id = list(vessel.values())[0].get("id", "")
+        debug_print(f"🔧 从vessel字典提取ID: {vessel_id}")
+        return vessel_id
+    elif isinstance(vessel, str):
+        debug_print(f"🔧 vessel参数为字符串: {vessel}")
+        return vessel
+    else:
+        debug_print(f"⚠️ 无效的vessel参数类型: {type(vessel)}")
+        return ""

-def get_vessel_display_info(vessel) -> str:
-    """获取容器的显示信息（用于日志），兼容 str / dict / ResourceDictInstance"""
-    return get_resource_display_info(vessel)
+def get_vessel_display_info(vessel: Union[str, dict]) -> str:
+    """
+    获取容器的显示信息（用于日志）
+    
+    Args:
+        vessel: vessel字典或vessel_id字符串
+        
+    Returns:
+        str: 显示信息
+    """
+    if isinstance(vessel, dict):
+        vessel_id = vessel.get("id", "unknown")
+        vessel_name = vessel.get("name", "")
+        if vessel_name:
+            return f"{vessel_id} ({vessel_name})"
+        else:
+            return vessel_id
+    else:
+        return str(vessel)

 def generate_stir_protocol(
    G: nx.DiGraph,
@@ -49,13 +125,16 @@ def generate_stir_protocol(
 ) -> List[Dict[str, Any]]:
    """生成搅拌操作的协议序列 - 修复vessel参数传递"""
    
+    # 🔧 核心修改：正确处理vessel参数
    vessel_id = extract_vessel_id(vessel)
    vessel_display = get_vessel_display_info(vessel)
-
-    # 确保vessel_resource是完整的Resource对象
+    
+    # 🔧 关键修复：确保vessel_resource是完整的Resource对象
    if isinstance(vessel, dict):
-        vessel_resource = vessel
+        vessel_resource = vessel  # 已经是完整的Resource字典
+        debug_print(f"✅ 使用传入的vessel Resource对象")
    else:
+        # 如果只是字符串，构建一个基本的Resource对象
        vessel_resource = {
            "id": vessel,
            "name": "",
@@ -71,60 +150,91 @@ def generate_stir_protocol(
            "sample_id": "",
            "type": ""
        }
-
-    # 参数验证
-    if not vessel_id:
+        debug_print(f"🔧 构建了基本的vessel Resource对象: {vessel}")
+    
+    debug_print("🌪️" * 20)
+    debug_print("🚀 开始生成搅拌协议（支持vessel字典）✨")
+    debug_print(f"📝 输入参数:")
+    debug_print(f"  🥽 vessel: {vessel_display} (ID: {vessel_id})")
+    debug_print(f"  ⏰ time: {time}")
+    debug_print(f"  🕐 stir_time: {stir_time}")
+    debug_print(f"  🎯 time_spec: {time_spec}")
+    debug_print(f"  🌪️ stir_speed: {stir_speed} RPM")
+    debug_print(f"  ⏱️ settling_time: {settling_time}")
+    debug_print("🌪️" * 20)
+    
+    # 📋 参数验证
+    debug_print("📍 步骤1: 参数验证... 🔧")
+    if not vessel_id:  # 🔧 使用 vessel_id
+        debug_print("❌ vessel 参数不能为空! 😱")
        raise ValueError("vessel 参数不能为空")
-
-    if vessel_id not in G.nodes():
+    
+    if vessel_id not in G.nodes():  # 🔧 使用 vessel_id
+        debug_print(f"❌ 容器 '{vessel_id}' 不存在于系统中! 😞")
        raise ValueError(f"容器 '{vessel_id}' 不存在于系统中")
    
-    # 参数解析 — 确定实际时间（优先级：time_spec > stir_time > time）
+    debug_print("✅ 基础参数验证通过 🎯")
+    
+    # 🔄 参数解析
+    debug_print("📍 步骤2: 参数解析... ⚡")
+    
+    # 确定实际时间（优先级：time_spec > stir_time > time）
    if time_spec:
        parsed_time = parse_time_input(time_spec)
+        debug_print(f"🎯 使用time_spec: '{time_spec}' → {parsed_time}s")
    elif stir_time not in ["0", 0, 0.0]:
        parsed_time = parse_time_input(stir_time)
+        debug_print(f"🎯 使用stir_time: {stir_time} → {parsed_time}s")
    else:
        parsed_time = parse_time_input(time)
+        debug_print(f"🎯 使用time: {time} → {parsed_time}s")
    
    # 解析沉降时间
    parsed_settling_time = parse_time_input(settling_time)
    
-    # 模拟运行时间优化
+    # 🕐 模拟运行时间优化
+    debug_print("  ⏱️ 检查模拟运行时间限制...")
    original_stir_time = parsed_time
    original_settling_time = parsed_settling_time
-
+    
    # 搅拌时间限制为60秒
    stir_time_limit = 60.0
    if parsed_time > stir_time_limit:
        parsed_time = stir_time_limit
-
+        debug_print(f"  🎮 搅拌时间优化: {original_stir_time}s → {parsed_time}s ⚡")
+    
    # 沉降时间限制为30秒
    settling_time_limit = 30.0
    if parsed_settling_time > settling_time_limit:
        parsed_settling_time = settling_time_limit
+        debug_print(f"  🎮 沉降时间优化: {original_settling_time}s → {parsed_settling_time}s ⚡")
    
    # 参数修正
    parsed_time, stir_speed, parsed_settling_time = validate_and_fix_params(
        parsed_time, stir_speed, parsed_settling_time
    )
    
-    debug_print(f"最终参数: time={parsed_time}s, speed={stir_speed}RPM, settling={parsed_settling_time}s")
-
-    # 查找设备
+    debug_print(f"🎯 最终参数: time={parsed_time}s, speed={stir_speed}RPM, settling={parsed_settling_time}s")
+    
+    # 🔍 查找设备
+    debug_print("📍 步骤3: 查找搅拌设备... 🔍")
    try:
-        stirrer_id = find_connected_stirrer(G, vessel_id)
+        stirrer_id = find_connected_stirrer(G, vessel_id)  # 🔧 使用 vessel_id
+        debug_print(f"🎉 使用搅拌设备: {stirrer_id} ✨")
    except Exception as e:
+        debug_print(f"❌ 设备查找失败: {str(e)} 😭")
        raise ValueError(f"无法找到搅拌设备: {str(e)}")
-
-    # 生成动作
+    
+    # 🚀 生成动作
+    debug_print("📍 步骤4: 生成搅拌动作... 🌪️")
    
    action_sequence = []
    stir_action = {
        "device_id": stirrer_id,
        "action_name": "stir",
        "action_kwargs": {
-            "vessel": {"id": vessel_id},
+            # 🔧 关键修复：传递vessel_id字符串，而不是完整的Resource对象
+            "vessel": {"id": vessel_id},  # 传递字符串ID，不是Resource对象
            "time": str(time),
            "event": event,
            "time_spec": time_spec,
@@ -134,14 +244,22 @@ def generate_stir_protocol(
        }
    }
    action_sequence.append(stir_action)
-
-    # 时间优化信息
+    debug_print("✅ 搅拌动作已添加 🌪️✨")
+    
+    # 显示时间优化信息
    if original_stir_time != parsed_time or original_settling_time != parsed_settling_time:
-        debug_print(f"模拟优化: 搅拌 {original_stir_time/60:.1f}min→{parsed_time/60:.1f}min, "
-                    f"沉降 {original_settling_time/60:.1f}min→{parsed_settling_time/60:.1f}min")
-
-    debug_print(f"搅拌协议生成完成: {vessel_display}, {stir_speed}RPM, "
-                f"{parsed_time}s, 沉降{parsed_settling_time}s, 总{(parsed_time + parsed_settling_time)/60:.1f}min")
+        debug_print(f"  🎭 模拟优化说明:")
+        debug_print(f"    搅拌时间: {original_stir_time/60:.1f}分钟 → {parsed_time/60:.1f}分钟")
+        debug_print(f"    沉降时间: {original_settling_time/60:.1f}分钟 → {parsed_settling_time/60:.1f}分钟")
+    
+    # 🎊 总结
+    debug_print("🎊" * 20)
+    debug_print(f"🎉 搅拌协议生成完成! ✨")
+    debug_print(f"📊 总动作数: {len(action_sequence)} 个")
+    debug_print(f"🥽 搅拌容器: {vessel_display}")
+    debug_print(f"🌪️ 搅拌参数: {stir_speed} RPM, {parsed_time}s, 沉降 {parsed_settling_time}s")
+    debug_print(f"⏱️ 预计总时间: {(parsed_time + parsed_settling_time)/60:.1f} 分钟 ⌛")
+    debug_print("🎊" * 20)
    
    return action_sequence

@@ -154,13 +272,16 @@ def generate_start_stir_protocol(
 ) -> List[Dict[str, Any]]:
    """生成开始搅拌操作的协议序列 - 修复vessel参数传递"""
    
+    # 🔧 核心修改：正确处理vessel参数
    vessel_id = extract_vessel_id(vessel)
    vessel_display = get_vessel_display_info(vessel)
-
-    # 确保vessel_resource是完整的Resource对象
+    
+    # 🔧 关键修复：确保vessel_resource是完整的Resource对象
    if isinstance(vessel, dict):
-        vessel_resource = vessel
+        vessel_resource = vessel  # 已经是完整的Resource字典
+        debug_print(f"✅ 使用传入的vessel Resource对象")
    else:
+        # 如果只是字符串，构建一个基本的Resource对象
        vessel_resource = {
            "id": vessel,
            "name": "",
@@ -176,29 +297,39 @@ def generate_start_stir_protocol(
            "sample_id": "",
            "type": ""
        }
-
+        debug_print(f"🔧 构建了基本的vessel Resource对象: {vessel}")
+    
+    debug_print("🔄 开始生成启动搅拌协议（修复vessel参数）✨")
+    debug_print(f"🥽 vessel: {vessel_display} (ID: {vessel_id})")
+    debug_print(f"🌪️ speed: {stir_speed} RPM")
+    debug_print(f"🎯 purpose: {purpose}")
+    
    # 基础验证
    if not vessel_id or vessel_id not in G.nodes():
+        debug_print("❌ 容器验证失败!")
        raise ValueError("vessel 参数无效")
-
+    
    # 参数修正
    if stir_speed < 10.0 or stir_speed > 1500.0:
+        debug_print(f"⚠️ 搅拌速度修正: {stir_speed} → 300 RPM 🌪️")
        stir_speed = 300.0
-
+    
    # 查找设备
    stirrer_id = find_connected_stirrer(G, vessel_id)
-
+    
+    # 🔧 关键修复：传递vessel_id字符串
    action_sequence = [{
        "device_id": stirrer_id,
        "action_name": "start_stir",
        "action_kwargs": {
-            "vessel": {"id": vessel_id},
+            # 🔧 关键修复：传递vessel_id字符串，而不是完整的Resource对象
+            "vessel": {"id": vessel_id},  # 传递字符串ID，不是Resource对象
            "stir_speed": stir_speed,
            "purpose": purpose or f"启动搅拌 {stir_speed} RPM"
        }
    }]
-
-    debug_print(f"启动搅拌协议: {vessel_display}, {stir_speed}RPM, device={stirrer_id}")
+    
+    debug_print(f"✅ 启动搅拌协议生成完成 🎯")
    return action_sequence

 def generate_stop_stir_protocol(
@@ -208,13 +339,16 @@ def generate_stop_stir_protocol(
 ) -> List[Dict[str, Any]]:
    """生成停止搅拌操作的协议序列 - 修复vessel参数传递"""
    
+    # 🔧 核心修改：正确处理vessel参数
    vessel_id = extract_vessel_id(vessel)
    vessel_display = get_vessel_display_info(vessel)
-
-    # 确保vessel_resource是完整的Resource对象
+    
+    # 🔧 关键修复：确保vessel_resource是完整的Resource对象
    if isinstance(vessel, dict):
-        vessel_resource = vessel
+        vessel_resource = vessel  # 已经是完整的Resource字典
+        debug_print(f"✅ 使用传入的vessel Resource对象")
    else:
+        # 如果只是字符串，构建一个基本的Resource对象
        vessel_resource = {
            "id": vessel,
            "name": "",
@@ -230,103 +364,115 @@ def generate_stop_stir_protocol(
            "sample_id": "",
            "type": ""
        }
-
+        debug_print(f"🔧 构建了基本的vessel Resource对象: {vessel}")
+    
+    debug_print("🛑 开始生成停止搅拌协议（修复vessel参数）✨")
+    debug_print(f"🥽 vessel: {vessel_display} (ID: {vessel_id})")
+    
    # 基础验证
    if not vessel_id or vessel_id not in G.nodes():
+        debug_print("❌ 容器验证失败!")
        raise ValueError("vessel 参数无效")
-
+    
    # 查找设备
    stirrer_id = find_connected_stirrer(G, vessel_id)
-
+    
+    # 🔧 关键修复：传递vessel_id字符串
    action_sequence = [{
        "device_id": stirrer_id,
        "action_name": "stop_stir",
        "action_kwargs": {
-            "vessel": {"id": vessel_id},
+            # 🔧 关键修复：传递vessel_id字符串，而不是完整的Resource对象
+            "vessel": {"id": vessel_id},  # 传递字符串ID，不是Resource对象
        }
    }]
-
-    debug_print(f"停止搅拌协议: {vessel_display}, device={stirrer_id}")
+    
+    debug_print(f"✅ 停止搅拌协议生成完成 🎯")
    return action_sequence

-# 便捷函数
+# 🔧 新增：便捷函数
 def stir_briefly(G: nx.DiGraph, vessel: Union[str, dict], 
                speed: float = 300.0) -> List[Dict[str, Any]]:
    """短时间搅拌（30秒）"""
    vessel_display = get_vessel_display_info(vessel)
-    debug_print(f"短时间搅拌: {vessel_display} @ {speed}RPM (30s)")
+    debug_print(f"⚡ 短时间搅拌: {vessel_display} @ {speed}RPM (30s)")
    return generate_stir_protocol(G, vessel, time="30", stir_speed=speed)

 def stir_slowly(G: nx.DiGraph, vessel: Union[str, dict], 
               time: Union[str, float] = "10 min") -> List[Dict[str, Any]]:
    """慢速搅拌"""
    vessel_display = get_vessel_display_info(vessel)
-    debug_print(f"慢速搅拌: {vessel_display} @ 150RPM")
+    debug_print(f"🐌 慢速搅拌: {vessel_display} @ 150RPM")
    return generate_stir_protocol(G, vessel, time=time, stir_speed=150.0)

 def stir_vigorously(G: nx.DiGraph, vessel: Union[str, dict], 
                   time: Union[str, float] = "5 min") -> List[Dict[str, Any]]:
    """剧烈搅拌"""
    vessel_display = get_vessel_display_info(vessel)
-    debug_print(f"剧烈搅拌: {vessel_display} @ 800RPM")
+    debug_print(f"💨 剧烈搅拌: {vessel_display} @ 800RPM")
    return generate_stir_protocol(G, vessel, time=time, stir_speed=800.0)

 def stir_for_reaction(G: nx.DiGraph, vessel: Union[str, dict], 
                     time: Union[str, float] = "1 h") -> List[Dict[str, Any]]:
    """反应搅拌（标准速度，长时间）"""
    vessel_display = get_vessel_display_info(vessel)
-    debug_print(f"反应搅拌: {vessel_display} @ 400RPM")
+    debug_print(f"🧪 反应搅拌: {vessel_display} @ 400RPM")
    return generate_stir_protocol(G, vessel, time=time, stir_speed=400.0)

 def stir_for_dissolution(G: nx.DiGraph, vessel: Union[str, dict], 
                        time: Union[str, float] = "15 min") -> List[Dict[str, Any]]:
    """溶解搅拌（中等速度）"""
    vessel_display = get_vessel_display_info(vessel)
-    debug_print(f"溶解搅拌: {vessel_display} @ 500RPM")
+    debug_print(f"💧 溶解搅拌: {vessel_display} @ 500RPM")
    return generate_stir_protocol(G, vessel, time=time, stir_speed=500.0)

 def stir_gently(G: nx.DiGraph, vessel: Union[str, dict], 
               time: Union[str, float] = "30 min") -> List[Dict[str, Any]]:
    """温和搅拌"""
    vessel_display = get_vessel_display_info(vessel)
-    debug_print(f"温和搅拌: {vessel_display} @ 200RPM")
+    debug_print(f"🍃 温和搅拌: {vessel_display} @ 200RPM")
    return generate_stir_protocol(G, vessel, time=time, stir_speed=200.0)

 def stir_overnight(G: nx.DiGraph, vessel: Union[str, dict]) -> List[Dict[str, Any]]:
    """过夜搅拌（模拟时缩短为2小时）"""
    vessel_display = get_vessel_display_info(vessel)
-    debug_print(f"过夜搅拌（模拟2小时）: {vessel_display} @ 300RPM")
+    debug_print(f"🌙 过夜搅拌（模拟2小时）: {vessel_display} @ 300RPM")
    return generate_stir_protocol(G, vessel, time="2 h", stir_speed=300.0)

 def start_continuous_stirring(G: nx.DiGraph, vessel: Union[str, dict], 
                             speed: float = 300.0, purpose: str = "continuous stirring") -> List[Dict[str, Any]]:
    """开始连续搅拌"""
    vessel_display = get_vessel_display_info(vessel)
-    debug_print(f"开始连续搅拌: {vessel_display} @ {speed}RPM")
+    debug_print(f"🔄 开始连续搅拌: {vessel_display} @ {speed}RPM")
    return generate_start_stir_protocol(G, vessel, stir_speed=speed, purpose=purpose)

 def stop_all_stirring(G: nx.DiGraph, vessel: Union[str, dict]) -> List[Dict[str, Any]]:
    """停止所有搅拌"""
    vessel_display = get_vessel_display_info(vessel)
-    debug_print(f"停止搅拌: {vessel_display}")
+    debug_print(f"🛑 停止搅拌: {vessel_display}")
    return generate_stop_stir_protocol(G, vessel)

 # 测试函数
 def test_stir_protocol():
    """测试搅拌协议"""
+    debug_print("🧪 === STIR PROTOCOL 测试 === ✨")
+    
+    # 测试vessel参数处理
+    debug_print("🔧 测试vessel参数处理...")
+    
    # 测试字典格式
    vessel_dict = {"id": "flask_1", "name": "反应瓶1"}
    vessel_id = extract_vessel_id(vessel_dict)
    vessel_display = get_vessel_display_info(vessel_dict)
-    debug_print(f"字典格式: {vessel_dict} -> ID: {vessel_id}, 显示: {vessel_display}")
-
+    debug_print(f"  字典格式: {vessel_dict} → ID: {vessel_id}, 显示: {vessel_display}")
+    
    # 测试字符串格式
    vessel_str = "flask_2"
    vessel_id = extract_vessel_id(vessel_str)
    vessel_display = get_vessel_display_info(vessel_str)
-    debug_print(f"字符串格式: {vessel_str} -> ID: {vessel_id}, 显示: {vessel_display}")
-
-    debug_print("测试完成")
+    debug_print(f"  字符串格式: {vessel_str} → ID: {vessel_id}, 显示: {vessel_display}")
+    
+    debug_print("✅ 测试完成 🎉")

 if __name__ == "__main__":
    test_stir_protocol()
--- a/unilabos/compile/utils/logger_util.py
+++ b/unilabos/compile/utils/logger_util.py
@@ -1,57 +1,36 @@
-"""编译器共享日志工具"""
-
-import inspect
+# 🆕 创建进度日志动作
 import logging
 from typing import Dict, Any

-# 模块名到前缀的映射
-_MODULE_PREFIXES = {
-    "add_protocol": "[ADD]",
-    "adjustph_protocol": "[ADJUSTPH]",
-    "clean_vessel_protocol": "[CLEAN_VESSEL]",
-    "dissolve_protocol": "[DISSOLVE]",
-    "dry_protocol": "[DRY]",
-    "evacuateandrefill_protocol": "[EVACUATE]",
-    "evaporate_protocol": "[EVAPORATE]",
-    "filter_protocol": "[FILTER]",
-    "heatchill_protocol": "[HEATCHILL]",
-    "hydrogenate_protocol": "[HYDROGENATE]",
-    "pump_protocol": "[PUMP]",
-    "recrystallize_protocol": "[RECRYSTALLIZE]",
-    "reset_handling_protocol": "[RESET]",
-    "run_column_protocol": "[RUN_COLUMN]",
-    "separate_protocol": "[SEPARATE]",
-    "stir_protocol": "[STIR]",
-    "wash_solid_protocol": "[WASH_SOLID]",
-    "vessel_parser": "[VESSEL_PARSER]",
-    "unit_parser": "[UNIT_PARSER]",
-    "resource_helper": "[RESOURCE_HELPER]",
-}
+logger = logging.getLogger(__name__)

-
-def debug_print(message, prefix=None):
-    """调试输出 — 自动根据调用模块设置前缀"""
-    if prefix is None:
-        frame = inspect.currentframe()
-        caller = frame.f_back if frame else None
-        module_name = ""
-        if caller:
-            module_name = caller.f_globals.get("__name__", "")
-            # 取最后一段作为模块短名
-            module_name = module_name.rsplit(".", 1)[-1]
-        prefix = _MODULE_PREFIXES.get(module_name, f"[{module_name.upper()}]")
-    logger = logging.getLogger("unilabos.compile")
+def debug_print(message, prefix="[UNIT_PARSER]"):
+    """调试输出"""
    logger.info(f"{prefix} {message}")


 def action_log(message: str, emoji: str = "📝", prefix="[HIGH-LEVEL OPERATION]") -> Dict[str, Any]:
-    """创建一个动作日志"""
-    full_message = f"{prefix} {emoji} {message}"
-    return {
-        "action_name": "wait",
-        "action_kwargs": {
-            "time": 0.1,
-            "log_message": full_message,
-            "progress_message": full_message
+    """创建一个动作日志 - 支持中文和emoji"""
+    try:
+        full_message = f"{prefix} {emoji} {message}"
+
+        return {
+            "action_name": "wait",
+            "action_kwargs": {
+                "time": 0.1,
+                "log_message": full_message,
+                "progress_message": full_message
+            }
        }
-    }
+    except Exception as e:
+        # 如果emoji有问题，使用纯文本
+        safe_message = f"{prefix} {message}"
+
+        return {
+            "action_name": "wait",
+            "action_kwargs": {
+                "time": 0.1,
+                "log_message": safe_message,
+                "progress_message": safe_message
+            }
+        }
--- a/unilabos/compile/utils/resource_helper.py
+++ b/unilabos/compile/utils/resource_helper.py
@@ -1,172 +0,0 @@
-"""
-资源实例兼容层
-
-提供 ensure_resource_instance() 将 dict / ResourceDictInstance 统一转为
-ResourceDictInstance，使编译器可以渐进式迁移到强类型资源。
-"""
-
-from typing import Any, Dict, Optional, Union
-
-from unilabos.resources.resource_tracker import ResourceDictInstance
-
-
-def ensure_resource_instance(
-    resource: Union[Dict[str, Any], ResourceDictInstance, None],
-) -> Optional[ResourceDictInstance]:
-    """将 dict 或 ResourceDictInstance 统一转为 ResourceDictInstance
-
-    编译器入口统一调用此函数，即可同时兼容旧 dict 传参和新 ResourceDictInstance 传参。
-
-    Args:
-        resource: 资源数据，可以是 plain dict、ResourceDictInstance 或 None
-
-    Returns:
-        ResourceDictInstance 或 None（当输入为 None 时）
-    """
-    if resource is None:
-        return None
-    if isinstance(resource, ResourceDictInstance):
-        return resource
-    if isinstance(resource, dict):
-        return ResourceDictInstance.get_resource_instance_from_dict(resource)
-    raise TypeError(f"不支持的资源类型: {type(resource)}, 期望 dict 或 ResourceDictInstance")
-
-
-def resource_to_dict(resource: Union[Dict[str, Any], ResourceDictInstance]) -> Dict[str, Any]:
-    """将 ResourceDictInstance 或 dict 统一转为 plain dict
-
-    用于需要 dict 操作的场景（如 children dict 操作）。
-
-    Args:
-        resource: ResourceDictInstance 或 dict
-
-    Returns:
-        plain dict
-    """
-    if isinstance(resource, dict):
-        return resource
-    if isinstance(resource, ResourceDictInstance):
-        return resource.get_plr_nested_dict()
-    raise TypeError(f"不支持的资源类型: {type(resource)}")
-
-
-def get_resource_id(resource: Union[str, Dict[str, Any], ResourceDictInstance]) -> str:
-    """从资源对象中提取 ID
-
-    Args:
-        resource: 字符串 ID、dict 或 ResourceDictInstance
-
-    Returns:
-        资源 ID 字符串
-    """
-    if isinstance(resource, str):
-        return resource
-    if isinstance(resource, ResourceDictInstance):
-        return resource.res_content.id
-    if isinstance(resource, dict):
-        if "id" in resource:
-            return resource["id"]
-        # 兼容 {station_id: {...}} 格式
-        first_val = next(iter(resource.values()), {})
-        if isinstance(first_val, dict):
-            return first_val.get("id", "")
-        return ""
-    raise TypeError(f"不支持的资源类型: {type(resource)}")
-
-
-def get_resource_data(resource: Union[str, Dict[str, Any], ResourceDictInstance]) -> Dict[str, Any]:
-    """从资源对象中提取 data 字段
-
-    Args:
-        resource: 字符串、dict 或 ResourceDictInstance
-
-    Returns:
-        data 字典
-    """
-    if isinstance(resource, str):
-        return {}
-    if isinstance(resource, ResourceDictInstance):
-        return dict(resource.res_content.data)
-    if isinstance(resource, dict):
-        return resource.get("data", {})
-    return {}
-
-
-def get_resource_display_info(resource: Union[str, Dict[str, Any], ResourceDictInstance]) -> str:
-    """获取资源的显示信息（用于日志）
-
-    Args:
-        resource: 字符串 ID、dict 或 ResourceDictInstance
-
-    Returns:
-        显示信息字符串
-    """
-    if isinstance(resource, str):
-        return resource
-    if isinstance(resource, ResourceDictInstance):
-        res = resource.res_content
-        return f"{res.id} ({res.name})" if res.name and res.name != res.id else res.id
-    if isinstance(resource, dict):
-        res_id = resource.get("id", "unknown")
-        res_name = resource.get("name", "")
-        if res_name and res_name != res_id:
-            return f"{res_id} ({res_name})"
-        return res_id
-    return str(resource)
-
-
-def get_resource_liquid_volume(resource: Union[Dict[str, Any], ResourceDictInstance]) -> float:
-    """从资源中获取液体体积
-
-    Args:
-        resource: dict 或 ResourceDictInstance
-
-    Returns:
-        液体总体积 (mL)
-    """
-    data = get_resource_data(resource)
-    liquids = data.get("liquid", [])
-    if isinstance(liquids, list):
-        return sum(l.get("volume", 0.0) for l in liquids if isinstance(l, dict))
-    return 0.0
-
-
-def update_vessel_volume(vessel, G, new_volume: float, description: str = "") -> None:
-    """
-    更新容器体积（同时更新vessel字典和图节点）
-
-    Args:
-        vessel: 容器字典或 ResourceDictInstance
-        G: 网络图 (nx.DiGraph)
-        new_volume: 新体积 (mL)
-        description: 更新描述（用于日志）
-    """
-    import logging
-    logger = logging.getLogger("unilabos.compile")
-
-    vessel_id = get_resource_id(vessel)
-
-    if description:
-        logger.info(f"[RESOURCE] 更新容器体积 - {description}")
-
-    # 更新 vessel 字典中的体积
-    if isinstance(vessel, dict):
-        if "data" not in vessel:
-            vessel["data"] = {}
-        lv = vessel["data"].get("liquid_volume")
-        if isinstance(lv, list) and len(lv) > 0:
-            vessel["data"]["liquid_volume"][0] = new_volume
-        else:
-            vessel["data"]["liquid_volume"] = new_volume
-
-    # 同时更新图中的容器数据
-    if vessel_id and vessel_id in G.nodes():
-        if "data" not in G.nodes[vessel_id]:
-            G.nodes[vessel_id]["data"] = {}
-        node_lv = G.nodes[vessel_id]["data"].get("liquid_volume")
-        if isinstance(node_lv, list) and len(node_lv) > 0:
-            G.nodes[vessel_id]["data"]["liquid_volume"][0] = new_volume
-        else:
-            G.nodes[vessel_id]["data"]["liquid_volume"] = new_volume
-
-    logger.info(f"[RESOURCE] 容器 '{vessel_id}' 体积已更新为: {new_volume:.2f}mL")
--- a/unilabos/compile/utils/unit_parser.py
+++ b/unilabos/compile/utils/unit_parser.py
@@ -184,42 +184,6 @@ def parse_time_input(time_input: Union[str, float]) -> float:

    return time_sec

-
-def parse_temperature_input(temp_input: Union[str, float], default_temp: float = 25.0) -> float:
-    """
-    解析温度输入，支持字符串和数值
-
-    Args:
-        temp_input: 温度输入（如 "256 °C", "reflux", 45.0）
-        default_temp: 默认温度
-
-    Returns:
-        float: 温度（°C）
-    """
-    if not temp_input:
-        return default_temp
-
-    if isinstance(temp_input, (int, float)):
-        return float(temp_input)
-
-    temp_str = str(temp_input).lower().strip()
-
-    # 特殊温度关键词
-    special_temps = {
-        "room temperature": 25.0, "reflux": 78.0, "ice bath": 0.0,
-        "boiling": 100.0, "hot": 60.0, "warm": 40.0, "cold": 10.0,
-    }
-    if temp_str in special_temps:
-        return special_temps[temp_str]
-
-    # 正则解析（如 "256 °C", "45°C", "45"）
-    match = re.search(r'(\d+(?:\.\d+)?)\s*°?[cf]?', temp_str)
-    if match:
-        return float(match.group(1))
-
-    debug_print(f"无法解析温度: '{temp_str}'，使用默认值: {default_temp}°C")
-    return default_temp
-
 # 测试函数
 def test_unit_parser():
    """测试单位解析功能"""
--- a/unilabos/compile/utils/vessel_parser.py
+++ b/unilabos/compile/utils/vessel_parser.py
@@ -1,23 +1,27 @@
 import networkx as nx

 from .logger_util import debug_print
-from .resource_helper import get_resource_id, get_resource_data


 def get_vessel(vessel):
    """
    统一处理vessel参数，返回vessel_id和vessel_data。
-    支持 dict、str、ResourceDictInstance。

    Args:
-        vessel: 可以是一个字典、字符串或 ResourceDictInstance，表示vessel的ID或数据。
+        vessel: 可以是一个字典或字符串，表示vessel的ID或数据。

    Returns:
        tuple: 包含vessel_id和vessel_data。
    """
-    # 统一使用 resource_helper 处理
-    vessel_id = get_resource_id(vessel)
-    vessel_data = get_resource_data(vessel)
+    if isinstance(vessel, dict):
+        if "id" not in vessel:
+            vessel_id = list(vessel.values())[0].get("id", "")
+        else:
+            vessel_id = vessel.get("id", "")
+        vessel_data = vessel.get("data", {})
+    else:
+        vessel_id = str(vessel)
+        vessel_data = {}
    return vessel_id, vessel_data


@@ -274,31 +278,4 @@ def find_solid_dispenser(G: nx.DiGraph) -> str:
            return node

    debug_print(f"❌ 未找到固体加样器")
-    return ""
-
-
-def find_connected_heatchill(G: nx.DiGraph, vessel: str) -> str:
-    """查找与指定容器相连的加热/冷却设备"""
-    heatchill_nodes = []
-    for node in G.nodes():
-        node_data = G.nodes[node]
-        node_class = node_data.get('class', '') or ''
-        node_name = node.lower()
-        if ('heatchill' in node_class.lower() or 'virtual_heatchill' in node_class
-                or 'heater' in node_name or 'heat' in node_name):
-            heatchill_nodes.append(node)
-
-    # 检查连接
-    if vessel and heatchill_nodes:
-        for hc in heatchill_nodes:
-            if G.has_edge(hc, vessel) or G.has_edge(vessel, hc):
-                debug_print(f"加热设备 '{hc}' 与容器 '{vessel}' 相连")
-                return hc
-
-    # 使用第一个可用设备
-    if heatchill_nodes:
-        debug_print(f"使用第一个加热设备: {heatchill_nodes[0]}")
-        return heatchill_nodes[0]
-
-    debug_print("未找到加热设备，使用默认设备")
-    return "heatchill_1"
+    return ""
--- a/unilabos/compile/wash_solid_protocol.py
+++ b/unilabos/compile/wash_solid_protocol.py
@@ -4,55 +4,199 @@ import logging
 import re

 from .utils.unit_parser import parse_time_input, parse_volume_input
-from .utils.resource_helper import get_resource_id, get_resource_display_info, get_resource_liquid_volume, update_vessel_volume
-from .utils.logger_util import debug_print

 logger = logging.getLogger(__name__)

+def debug_print(message):
+    """调试输出"""
+    logger.info(f"[WASH_SOLID] {message}")
+

 def find_solvent_source(G: nx.DiGraph, solvent: str) -> str:
-    """查找溶剂源"""
+    """查找溶剂源（精简版）"""
+    debug_print(f"🔍 查找溶剂源: {solvent}")
+    
+    # 简化搜索列表
    search_patterns = [
        f"flask_{solvent}", f"bottle_{solvent}", f"reagent_{solvent}",
        "liquid_reagent_bottle_1", "flask_1", "solvent_bottle"
    ]
-
+    
    for pattern in search_patterns:
        if pattern in G.nodes():
-            debug_print(f"找到溶剂源: {pattern}")
+            debug_print(f"🎉 找到溶剂源: {pattern}")
            return pattern
-
-    debug_print(f"使用默认溶剂源: flask_{solvent}")
+    
+    debug_print(f"⚠️ 使用默认溶剂源: flask_{solvent}")
    return f"flask_{solvent}"

 def find_filtrate_vessel(G: nx.DiGraph, filtrate_vessel: str = "") -> str:
-    """查找滤液容器"""
+    """查找滤液容器（精简版）"""
+    debug_print(f"🔍 查找滤液容器: {filtrate_vessel}")
+    
+    # 如果指定了且存在，直接使用
    if filtrate_vessel and filtrate_vessel in G.nodes():
+        debug_print(f"✅ 使用指定容器: {filtrate_vessel}")
        return filtrate_vessel
-
+    
+    # 简化搜索列表
    default_vessels = ["waste_workup", "filtrate_vessel", "flask_1", "collection_bottle_1"]
-
+    
    for vessel in default_vessels:
        if vessel in G.nodes():
-            debug_print(f"找到滤液容器: {vessel}")
+            debug_print(f"🎉 找到滤液容器: {vessel}")
            return vessel
-
+    
+    debug_print(f"⚠️ 使用默认滤液容器: waste_workup")
    return "waste_workup"

-def extract_vessel_id(vessel) -> str:
-    """从vessel参数中提取vessel_id，兼容 str / dict / ResourceDictInstance"""
-    return get_resource_id(vessel)
+def extract_vessel_id(vessel: Union[str, dict]) -> str:
+    """
+    从vessel参数中提取vessel_id
+    
+    Args:
+        vessel: vessel字典或vessel_id字符串
+        
+    Returns:
+        str: vessel_id
+    """
+    if isinstance(vessel, dict):
+        vessel_id = list(vessel.values())[0].get("id", "")
+        debug_print(f"🔧 从vessel字典提取ID: {vessel_id}")
+        return vessel_id
+    elif isinstance(vessel, str):
+        debug_print(f"🔧 vessel参数为字符串: {vessel}")
+        return vessel
+    else:
+        debug_print(f"⚠️ 无效的vessel参数类型: {type(vessel)}")
+        return ""

-def get_vessel_display_info(vessel) -> str:
-    """获取容器的显示信息（用于日志），兼容 str / dict / ResourceDictInstance"""
-    return get_resource_display_info(vessel)
+def get_vessel_display_info(vessel: Union[str, dict]) -> str:
+    """
+    获取容器的显示信息（用于日志）
+    
+    Args:
+        vessel: vessel字典或vessel_id字符串
+        
+    Returns:
+        str: 显示信息
+    """
+    if isinstance(vessel, dict):
+        vessel_id = vessel.get("id", "unknown")
+        vessel_name = vessel.get("name", "")
+        if vessel_name:
+            return f"{vessel_id} ({vessel_name})"
+        else:
+            return vessel_id
+    else:
+        return str(vessel)
+
+def get_vessel_liquid_volume(vessel: dict) -> float:
+    """
+    获取容器中的液体体积 - 支持vessel字典
+    
+    Args:
+        vessel: 容器字典
+        
+    Returns:
+        float: 液体体积（mL）
+    """
+    if not vessel or "data" not in vessel:
+        debug_print(f"⚠️ 容器数据为空，返回 0.0mL")
+        return 0.0
+    
+    vessel_data = vessel["data"]
+    vessel_id = vessel.get("id", "unknown")
+    
+    debug_print(f"🔍 读取容器 '{vessel_id}' 体积数据: {vessel_data}")
+    
+    # 检查liquid_volume字段
+    if "liquid_volume" in vessel_data:
+        liquid_volume = vessel_data["liquid_volume"]
+        
+        # 处理列表格式
+        if isinstance(liquid_volume, list):
+            if len(liquid_volume) > 0:
+                volume = liquid_volume[0]
+                if isinstance(volume, (int, float)):
+                    debug_print(f"✅ 容器 '{vessel_id}' 体积: {volume}mL (列表格式)")
+                    return float(volume)
+        
+        # 处理直接数值格式
+        elif isinstance(liquid_volume, (int, float)):
+            debug_print(f"✅ 容器 '{vessel_id}' 体积: {liquid_volume}mL (数值格式)")
+            return float(liquid_volume)
+    
+    # 检查其他可能的体积字段
+    volume_keys = ['current_volume', 'total_volume', 'volume']
+    for key in volume_keys:
+        if key in vessel_data:
+            try:
+                volume = float(vessel_data[key])
+                if volume > 0:
+                    debug_print(f"✅ 容器 '{vessel_id}' 体积: {volume}mL (字段: {key})")
+                    return volume
+            except (ValueError, TypeError):
+                continue
+    
+    debug_print(f"⚠️ 无法获取容器 '{vessel_id}' 的体积，返回默认值 0.0mL")
+    return 0.0
+
+def update_vessel_volume(vessel: dict, G: nx.DiGraph, new_volume: float, description: str = "") -> None:
+    """
+    更新容器体积（同时更新vessel字典和图节点）
+    
+    Args:
+        vessel: 容器字典
+        G: 网络图
+        new_volume: 新体积
+        description: 更新描述
+    """
+    vessel_id = vessel.get("id", "unknown")
+    
+    if description:
+        debug_print(f"🔧 更新容器体积 - {description}")
+    
+    # 更新vessel字典中的体积
+    if "data" in vessel:
+        if "liquid_volume" in vessel["data"]:
+            current_volume = vessel["data"]["liquid_volume"]
+            if isinstance(current_volume, list):
+                if len(current_volume) > 0:
+                    vessel["data"]["liquid_volume"][0] = new_volume
+                else:
+                    vessel["data"]["liquid_volume"] = [new_volume]
+            else:
+                vessel["data"]["liquid_volume"] = new_volume
+        else:
+            vessel["data"]["liquid_volume"] = new_volume
+    else:
+        vessel["data"] = {"liquid_volume": new_volume}
+    
+    # 同时更新图中的容器数据
+    if vessel_id in G.nodes():
+        if 'data' not in G.nodes[vessel_id]:
+            G.nodes[vessel_id]['data'] = {}
+        
+        vessel_node_data = G.nodes[vessel_id]['data']
+        current_node_volume = vessel_node_data.get('liquid_volume', 0.0)
+        
+        if isinstance(current_node_volume, list):
+            if len(current_node_volume) > 0:
+                G.nodes[vessel_id]['data']['liquid_volume'][0] = new_volume
+            else:
+                G.nodes[vessel_id]['data']['liquid_volume'] = [new_volume]
+        else:
+            G.nodes[vessel_id]['data']['liquid_volume'] = new_volume
+    
+    debug_print(f"📊 容器 '{vessel_id}' 体积已更新为: {new_volume:.2f}mL")

 def generate_wash_solid_protocol(
    G: nx.DiGraph,
-    vessel: Union[str, dict],
+    vessel: Union[str, dict],  # 🔧 修改：支持vessel字典
    solvent: str,
    volume: Union[float, str] = "50",
-    filtrate_vessel: Union[str, dict] = "",
+    filtrate_vessel: Union[str, dict] = "",  # 🔧 修改：支持vessel字典
    temp: float = 25.0,
    stir: bool = False,
    stir_speed: float = 0.0,
@@ -66,7 +210,7 @@ def generate_wash_solid_protocol(
 ) -> List[Dict[str, Any]]:
    """
    生成固体清洗协议 - 支持vessel字典和体积运算
-
+    
    Args:
        G: 有向图，节点为设备和容器，边为流体管道
        vessel: 清洗容器字典（从XDL传入）或容器ID字符串
@@ -83,78 +227,106 @@ def generate_wash_solid_protocol(
        mass: 固体质量（用于计算溶剂用量）
        event: 事件描述
        **kwargs: 其他可选参数
-
+    
    Returns:
        List[Dict[str, Any]]: 固体清洗操作的动作序列
    """
-
+    
+    # 🔧 核心修改：从vessel参数中提取vessel_id
    vessel_id = extract_vessel_id(vessel)
    vessel_display = get_vessel_display_info(vessel)
-
+    
+    # 🔧 处理filtrate_vessel参数
    filtrate_vessel_id = extract_vessel_id(filtrate_vessel) if filtrate_vessel else ""
-
-    debug_print(f"开始生成固体清洗协议: vessel={vessel_id}, solvent={solvent}, volume={volume}, repeats={repeats}")
-
-    # 记录清洗前的容器状态
+    
+    debug_print("🧼" * 20)
+    debug_print("🚀 开始生成固体清洗协议（支持vessel字典和体积运算）✨")
+    debug_print(f"📝 输入参数:")
+    debug_print(f"  🥽 vessel: {vessel_display} (ID: {vessel_id})")
+    debug_print(f"  🧪 solvent: {solvent}")
+    debug_print(f"  💧 volume: {volume}")
+    debug_print(f"  🗑️ filtrate_vessel: {filtrate_vessel_id}")
+    debug_print(f"  ⏰ time: {time}")
+    debug_print(f"  🔄 repeats: {repeats}")
+    debug_print("🧼" * 20)
+    
+    # 🔧 新增：记录清洗前的容器状态
+    debug_print("🔍 记录清洗前容器状态...")
    if isinstance(vessel, dict):
-        original_volume = get_resource_liquid_volume(vessel)
+        original_volume = get_vessel_liquid_volume(vessel)
+        debug_print(f"📊 清洗前液体体积: {original_volume:.2f}mL")
    else:
        original_volume = 0.0
-
-    # 快速验证
-    if not vessel_id or vessel_id not in G.nodes():
+        debug_print(f"📊 vessel为字符串格式，无法获取体积信息")
+    
+    # 📋 快速验证
+    if not vessel_id or vessel_id not in G.nodes():  # 🔧 使用 vessel_id
+        debug_print("❌ 容器验证失败! 😱")
        raise ValueError("vessel 参数无效")
-
+    
    if not solvent:
+        debug_print("❌ 溶剂不能为空! 😱")
        raise ValueError("solvent 参数不能为空")
-
-    # 参数解析
+    
+    debug_print("✅ 基础验证通过 🎯")
+    
+    # 🔄 参数解析
+    debug_print("📍 步骤1: 参数解析... ⚡")
    final_volume = parse_volume_input(volume, volume_spec, mass)
    final_time = parse_time_input(time)
-
-    # 重复次数处理
+    
+    # 重复次数处理（简化）
    if repeats_spec:
        spec_map = {'few': 2, 'several': 3, 'many': 4, 'thorough': 5}
        final_repeats = next((v for k, v in spec_map.items() if k in repeats_spec.lower()), repeats)
    else:
-        final_repeats = max(1, min(repeats, 5))
-
-    # 模拟时间优化
+        final_repeats = max(1, min(repeats, 5))  # 限制1-5次
+    
+    # 🕐 模拟时间优化
+    debug_print("  ⏱️ 模拟时间优化...")
    original_time = final_time
    if final_time > 60.0:
-        final_time = 60.0
-        debug_print(f"时间优化: {original_time}s -> {final_time}s")
-
+        final_time = 60.0  # 限制最长60秒
+        debug_print(f"  🎮 时间优化: {original_time}s → {final_time}s ⚡")
+    
    # 参数修正
-    temp = max(25.0, min(temp, 80.0))
-    stir_speed = max(0.0, min(stir_speed, 300.0)) if stir else 0.0
-
-    debug_print(f"最终参数: 体积={final_volume}mL, 时间={final_time}s, 重复={final_repeats}次")
-
-    # 查找设备
+    temp = max(25.0, min(temp, 80.0))  # 温度范围25-80°C
+    stir_speed = max(0.0, min(stir_speed, 300.0)) if stir else 0.0  # 速度范围0-300
+    
+    debug_print(f"🎯 最终参数: 体积={final_volume}mL, 时间={final_time}s, 重复={final_repeats}次")
+    
+    # 🔍 查找设备
+    debug_print("📍 步骤2: 查找设备... 🔍")
    try:
        solvent_source = find_solvent_source(G, solvent)
        actual_filtrate_vessel = find_filtrate_vessel(G, filtrate_vessel_id)
+        debug_print(f"🎉 设备配置完成 ✨")
+        debug_print(f"  🧪 溶剂源: {solvent_source}")
+        debug_print(f"  🗑️ 滤液容器: {actual_filtrate_vessel}")
    except Exception as e:
+        debug_print(f"❌ 设备查找失败: {str(e)} 😭")
        raise ValueError(f"设备查找失败: {str(e)}")
-
-    # 生成动作序列
+    
+    # 🚀 生成动作序列
+    debug_print("📍 步骤3: 生成清洗动作... 🧼")
    action_sequence = []
-
+    
+    # 🔧 新增：体积变化跟踪变量
    current_volume = original_volume
    total_solvent_used = 0.0
-
+    
    for cycle in range(final_repeats):
-        debug_print(f"第{cycle+1}/{final_repeats}次清洗")
-
+        debug_print(f"  🔄 第{cycle+1}/{final_repeats}次清洗...")
+        
        # 1. 转移溶剂
        try:
            from .pump_protocol import generate_pump_protocol_with_rinsing
-
+            
+            debug_print(f"    💧 添加溶剂: {final_volume}mL {solvent}")
            transfer_actions = generate_pump_protocol_with_rinsing(
                G=G,
                from_vessel=solvent_source,
-                to_vessel=vessel_id,
+                to_vessel=vessel_id,  # 🔧 使用 vessel_id
                volume=final_volume,
                amount="",
                time=0.0,
@@ -166,160 +338,211 @@ def generate_wash_solid_protocol(
                flowrate=2.5,
                transfer_flowrate=0.5
            )
-
+            
            if transfer_actions:
                action_sequence.extend(transfer_actions)
-
+                debug_print(f"    ✅ 转移动作: {len(transfer_actions)}个 🚚")
+                
+                # 🔧 新增：更新体积 - 添加溶剂后
                current_volume += final_volume
                total_solvent_used += final_volume
-
+                
                if isinstance(vessel, dict):
-                    update_vessel_volume(vessel, G, current_volume,
+                    update_vessel_volume(vessel, G, current_volume, 
                                       f"第{cycle+1}次清洗添加{final_volume}mL溶剂后")
-
+            
        except Exception as e:
-            debug_print(f"转移失败: {str(e)}")
-
+            debug_print(f"    ❌ 转移失败: {str(e)} 😞")
+        
        # 2. 搅拌（如果需要）
        if stir and final_time > 0:
+            debug_print(f"    🌪️ 搅拌: {final_time}s @ {stir_speed}RPM")
            stir_action = {
                "device_id": "stirrer_1",
                "action_name": "stir",
                "action_kwargs": {
-                    "vessel": {"id": vessel_id},
+                    "vessel": {"id": vessel_id},  # 🔧 使用 vessel_id
                    "time": str(time),
                    "stir_time": final_time,
                    "stir_speed": stir_speed,
-                    "settling_time": 10.0
+                    "settling_time": 10.0  # 🕐 缩短沉降时间
                }
            }
            action_sequence.append(stir_action)
-
+            debug_print(f"    ✅ 搅拌动作: {final_time}s, {stir_speed}RPM 🌪️")
+        
        # 3. 过滤
+        debug_print(f"    🌊 过滤到: {actual_filtrate_vessel}")
        filter_action = {
            "device_id": "filter_1",
            "action_name": "filter",
            "action_kwargs": {
-                "vessel": {"id": vessel_id},
+                "vessel": {"id": vessel_id},  # 🔧 使用 vessel_id
                "filtrate_vessel": actual_filtrate_vessel,
                "temp": temp,
                "volume": final_volume
            }
        }
        action_sequence.append(filter_action)
-
-        # 更新体积 - 过滤后
-        filtered_volume = current_volume * 0.9
+        debug_print(f"    ✅ 过滤动作: → {actual_filtrate_vessel} 🌊")
+        
+        # 🔧 新增：更新体积 - 过滤后（液体被滤除）
+        # 假设滤液完全被移除，固体残留在容器中
+        filtered_volume = current_volume * 0.9  # 假设90%的液体被过滤掉
        current_volume = current_volume - filtered_volume
-
+        
        if isinstance(vessel, dict):
-            update_vessel_volume(vessel, G, current_volume,
+            update_vessel_volume(vessel, G, current_volume, 
                               f"第{cycle+1}次清洗过滤后")
-
-        # 4. 等待
-        wait_time = 5.0
+        
+        # 4. 等待（缩短时间）
+        wait_time = 5.0  # 🕐 缩短等待时间：10s → 5s
        action_sequence.append({
            "action_name": "wait",
            "action_kwargs": {"time": wait_time}
        })
-
-    # 最终状态
+        debug_print(f"    ✅ 等待: {wait_time}s ⏰")
+    
+    # 🔧 新增：清洗完成后的最终状态报告
    if isinstance(vessel, dict):
-        final_volume_vessel = get_resource_liquid_volume(vessel)
+        final_volume_vessel = get_vessel_liquid_volume(vessel)
    else:
        final_volume_vessel = current_volume
-
-    debug_print(f"固体清洗协议生成完成: {len(action_sequence)} 个动作, {final_repeats}次清洗, 溶剂总用量={total_solvent_used:.2f}mL")
-
+    
+    # 🎊 总结
+    debug_print("🧼" * 20)
+    debug_print(f"🎉 固体清洗协议生成完成! ✨")
+    debug_print(f"📊 协议统计:")
+    debug_print(f"  📋 总动作数: {len(action_sequence)} 个")
+    debug_print(f"  🥽 清洗容器: {vessel_display}")
+    debug_print(f"  🧪 使用溶剂: {solvent}")
+    debug_print(f"  💧 单次体积: {final_volume}mL")
+    debug_print(f"  🔄 清洗次数: {final_repeats}次")
+    debug_print(f"  💧 总溶剂用量: {total_solvent_used:.2f}mL")
+    debug_print(f"📊 体积变化统计:")
+    debug_print(f"  - 清洗前体积: {original_volume:.2f}mL")
+    debug_print(f"  - 清洗后体积: {final_volume_vessel:.2f}mL")
+    debug_print(f"  - 溶剂总用量: {total_solvent_used:.2f}mL")
+    debug_print(f"⏱️ 预计总时间: {(final_time + 5) * final_repeats / 60:.1f} 分钟")
+    debug_print("🧼" * 20)
+    
    return action_sequence

-# 便捷函数
-def wash_with_water(G: nx.DiGraph, vessel: Union[str, dict],
-                   volume: Union[float, str] = "50",
+# 🔧 新增：便捷函数
+def wash_with_water(G: nx.DiGraph, vessel: Union[str, dict], 
+                   volume: Union[float, str] = "50", 
                   repeats: int = 2) -> List[Dict[str, Any]]:
    """用水清洗固体"""
+    vessel_display = get_vessel_display_info(vessel)
+    debug_print(f"💧 水洗固体: {vessel_display} ({repeats} 次)")
    return generate_wash_solid_protocol(G, vessel, "water", volume=volume, repeats=repeats)

-def wash_with_ethanol(G: nx.DiGraph, vessel: Union[str, dict],
-                     volume: Union[float, str] = "30",
+def wash_with_ethanol(G: nx.DiGraph, vessel: Union[str, dict], 
+                     volume: Union[float, str] = "30", 
                     repeats: int = 1) -> List[Dict[str, Any]]:
    """用乙醇清洗固体"""
+    vessel_display = get_vessel_display_info(vessel)
+    debug_print(f"🍺 乙醇洗固体: {vessel_display} ({repeats} 次)")
    return generate_wash_solid_protocol(G, vessel, "ethanol", volume=volume, repeats=repeats)

-def wash_with_acetone(G: nx.DiGraph, vessel: Union[str, dict],
-                     volume: Union[float, str] = "25",
+def wash_with_acetone(G: nx.DiGraph, vessel: Union[str, dict], 
+                     volume: Union[float, str] = "25", 
                     repeats: int = 1) -> List[Dict[str, Any]]:
    """用丙酮清洗固体"""
+    vessel_display = get_vessel_display_info(vessel)
+    debug_print(f"💨 丙酮洗固体: {vessel_display} ({repeats} 次)")
    return generate_wash_solid_protocol(G, vessel, "acetone", volume=volume, repeats=repeats)

-def wash_with_ether(G: nx.DiGraph, vessel: Union[str, dict],
-                   volume: Union[float, str] = "40",
+def wash_with_ether(G: nx.DiGraph, vessel: Union[str, dict], 
+                   volume: Union[float, str] = "40", 
                   repeats: int = 2) -> List[Dict[str, Any]]:
    """用乙醚清洗固体"""
+    vessel_display = get_vessel_display_info(vessel)
+    debug_print(f"🌬️ 乙醚洗固体: {vessel_display} ({repeats} 次)")
    return generate_wash_solid_protocol(G, vessel, "diethyl_ether", volume=volume, repeats=repeats)

-def wash_with_cold_solvent(G: nx.DiGraph, vessel: Union[str, dict],
-                          solvent: str, volume: Union[float, str] = "30",
+def wash_with_cold_solvent(G: nx.DiGraph, vessel: Union[str, dict], 
+                          solvent: str, volume: Union[float, str] = "30", 
                          repeats: int = 1) -> List[Dict[str, Any]]:
    """用冷溶剂清洗固体"""
-    return generate_wash_solid_protocol(G, vessel, solvent, volume=volume,
+    vessel_display = get_vessel_display_info(vessel)
+    debug_print(f"❄️ 冷{solvent}洗固体: {vessel_display} ({repeats} 次)")
+    return generate_wash_solid_protocol(G, vessel, solvent, volume=volume, 
                                      temp=5.0, repeats=repeats)

-def wash_with_hot_solvent(G: nx.DiGraph, vessel: Union[str, dict],
-                         solvent: str, volume: Union[float, str] = "50",
+def wash_with_hot_solvent(G: nx.DiGraph, vessel: Union[str, dict], 
+                         solvent: str, volume: Union[float, str] = "50", 
                         repeats: int = 1) -> List[Dict[str, Any]]:
    """用热溶剂清洗固体"""
-    return generate_wash_solid_protocol(G, vessel, solvent, volume=volume,
+    vessel_display = get_vessel_display_info(vessel)
+    debug_print(f"🔥 热{solvent}洗固体: {vessel_display} ({repeats} 次)")
+    return generate_wash_solid_protocol(G, vessel, solvent, volume=volume, 
                                      temp=60.0, repeats=repeats)

-def wash_with_stirring(G: nx.DiGraph, vessel: Union[str, dict],
-                      solvent: str, volume: Union[float, str] = "50",
-                      stir_time: Union[str, float] = "5 min",
+def wash_with_stirring(G: nx.DiGraph, vessel: Union[str, dict], 
+                      solvent: str, volume: Union[float, str] = "50", 
+                      stir_time: Union[str, float] = "5 min", 
                      repeats: int = 1) -> List[Dict[str, Any]]:
    """带搅拌的溶剂清洗"""
-    return generate_wash_solid_protocol(G, vessel, solvent, volume=volume,
-                                      stir=True, stir_speed=200.0,
+    vessel_display = get_vessel_display_info(vessel)
+    debug_print(f"🌪️ 搅拌清洗: {vessel_display} with {solvent} ({repeats} 次)")
+    return generate_wash_solid_protocol(G, vessel, solvent, volume=volume, 
+                                      stir=True, stir_speed=200.0, 
                                      time=stir_time, repeats=repeats)

-def thorough_wash(G: nx.DiGraph, vessel: Union[str, dict],
+def thorough_wash(G: nx.DiGraph, vessel: Union[str, dict], 
                 solvent: str, volume: Union[float, str] = "50") -> List[Dict[str, Any]]:
    """彻底清洗（多次重复）"""
+    vessel_display = get_vessel_display_info(vessel)
+    debug_print(f"🔄 彻底清洗: {vessel_display} with {solvent} (5 次)")
    return generate_wash_solid_protocol(G, vessel, solvent, volume=volume, repeats=5)

-def quick_rinse(G: nx.DiGraph, vessel: Union[str, dict],
+def quick_rinse(G: nx.DiGraph, vessel: Union[str, dict], 
               solvent: str, volume: Union[float, str] = "20") -> List[Dict[str, Any]]:
    """快速冲洗（单次，小体积）"""
+    vessel_display = get_vessel_display_info(vessel)
+    debug_print(f"⚡ 快速冲洗: {vessel_display} with {solvent}")
    return generate_wash_solid_protocol(G, vessel, solvent, volume=volume, repeats=1)

-def sequential_wash(G: nx.DiGraph, vessel: Union[str, dict],
+def sequential_wash(G: nx.DiGraph, vessel: Union[str, dict], 
                   solvents: list, volume: Union[float, str] = "40") -> List[Dict[str, Any]]:
    """连续多溶剂清洗"""
+    vessel_display = get_vessel_display_info(vessel)
+    debug_print(f"📝 连续清洗: {vessel_display} with {' → '.join(solvents)}")
+    
    action_sequence = []
    for solvent in solvents:
-        wash_actions = generate_wash_solid_protocol(G, vessel, solvent,
+        wash_actions = generate_wash_solid_protocol(G, vessel, solvent, 
                                                   volume=volume, repeats=1)
        action_sequence.extend(wash_actions)
-
+    
    return action_sequence

 # 测试函数
 def test_wash_solid_protocol():
    """测试固体清洗协议"""
-    debug_print("=== WASH SOLID PROTOCOL 测试 ===")
-
-    vessel_dict = {"id": "filter_flask_1", "name": "过滤瓶1",
+    debug_print("🧪 === WASH SOLID PROTOCOL 测试 === ✨")
+    
+    # 测试vessel参数处理
+    debug_print("🔧 测试vessel参数处理...")
+    
+    # 测试字典格式
+    vessel_dict = {"id": "filter_flask_1", "name": "过滤瓶1", 
                  "data": {"liquid_volume": 25.0}}
    vessel_id = extract_vessel_id(vessel_dict)
    vessel_display = get_vessel_display_info(vessel_dict)
-    volume = get_resource_liquid_volume(vessel_dict)
-    debug_print(f"字典格式: ID={vessel_id}, 显示={vessel_display}, 体积={volume}mL")
-
+    volume = get_vessel_liquid_volume(vessel_dict)
+    debug_print(f"  字典格式: {vessel_dict}")
+    debug_print(f"    → ID: {vessel_id}, 显示: {vessel_display}, 体积: {volume}mL")
+    
+    # 测试字符串格式
    vessel_str = "filter_flask_2"
    vessel_id = extract_vessel_id(vessel_str)
    vessel_display = get_vessel_display_info(vessel_str)
-    debug_print(f"字符串格式: ID={vessel_id}, 显示={vessel_display}")
-
-    debug_print("测试完成")
+    debug_print(f"  字符串格式: {vessel_str}")
+    debug_print(f"    → ID: {vessel_id}, 显示: {vessel_display}")
+    
+    debug_print("✅ 测试完成 🎉")

 if __name__ == "__main__":
-    test_wash_solid_protocol()
+    test_wash_solid_protocol()
--- a/unilabos/config/config.py
+++ b/unilabos/config/config.py
@@ -46,7 +46,7 @@ class WSConfig:

 # HTTP配置
 class HTTPConfig:
-    remote_addr = "https://uni-lab.bohrium.com/api/v1"
+    remote_addr = "https://leap-lab.bohrium.com/api/v1"


 # ROS配置
--- a/unilabos/devices/transport/init.py
+++ b/unilabos/devices/transport/init.py
--- a/unilabos/devices/transport/agv_workstation.py
+++ b/unilabos/devices/transport/agv_workstation.py
@@ -1,127 +0,0 @@
-"""
-AGV 通用转运工站 Driver
-
-继承 WorkstationBase，通过 WorkstationNodeCreator 自动获得 ROS2WorkstationNode 能力。
-Warehouse 作为 children 中的资源节点，由 attach_resource() 自动注册到 resource_tracker。
-deck=None，不使用 PLR Deck 抽象。
-"""
-
-from typing import Any, Dict, List, Optional
-
-from pylabrobot.resources import Deck
-
-from unilabos.devices.workstation.workstation_base import WorkstationBase
-from unilabos.resources.warehouse import WareHouse
-from unilabos.utils import logger
-
-
-class AGVTransportStation(WorkstationBase):
-    """通用 AGV 转运工站
-
-    初始化链路（零框架改动）：
-        ROS2DeviceNode.__init__():
-          issubclass(AGVTransportStation, WorkstationBase) → True
-          → WorkstationNodeCreator.create_instance(data):
-              data["deck"] = None
-              → DeviceClassCreator.create_instance(data) → AGVTransportStation(deck=None, ...)
-              → attach_resource(): children 中 type="warehouse" → resource_tracker.add_resource(wh)
-          → ROS2WorkstationNode(protocol_type=[...], children=[nav, arm], ...)
-          → driver.post_init(ros_node):
-              self.carrier 从 resource_tracker 中获取 WareHouse
-    """
-
-    def __init__(
-        self,
-        deck: Optional[Deck] = None,
-        children: Optional[List[Any]] = None,
-        route_table: Optional[Dict[str, Dict[str, str]]] = None,
-        device_roles: Optional[Dict[str, str]] = None,
-        **kwargs,
-    ):
-        super().__init__(deck=None, **kwargs)
-        self.route_table: Dict[str, Dict[str, str]] = route_table or {}
-        self.device_roles: Dict[str, str] = device_roles or {}
-
-    # ============ 载具 (Warehouse) ============
-
-    @property
-    def carrier(self) -> Optional[WareHouse]:
-        """从 resource_tracker 中找到 AGV 载具 Warehouse"""
-        if not hasattr(self, "_ros_node"):
-            return None
-        for res in self._ros_node.resource_tracker.resources:
-            if isinstance(res, WareHouse):
-                return res
-        return None
-
-    @property
-    def capacity(self) -> int:
-        """AGV 载具总容量（slot 数）"""
-        wh = self.carrier
-        if wh is None:
-            return 0
-        return wh.num_items_x * wh.num_items_y * wh.num_items_z
-
-    @property
-    def free_slots(self) -> List[str]:
-        """返回当前空闲 slot 名称列表"""
-        wh = self.carrier
-        if wh is None:
-            return []
-        ordering = getattr(wh, "_ordering", {})
-        return [name for name, site in ordering.items() if site.resource is None]
-
-    @property
-    def occupied_slots(self) -> Dict[str, Any]:
-        """返回已占用的 slot → Resource 映射"""
-        wh = self.carrier
-        if wh is None:
-            return {}
-        ordering = getattr(wh, "_ordering", {})
-        return {name: site.resource for name, site in ordering.items() if site.resource is not None}
-
-    # ============ 路由查询 ============
-
-    def resolve_route(self, from_station: str, to_station: str) -> Dict[str, str]:
-        """查询路由表，返回导航和机械臂指令
-
-        Args:
-            from_station: 来源工站 ID
-            to_station: 目标工站 ID
-
-        Returns:
-            {"nav_command": "...", "arm_pick": "...", "arm_place": "..."}
-
-        Raises:
-            KeyError: 路由表中未找到对应路线
-        """
-        route_key = f"{from_station}->{to_station}"
-        if route_key not in self.route_table:
-            raise KeyError(f"路由表中未找到路线: {route_key}")
-        return self.route_table[route_key]
-
-    def get_device_id(self, role: str) -> str:
-        """获取子设备 ID
-
-        Args:
-            role: 设备角色，如 "navigator", "arm"
-
-        Returns:
-            设备 ID 字符串
-
-        Raises:
-            KeyError: 未配置该角色的设备
-        """
-        if role not in self.device_roles:
-            raise KeyError(f"未配置设备角色: {role}，当前已配置: {list(self.device_roles.keys())}")
-        return self.device_roles[role]
-
-    # ============ 生命周期 ============
-
-    def post_init(self, ros_node) -> None:
-        super().post_init(ros_node)
-        wh = self.carrier
-        if wh is not None:
-            logger.info(f"AGV {ros_node.device_id} 载具已就绪: {wh.name}, 容量={self.capacity}")
-        else:
-            logger.warning(f"AGV {ros_node.device_id} 未发现 Warehouse 载具资源")
--- a/unilabos/devices/virtual/virtual_multiway_valve.py
+++ b/unilabos/devices/virtual/virtual_multiway_valve.py
@@ -2,6 +2,8 @@ import time
 import logging
 from typing import Union, Dict, Optional

+from unilabos.registry.decorators import topic_config
+

 class VirtualMultiwayValve:
    """
@@ -41,13 +43,11 @@ class VirtualMultiwayValve:
    def target_position(self) -> int:
        return self._target_position

-    def get_current_position(self) -> int:
-        """获取当前阀门位置 📍"""
-        return self._current_position
-
-    def get_current_port(self) -> str:
-        """获取当前连接的端口名称 🔌"""
-        return self._current_position
+    @property
+    @topic_config()
+    def current_port(self) -> str:
+        """当前连接的端口名称 🔌"""
+        return self.port

    def set_position(self, command: Union[int, str]):
        """
@@ -169,12 +169,14 @@ class VirtualMultiwayValve:
        self._status = "Idle"
        self._valve_state = "Closed"
        
-        close_msg = f"🔒 阀门已关闭，保持在位置 {self._current_position} ({self.get_current_port()})"
+        close_msg = f"🔒 阀门已关闭，保持在位置 {self._current_position} ({self.port})"
        self.logger.info(close_msg)
        return close_msg

-    def get_valve_position(self) -> int:
-        """获取阀门位置 - 兼容性方法 📍"""
+    @property
+    @topic_config()
+    def valve_position(self) -> int:
+        """阀门位置 📍"""
        return self._current_position

    def set_valve_position(self, command: Union[int, str]):
@@ -229,19 +231,16 @@ class VirtualMultiwayValve:
            self.logger.info(f"🔄 从端口 {self._current_position} 切换到泵位置...")
            return self.set_to_pump_position()

-    def get_flow_path(self) -> str:
-        """获取当前流路路径描述 🌊"""
-        current_port = self.get_current_port()
+    @property
+    @topic_config()
+    def flow_path(self) -> str:
+        """当前流路路径描述 🌊"""
        if self._current_position == 0:
-            flow_path = f"🚰 转移泵已连接 (位置 {self._current_position})"
-        else:
-            flow_path = f"🔌 端口 {self._current_position} 已连接 ({current_port})"
-        
-        # 删除debug日志：self.logger.debug(f"🌊 当前流路: {flow_path}")
-        return flow_path
+            return f"🚰 转移泵已连接 (位置 {self._current_position})"
+        return f"🔌 端口 {self._current_position} 已连接 ({self.current_port})"

    def __str__(self):
-        current_port = self.get_current_port()
+        current_port = self.current_port
        status_emoji = "✅" if self._status == "Idle" else "🔄" if self._status == "Busy" else "❌"
        
        return f"🔄 VirtualMultiwayValve({status_emoji} 位置: {self._current_position}/{self.max_positions}, 端口: {current_port}, 状态: {self._status})"
@@ -253,7 +252,7 @@ if __name__ == "__main__":
    
    print("🔄 === 虚拟九通阀门测试 === ✨")
    print(f"🏠 初始状态: {valve}")
-    print(f"🌊 当前流路: {valve.get_flow_path()}")
+    print(f"🌊 当前流路: {valve.flow_path}")
    
    # 切换到试剂瓶1（1号位）
    print(f"\n🔌 切换到1号位: {valve.set_position(1)}")
--- a/unilabos/devices/virtual/virtual_stirrer.py
+++ b/unilabos/devices/virtual/virtual_stirrer.py
@@ -3,6 +3,7 @@ import logging
 import time as time_module
 from typing import Dict, Any

+from unilabos.registry.decorators import topic_config
 from unilabos.ros.nodes.base_device_node import BaseROS2DeviceNode

 class VirtualStirrer:
@@ -314,9 +315,11 @@ class VirtualStirrer:
    def min_speed(self) -> float:
        return self._min_speed
    
-    def get_device_info(self) -> Dict[str, Any]:
-        """获取设备状态信息 📊"""
-        info = {
+    @property
+    @topic_config()
+    def device_info(self) -> Dict[str, Any]:
+        """设备状态快照信息 📊"""
+        return {
            "device_id": self.device_id,
            "status": self.status,
            "operation_mode": self.operation_mode,
@@ -325,12 +328,9 @@ class VirtualStirrer:
            "is_stirring": self.is_stirring,
            "remaining_time": self.remaining_time,
            "max_speed": self._max_speed,
-            "min_speed": self._min_speed
+            "min_speed": self._min_speed,
        }
-        
-        # self.logger.debug(f"📊 设备信息: 模式={self.operation_mode}, 速度={self.current_speed} RPM, 搅拌={self.is_stirring}")
-        return info
-    
+
    def __str__(self):
        status_emoji = "✅" if self.operation_mode == "Idle" else "🌪️" if self.operation_mode == "Stirring" else "🛑" if self.operation_mode == "Settling" else "❌"
        return f"🌪️ VirtualStirrer({status_emoji} {self.device_id}: {self.operation_mode}, {self.current_speed} RPM)"
--- a/unilabos/devices/virtual/virtual_transferpump.py
+++ b/unilabos/devices/virtual/virtual_transferpump.py
@@ -4,6 +4,7 @@ from enum import Enum
 from typing import Union, Optional
 import logging

+from unilabos.registry.decorators import topic_config
 from unilabos.ros.nodes.base_device_node import BaseROS2DeviceNode


@@ -385,8 +386,10 @@ class VirtualTransferPump:
        """获取当前体积"""
        return self._current_volume

-    def get_remaining_capacity(self) -> float:
-        """获取剩余容量"""
+    @property
+    @topic_config()
+    def remaining_capacity(self) -> float:
+        """剩余容量 (ml)"""
        return self.max_volume - self._current_volume

    def is_empty(self) -> bool:
--- a/unilabos/devices/virtual/workbench.py
+++ b/unilabos/devices/virtual/workbench.py
@@ -22,10 +22,11 @@ from threading import Lock, RLock
 from typing_extensions import TypedDict

 from unilabos.registry.decorators import (
-    device, action, ActionInputHandle, ActionOutputHandle, DataSource, topic_config, not_action
+    device, action, ActionInputHandle, ActionOutputHandle, DataSource, topic_config, not_action, NodeType
 )
-from unilabos.ros.nodes.base_device_node import BaseROS2DeviceNode
-from unilabos.resources.resource_tracker import SampleUUIDsType, LabSample
+from unilabos.registry.placeholder_type import ResourceSlot, DeviceSlot
+from unilabos.ros.nodes.base_device_node import BaseROS2DeviceNode, ROS2DeviceNode
+from unilabos.resources.resource_tracker import SampleUUIDsType, LabSample, ResourceTreeSet


 # ============ TypedDict 返回类型定义 ============
@@ -290,6 +291,126 @@ class VirtualWorkbench:
        self._update_data_status(f"机械臂已释放 (完成: {task})")
        self.logger.info(f"机械臂已释放 (完成: {task})")

+    @action(
+        always_free=True, node_type=NodeType.MANUAL_CONFIRM, placeholder_keys={
+            "assignee_user_ids": "unilabos_manual_confirm"
+        }, goal_default={
+            "timeout_seconds": 3600,
+            "assignee_user_ids": []
+        }, feedback_interval=300,
+        handles=[
+            ActionInputHandle(key="target_device", data_type="device_id",
+                              label="目标设备", data_key="target_device", data_source=DataSource.HANDLE),
+            ActionInputHandle(key="resource", data_type="resource",
+                              label="待转移资源", data_key="resource", data_source=DataSource.HANDLE),
+            ActionInputHandle(key="mount_resource", data_type="resource",
+                              label="目标孔位", data_key="mount_resource", data_source=DataSource.HANDLE),
+
+            ActionInputHandle(key="collector_mass", data_type="collector_mass",
+                              label="极流体质量", data_key="collector_mass", data_source=DataSource.HANDLE),
+            ActionInputHandle(key="active_material", data_type="active_material",
+                              label="活性物质含量", data_key="active_material", data_source=DataSource.HANDLE),
+            ActionInputHandle(key="capacity", data_type="capacity",
+                              label="克容量", data_key="capacity", data_source=DataSource.HANDLE),
+            ActionInputHandle(key="battery_system", data_type="battery_system",
+                              label="电池体系", data_key="battery_system", data_source=DataSource.HANDLE),
+            # transfer使用
+            ActionOutputHandle(key="target_device", data_type="device_id",
+                               label="目标设备", data_key="target_device", data_source=DataSource.EXECUTOR),
+            ActionOutputHandle(key="resource", data_type="resource",
+                              label="待转移资源", data_key="resource.@flatten", data_source=DataSource.EXECUTOR),
+            ActionOutputHandle(key="mount_resource", data_type="resource",
+                              label="目标孔位", data_key="mount_resource.@flatten", data_source=DataSource.EXECUTOR),
+            # test使用
+            ActionOutputHandle(key="collector_mass", data_type="collector_mass",
+                              label="极流体质量", data_key="collector_mass", data_source=DataSource.EXECUTOR),
+            ActionOutputHandle(key="active_material", data_type="active_material",
+                              label="活性物质含量", data_key="active_material", data_source=DataSource.EXECUTOR),
+            ActionOutputHandle(key="capacity", data_type="capacity",
+                              label="克容量", data_key="capacity", data_source=DataSource.EXECUTOR),
+            ActionOutputHandle(key="battery_system", data_type="battery_system",
+                              label="电池体系", data_key="battery_system", data_source=DataSource.EXECUTOR),
+        ]
+    )
+    def manual_confirm(
+        self,
+        resource: List[ResourceSlot],
+        target_device: DeviceSlot,
+        mount_resource: List[ResourceSlot],
+        collector_mass: List[float],
+        active_material: List[float],
+        capacity: List[float],
+        battery_system: List[str],
+        timeout_seconds: int,
+        assignee_user_ids: list[str],
+        **kwargs
+    ) -> dict:
+        """
+        timeout_seconds: 超时时间（秒），默认3600秒
+        collector_mass: 极流体质量
+        active_material: 活性物质含量
+        capacity: 克容量（mAh/g）
+        battery_system: 电池体系
+        修改的结果无效，是只读的
+        """
+        resource = ResourceTreeSet.from_plr_resources(resource).dump()
+        mount_resource = ResourceTreeSet.from_plr_resources(mount_resource).dump()
+        kwargs.update(locals())
+        kwargs.pop("kwargs")
+        kwargs.pop("self")
+        return kwargs
+
+    @action(
+        description="转移物料",
+        handles=[
+            ActionInputHandle(key="target_device", data_type="device_id",
+                              label="目标设备", data_key="target_device", data_source=DataSource.HANDLE),
+            ActionInputHandle(key="resource", data_type="resource",
+                               label="待转移资源", data_key="resource", data_source=DataSource.HANDLE),
+            ActionInputHandle(key="mount_resource", data_type="resource",
+                               label="目标孔位", data_key="mount_resource", data_source=DataSource.HANDLE),
+        ]
+    )
+    async def transfer(self, resource: List[ResourceSlot], target_device: DeviceSlot, mount_resource: List[ResourceSlot]):
+        future = ROS2DeviceNode.run_async_func(self._ros_node.transfer_resource_to_another, True,
+            **{
+                "plr_resources": resource,
+                "target_device_id": target_device,
+                "target_resources": mount_resource,
+                "sites": [None] * len(mount_resource),
+            })
+        result = await future
+        return result
+
+
+    @action(
+        description="扣电测试启动",
+        handles=[
+            ActionInputHandle(key="resource", data_type="resource",
+                              label="待转移资源", data_key="resource", data_source=DataSource.HANDLE),
+            ActionInputHandle(key="mount_resource", data_type="resource",
+                              label="目标孔位", data_key="mount_resource", data_source=DataSource.HANDLE),
+
+            ActionInputHandle(key="collector_mass", data_type="collector_mass",
+                              label="极流体质量", data_key="collector_mass", data_source=DataSource.HANDLE),
+            ActionInputHandle(key="active_material", data_type="active_material",
+                              label="活性物质含量", data_key="active_material", data_source=DataSource.HANDLE),
+            ActionInputHandle(key="capacity", data_type="capacity",
+                              label="克容量", data_key="capacity", data_source=DataSource.HANDLE),
+            ActionInputHandle(key="battery_system", data_type="battery_system",
+                              label="电池体系", data_key="battery_system", data_source=DataSource.HANDLE),
+        ]
+    )
+    async def test(
+        self, resource: List[ResourceSlot], mount_resource: List[ResourceSlot],  collector_mass: List[float], active_material: List[float], capacity: List[float], battery_system: list[str]
+    ):
+        print(resource)
+        print(mount_resource)
+        print(collector_mass)
+        print(active_material)
+        print(capacity)
+        print(battery_system)
+
    @action(
        auto_prefix=True,
        description="批量准备物料 - 虚拟起始节点, 生成A1-A5物料, 输出5个handle供后续节点使用",
--- a/unilabos/devices/workstation/workstation_base.py
+++ b/unilabos/devices/workstation/workstation_base.py
@@ -197,28 +197,6 @@ class WorkstationBase(ABC):
        self._ros_node = workstation_node
        logger.info(f"工作站 {self._ros_node.device_id} 关联协议节点")

-    # ============ 物料转运回调 ============
-
-    def resource_tree_batch_transfer(
-        self,
-        transfers: list,
-        old_parents: list,
-        new_parents: list,
-    ) -> None:
-        """批量物料转运完成后的回调，供子类重写
-
-        默认实现：逐个调用 resource_tree_transfer（如存在）。
-
-        Args:
-            transfers: 转移列表，每项包含 resource, from_parent, to_parent, to_site 等
-            old_parents: 每个物料转移前的原父节点
-            new_parents: 每个物料转移后的新父节点
-        """
-        func = getattr(self, "resource_tree_transfer", None)
-        if callable(func):
-            for t, old_parent, new_parent in zip(transfers, old_parents, new_parents):
-                func(old_parent, t["resource"], new_parent)
-
    # ============ 设备操作接口 ============

    def call_device_method(self, method: str, *args, **kwargs) -> Any:
--- a/unilabos/messages/init.py
+++ b/unilabos/messages/init.py
@@ -217,24 +217,6 @@ class AGVTransferProtocol(BaseModel):
    from_repo_position: str
    to_repo_position: str

-
-class BatchTransferItem(BaseModel):
-    """批量转运中的单个物料条目"""
-    resource_uuid: str = ""
-    resource_id: str = ""
-    from_position: str
-    to_position: str
-
-
-class BatchTransferProtocol(BaseModel):
-    """批量物料转运协议 — 支持多物料一次性从来源工站转运到目标工站"""
-    from_repo: dict
-    to_repo: dict
-    transfer_resources: list  # list[Resource dict]，被转运的物料
-    from_positions: list      # list[str]，来源 slot 位置（与 transfer_resources 平行）
-    to_positions: list        # list[str]，目标 slot 位置（与 transfer_resources 平行）
-
-
 #=============新添加的新的协议================
 class AddProtocol(BaseModel):
    vessel: dict
@@ -647,16 +629,15 @@ class HydrogenateProtocol(BaseModel):
    vessel: dict = Field(..., description="反应容器")

 __all__ = [
-    "Point3D", "PumpTransferProtocol", "CleanProtocol", "SeparateProtocol",
-    "EvaporateProtocol", "EvacuateAndRefillProtocol", "AGVTransferProtocol",
-    "BatchTransferItem", "BatchTransferProtocol",
-    "CentrifugeProtocol", "AddProtocol", "FilterProtocol",
+    "Point3D", "PumpTransferProtocol", "CleanProtocol", "SeparateProtocol", 
+    "EvaporateProtocol", "EvacuateAndRefillProtocol", "AGVTransferProtocol", 
+    "CentrifugeProtocol", "AddProtocol", "FilterProtocol", 
    "HeatChillProtocol",
    "HeatChillStartProtocol", "HeatChillStopProtocol",
-    "StirProtocol", "StartStirProtocol", "StopStirProtocol",
-    "TransferProtocol", "CleanVesselProtocol", "DissolveProtocol",
+    "StirProtocol", "StartStirProtocol", "StopStirProtocol", 
+    "TransferProtocol", "CleanVesselProtocol", "DissolveProtocol", 
    "FilterThroughProtocol", "RunColumnProtocol", "WashSolidProtocol",
-    "AdjustPHProtocol", "ResetHandlingProtocol", "DryProtocol",
+    "AdjustPHProtocol", "ResetHandlingProtocol", "DryProtocol", 
    "RecrystallizeProtocol", "HydrogenateProtocol"
 ]
 # End Protocols
--- a/unilabos/registry/ast_registry_scanner.py
+++ b/unilabos/registry/ast_registry_scanner.py
@@ -825,6 +825,7 @@ def _extract_class_body(
            action_args.setdefault("placeholder_keys", {})
            action_args.setdefault("always_free", False)
            action_args.setdefault("is_protocol", False)
+            action_args.setdefault("feedback_interval", 1.0)
            action_args.setdefault("description", "")
            action_args.setdefault("auto_prefix", False)
            action_args.setdefault("parent", False)
--- a/unilabos/registry/decorators.py
+++ b/unilabos/registry/decorators.py
@@ -343,6 +343,7 @@ def action(
    auto_prefix: bool = False,
    parent: bool = False,
    node_type: Optional["NodeType"] = None,
+    feedback_interval: Optional[float] = None,
 ):
    """
    动作方法装饰器
@@ -378,9 +379,16 @@ def action(
    """

    def decorator(func: F) -> F:
-        @wraps(func)
-        def wrapper(*args, **kwargs):
-            return func(*args, **kwargs)
+        import asyncio as _asyncio
+
+        if _asyncio.iscoroutinefunction(func):
+            @wraps(func)
+            async def wrapper(*args, **kwargs):
+                return await func(*args, **kwargs)
+        else:
+            @wraps(func)
+            def wrapper(*args, **kwargs):
+                return func(*args, **kwargs)

        # action_type 为哨兵值 => 用户没传, 视为 None (UniLabJsonCommand)
        resolved_type = None if action_type is _ACTION_TYPE_UNSET else action_type
@@ -399,6 +407,8 @@ def action(
            "auto_prefix": auto_prefix,
            "parent": parent,
        }
+        if feedback_interval is not None:
+            meta["feedback_interval"] = feedback_interval
        if node_type is not None:
            meta["node_type"] = node_type.value if isinstance(node_type, NodeType) else str(node_type)
        wrapper._action_registry_meta = meta  # type: ignore[attr-defined]
--- a/unilabos/registry/devices/hotel.yaml
+++ b/unilabos/registry/devices/hotel.yaml
@@ -31,6 +31,6 @@ hotel.thermo_orbitor_rs2_hotel:
      type: object
  model:
    mesh: thermo_orbitor_rs2_hotel
-    path: https://uni-lab.oss-cn-zhangjiakou.aliyuncs.com/uni-lab/devices/thermo_orbitor_rs2_hotel/macro_device.xacro
+    path: https://leap-lab.oss-cn-zhangjiakou.aliyuncs.com/uni-lab/devices/thermo_orbitor_rs2_hotel/macro_device.xacro
    type: device
  version: 1.0.0
--- a/unilabos/registry/devices/robot_arm.yaml
+++ b/unilabos/registry/devices/robot_arm.yaml
@@ -329,7 +329,7 @@ robotic_arm.SCARA_with_slider.moveit.virtual:
      type: object
  model:
    mesh: arm_slider
-    path: https://uni-lab.oss-cn-zhangjiakou.aliyuncs.com/uni-lab/devices/arm_slider/macro_device.xacro
+    path: https://leap-lab.oss-cn-zhangjiakou.aliyuncs.com/uni-lab/devices/arm_slider/macro_device.xacro
    type: device
  version: 1.0.0
 robotic_arm.UR:
--- a/unilabos/registry/devices/transport_agv.yaml
+++ b/unilabos/registry/devices/transport_agv.yaml
@@ -1,368 +0,0 @@
-agv_transport_station:
-  category:
-  - work_station
-  - transport_agv
-  class:
-    action_value_mappings:
-      AGVTransferProtocol:
-        feedback: {}
-        goal:
-          from_repo: from_repo
-          from_repo_position: from_repo_position
-          to_repo: to_repo
-          to_repo_position: to_repo_position
-        goal_default:
-          from_repo:
-            category: ''
-            children: []
-            config: ''
-            data: ''
-            id: ''
-            name: ''
-            parent: ''
-            pose:
-              orientation:
-                w: 1.0
-                x: 0.0
-                y: 0.0
-                z: 0.0
-              position:
-                x: 0.0
-                y: 0.0
-                z: 0.0
-            sample_id: ''
-            type: ''
-          from_repo_position: ''
-          to_repo:
-            category: ''
-            children: []
-            config: ''
-            data: ''
-            id: ''
-            name: ''
-            parent: ''
-            pose:
-              orientation:
-                w: 1.0
-                x: 0.0
-                y: 0.0
-                z: 0.0
-              position:
-                x: 0.0
-                y: 0.0
-                z: 0.0
-            sample_id: ''
-            type: ''
-          to_repo_position: ''
-        handles: {}
-        result: {}
-        schema:
-          description: ''
-          properties:
-            feedback:
-              properties:
-                status:
-                  type: string
-              required:
-              - status
-              title: AGVTransfer_Feedback
-              type: object
-            goal:
-              properties:
-                from_repo:
-                  properties:
-                    category:
-                      type: string
-                    children:
-                      items:
-                        type: string
-                      type: array
-                    config:
-                      type: string
-                    data:
-                      type: string
-                    id:
-                      type: string
-                    name:
-                      type: string
-                    parent:
-                      type: string
-                    pose:
-                      properties:
-                        orientation:
-                          properties:
-                            w:
-                              type: number
-                            x:
-                              type: number
-                            y:
-                              type: number
-                            z:
-                              type: number
-                          required:
-                          - x
-                          - y
-                          - z
-                          - w
-                          title: orientation
-                          type: object
-                        position:
-                          properties:
-                            x:
-                              type: number
-                            y:
-                              type: number
-                            z:
-                              type: number
-                          required:
-                          - x
-                          - y
-                          - z
-                          title: position
-                          type: object
-                      required:
-                      - position
-                      - orientation
-                      title: pose
-                      type: object
-                    sample_id:
-                      type: string
-                    type:
-                      type: string
-                  required:
-                  - id
-                  - name
-                  - sample_id
-                  - children
-                  - parent
-                  - type
-                  - category
-                  - pose
-                  - config
-                  - data
-                  title: from_repo
-                  type: object
-                from_repo_position:
-                  type: string
-                to_repo:
-                  properties:
-                    category:
-                      type: string
-                    children:
-                      items:
-                        type: string
-                      type: array
-                    config:
-                      type: string
-                    data:
-                      type: string
-                    id:
-                      type: string
-                    name:
-                      type: string
-                    parent:
-                      type: string
-                    pose:
-                      properties:
-                        orientation:
-                          properties:
-                            w:
-                              type: number
-                            x:
-                              type: number
-                            y:
-                              type: number
-                            z:
-                              type: number
-                          required:
-                          - x
-                          - y
-                          - z
-                          - w
-                          title: orientation
-                          type: object
-                        position:
-                          properties:
-                            x:
-                              type: number
-                            y:
-                              type: number
-                            z:
-                              type: number
-                          required:
-                          - x
-                          - y
-                          - z
-                          title: position
-                          type: object
-                      required:
-                      - position
-                      - orientation
-                      title: pose
-                      type: object
-                    sample_id:
-                      type: string
-                    type:
-                      type: string
-                  required:
-                  - id
-                  - name
-                  - sample_id
-                  - children
-                  - parent
-                  - type
-                  - category
-                  - pose
-                  - config
-                  - data
-                  title: to_repo
-                  type: object
-                to_repo_position:
-                  type: string
-              required:
-              - from_repo
-              - from_repo_position
-              - to_repo
-              - to_repo_position
-              title: AGVTransfer_Goal
-              type: object
-            result:
-              properties:
-                return_info:
-                  type: string
-                success:
-                  type: boolean
-              required:
-              - return_info
-              - success
-              title: AGVTransfer_Result
-              type: object
-          required:
-          - goal
-          title: AGVTransfer
-          type: object
-        type: AGVTransfer
-      BatchTransferProtocol:
-        feedback: {}
-        goal:
-          from_positions: from_positions
-          from_repo: from_repo
-          to_positions: to_positions
-          to_repo: to_repo
-          transfer_resources: transfer_resources
-        goal_default:
-          from_positions: []
-          from_repo:
-            category: ''
-            children: []
-            config: ''
-            data: ''
-            id: ''
-            name: ''
-            parent: ''
-            pose:
-              orientation:
-                w: 1.0
-                x: 0.0
-                y: 0.0
-                z: 0.0
-              position:
-                x: 0.0
-                y: 0.0
-                z: 0.0
-            sample_id: ''
-            type: ''
-          to_positions: []
-          to_repo:
-            category: ''
-            children: []
-            config: ''
-            data: ''
-            id: ''
-            name: ''
-            parent: ''
-            pose:
-              orientation:
-                w: 1.0
-                x: 0.0
-                y: 0.0
-                z: 0.0
-              position:
-                x: 0.0
-                y: 0.0
-                z: 0.0
-            sample_id: ''
-            type: ''
-          transfer_resources: []
-        handles: {}
-        result: {}
-        schema:
-          description: AGV 批量物料转运协议
-          properties:
-            feedback: {}
-            goal:
-              properties:
-                from_positions:
-                  items:
-                    type: string
-                  type: array
-                from_repo:
-                  type: object
-                to_positions:
-                  items:
-                    type: string
-                  type: array
-                to_repo:
-                  type: object
-                transfer_resources:
-                  items:
-                    type: object
-                  type: array
-              required:
-              - from_repo
-              - to_repo
-              - transfer_resources
-              - from_positions
-              - to_positions
-              type: object
-            result: {}
-          required:
-          - goal
-          title: BatchTransferProtocol
-          type: object
-        type: BatchTransfer
-    module: unilabos.devices.transport.agv_workstation:AGVTransportStation
-    status_types:
-      agv_status: String
-      carrier_status: String
-    type: python
-  config_info: []
-  description: 通用 AGV 转运工站。继承 WorkstationBase，通过 Warehouse 子资源管理物料中转态。支持单物料和批量物料转运协议，路由表和子设备配置全部由
-    JSON 驱动。
-  handles: []
-  icon: ''
-  init_param_schema:
-    config:
-      properties:
-        device_roles:
-          properties:
-            arm:
-              type: string
-            navigator:
-              type: string
-          type: object
-        protocol_type:
-          items:
-            type: string
-          type: array
-        route_table:
-          type: object
-      type: object
-    data:
-      properties:
-        agv_status:
-          type: string
-        carrier_status:
-          type: string
-      type: object
-  version: 1.0.0
--- a/unilabos/registry/devices/virtual_device.yaml
+++ b/unilabos/registry/devices/virtual_device.yaml
@@ -3960,6 +3960,14 @@ virtual_separator:
    io_type: source
    label: bottom_phase_out
    side: SOUTH
+  - data_key: top_outlet
+    data_source: executor
+    data_type: fluid
+    description: 上相（轻相）液体输出口
+    handler_key: topphaseout
+    io_type: source
+    label: top_phase_out
+    side: NORTH
  - data_key: mechanical_port
    data_source: handle
    data_type: mechanical
--- a/unilabos/registry/registry.py
+++ b/unilabos/registry/registry.py
@@ -238,6 +238,7 @@ class Registry:
                            "class_name": "unilabos_class",
                        },
                        "always_free": True,
+                        "feedback_interval": 300.0,
                    },
                    "test_latency": test_latency_action,
                    "auto-test_resource": test_resource_action,
@@ -829,8 +830,9 @@ class Registry:
            raw_handles = (action_args or {}).get("handles")
            handles = normalize_ast_action_handles(raw_handles) if isinstance(raw_handles, list) else (raw_handles or {})

-            # placeholder_keys: 优先用装饰器显式配置，否则从参数类型检测
-            pk = (action_args or {}).get("placeholder_keys") or detect_placeholder_keys(params)
+            # placeholder_keys: 先从参数类型自动检测，再用装饰器显式配置覆盖/补充
+            pk = detect_placeholder_keys(params)
+            pk.update((action_args or {}).get("placeholder_keys") or {})

            # 从方法返回值类型生成 result schema
            result_schema = None
@@ -852,6 +854,8 @@ class Registry:
            }
            if (action_args or {}).get("always_free") or method_info.get("always_free"):
                entry["always_free"] = True
+            _fb_iv = (action_args or {}).get("feedback_interval", method_info.get("feedback_interval", 1.0))
+            entry["feedback_interval"] = _fb_iv
            nt = normalize_enum_value((action_args or {}).get("node_type"), NodeType)
            if nt:
                entry["node_type"] = nt
@@ -975,10 +979,12 @@ class Registry:
                "schema": schema,
                "goal_default": goal_default,
                "handles": handles,
-                "placeholder_keys": action_args.get("placeholder_keys") or detect_placeholder_keys(method_params),
+                "placeholder_keys": {**detect_placeholder_keys(method_params), **(action_args.get("placeholder_keys") or {})},
            }
            if action_args.get("always_free") or method_info.get("always_free"):
                action_entry["always_free"] = True
+            _fb_iv = action_args.get("feedback_interval", method_info.get("feedback_interval", 1.0))
+            action_entry["feedback_interval"] = _fb_iv
            nt = normalize_enum_value(action_args.get("node_type"), NodeType)
            if nt:
                action_entry["node_type"] = nt
--- a/unilabos/registry/resources/common/resource_container.yaml
+++ b/unilabos/registry/resources/common/resource_container.yaml
@@ -17,7 +17,7 @@ hplc_plate:
    - 0
    - 0
    - 3.1416
-    path: https://uni-lab.oss-cn-zhangjiakou.aliyuncs.com/uni-lab/resources/hplc_plate/modal.xacro
+    path: https://leap-lab.oss-cn-zhangjiakou.aliyuncs.com/uni-lab/resources/hplc_plate/modal.xacro
    type: resource
  version: 1.0.0
 plate_96:
@@ -39,7 +39,7 @@ plate_96:
    - 0
    - 0
    - 0
-    path: https://uni-lab.oss-cn-zhangjiakou.aliyuncs.com/uni-lab/resources/plate_96/modal.xacro
+    path: https://leap-lab.oss-cn-zhangjiakou.aliyuncs.com/uni-lab/resources/plate_96/modal.xacro
    type: resource
  version: 1.0.0
 plate_96_high:
@@ -61,7 +61,7 @@ plate_96_high:
    - 1.5708
    - 0
    - 1.5708
-    path: https://uni-lab.oss-cn-zhangjiakou.aliyuncs.com/uni-lab/resources/plate_96_high/modal.xacro
+    path: https://leap-lab.oss-cn-zhangjiakou.aliyuncs.com/uni-lab/resources/plate_96_high/modal.xacro
    type: resource
  version: 1.0.0
 tiprack_96_high:
@@ -76,7 +76,7 @@ tiprack_96_high:
  init_param_schema: {}
  model:
    children_mesh: generic_labware_tube_10_75/meshes/0_base.stl
-    children_mesh_path: https://uni-lab.oss-cn-zhangjiakou.aliyuncs.com/uni-lab/resources/generic_labware_tube_10_75/modal.xacro
+    children_mesh_path: https://leap-lab.oss-cn-zhangjiakou.aliyuncs.com/uni-lab/resources/generic_labware_tube_10_75/modal.xacro
    children_mesh_tf:
    - 0.0018
    - 0.0018
@@ -92,7 +92,7 @@ tiprack_96_high:
    - 1.5708
    - 0
    - 1.5708
-    path: https://uni-lab.oss-cn-zhangjiakou.aliyuncs.com/uni-lab/resources/tiprack_96_high/modal.xacro
+    path: https://leap-lab.oss-cn-zhangjiakou.aliyuncs.com/uni-lab/resources/tiprack_96_high/modal.xacro
    type: resource
  version: 1.0.0
 tiprack_box:
@@ -107,7 +107,7 @@ tiprack_box:
  init_param_schema: {}
  model:
    children_mesh: tip/meshes/tip.stl
-    children_mesh_path: https://uni-lab.oss-cn-zhangjiakou.aliyuncs.com/uni-lab/resources/tip/modal.xacro
+    children_mesh_path: https://leap-lab.oss-cn-zhangjiakou.aliyuncs.com/uni-lab/resources/tip/modal.xacro
    children_mesh_tf:
    - 0.0045
    - 0.0045
@@ -123,6 +123,6 @@ tiprack_box:
    - 0
    - 0
    - 0
-    path: https://uni-lab.oss-cn-zhangjiakou.aliyuncs.com/uni-lab/resources/tiprack_box/modal.xacro
+    path: https://leap-lab.oss-cn-zhangjiakou.aliyuncs.com/uni-lab/resources/tiprack_box/modal.xacro
    type: resource
  version: 1.0.0
--- a/unilabos/registry/resources/laiyu/container.yaml
+++ b/unilabos/registry/resources/laiyu/container.yaml
@@ -11,7 +11,7 @@ bottle_container:
  init_param_schema: {}
  model:
    children_mesh: bottle/meshes/bottle.stl
-    children_mesh_path: https://uni-lab.oss-cn-zhangjiakou.aliyuncs.com/uni-lab/resources/bottle/modal.xacro
+    children_mesh_path: https://leap-lab.oss-cn-zhangjiakou.aliyuncs.com/uni-lab/resources/bottle/modal.xacro
    children_mesh_tf:
    - 0.04
    - 0.04
@@ -27,7 +27,7 @@ bottle_container:
    - 0
    - 0
    - 0
-    path: https://uni-lab.oss-cn-zhangjiakou.aliyuncs.com/uni-lab/resources/bottle_container/modal.xacro
+    path: https://leap-lab.oss-cn-zhangjiakou.aliyuncs.com/uni-lab/resources/bottle_container/modal.xacro
    type: resource
  version: 1.0.0
 tube_container:
@@ -43,7 +43,7 @@ tube_container:
  init_param_schema: {}
  model:
    children_mesh: tube/meshes/tube.stl
-    children_mesh_path: https://uni-lab.oss-cn-zhangjiakou.aliyuncs.com/uni-lab/resources/tube/modal.xacro
+    children_mesh_path: https://leap-lab.oss-cn-zhangjiakou.aliyuncs.com/uni-lab/resources/tube/modal.xacro
    children_mesh_tf:
    - 0.017
    - 0.017
@@ -59,6 +59,6 @@ tube_container:
    - 0
    - 0
    - 0
-    path: https://uni-lab.oss-cn-zhangjiakou.aliyuncs.com/uni-lab/resources/tube_container/modal.xacro
+    path: https://leap-lab.oss-cn-zhangjiakou.aliyuncs.com/uni-lab/resources/tube_container/modal.xacro
    type: resource
  version: 1.0.0
--- a/unilabos/registry/resources/laiyu/deck.yaml
+++ b/unilabos/registry/resources/laiyu/deck.yaml
@@ -10,6 +10,6 @@ TransformXYZDeck:
  init_param_schema: {}
  model:
    mesh: liquid_transform_xyz
-    path: https://uni-lab.oss-cn-zhangjiakou.aliyuncs.com/uni-lab/devices/liquid_transform_xyz/macro_device.xacro
+    path: https://leap-lab.oss-cn-zhangjiakou.aliyuncs.com/uni-lab/devices/liquid_transform_xyz/macro_device.xacro
    type: device
  version: 1.0.0
--- a/unilabos/registry/resources/opentrons/deck.yaml
+++ b/unilabos/registry/resources/opentrons/deck.yaml
@@ -10,7 +10,7 @@ OTDeck:
  init_param_schema: {}
  model:
    mesh: opentrons_liquid_handler
-    path: https://uni-lab.oss-cn-zhangjiakou.aliyuncs.com/uni-lab/devices/opentrons_liquid_handler/macro_device.xacro
+    path: https://leap-lab.oss-cn-zhangjiakou.aliyuncs.com/uni-lab/devices/opentrons_liquid_handler/macro_device.xacro
    type: device
  version: 1.0.0
 hplc_station:
@@ -25,6 +25,6 @@ hplc_station:
  init_param_schema: {}
  model:
    mesh: hplc_station
-    path: https://uni-lab.oss-cn-zhangjiakou.aliyuncs.com/uni-lab/devices/hplc_station/macro_device.xacro
+    path: https://leap-lab.oss-cn-zhangjiakou.aliyuncs.com/uni-lab/devices/hplc_station/macro_device.xacro
    type: device
  version: 1.0.0
--- a/unilabos/registry/resources/opentrons/plates.yaml
+++ b/unilabos/registry/resources/opentrons/plates.yaml
@@ -109,7 +109,7 @@ nest_96_wellplate_100ul_pcr_full_skirt:
  init_param_schema: {}
  model:
    children_mesh: generic_labware_tube_10_75/meshes/0_base.stl
-    children_mesh_path: https://uni-lab.oss-cn-zhangjiakou.aliyuncs.com/uni-lab/resources/generic_labware_tube_10_75/modal.xacro
+    children_mesh_path: https://leap-lab.oss-cn-zhangjiakou.aliyuncs.com/uni-lab/resources/generic_labware_tube_10_75/modal.xacro
    children_mesh_tf:
    - 0.0018
    - 0.0018
@@ -125,7 +125,7 @@ nest_96_wellplate_100ul_pcr_full_skirt:
    - -1.5708
    - 0
    - 1.5708
-    path: https://uni-lab.oss-cn-zhangjiakou.aliyuncs.com/uni-lab/resources/tecan_nested_tip_rack/modal.xacro
+    path: https://leap-lab.oss-cn-zhangjiakou.aliyuncs.com/uni-lab/resources/tecan_nested_tip_rack/modal.xacro
    type: resource
  version: 1.0.0
 nest_96_wellplate_200ul_flat:
@@ -158,7 +158,7 @@ nest_96_wellplate_2ml_deep:
    - -1.5708
    - 0
    - 1.5708
-    path: https://uni-lab.oss-cn-zhangjiakou.aliyuncs.com/uni-lab/resources/tecan_nested_tip_rack/modal.xacro
+    path: https://leap-lab.oss-cn-zhangjiakou.aliyuncs.com/uni-lab/resources/tecan_nested_tip_rack/modal.xacro
    type: resource
  version: 1.0.0
 thermoscientificnunc_96_wellplate_1300ul:
--- a/unilabos/registry/resources/opentrons/tip_racks.yaml
+++ b/unilabos/registry/resources/opentrons/tip_racks.yaml
@@ -69,7 +69,7 @@ opentrons_96_filtertiprack_1000ul:
    - -1.5708
    - 0
    - 1.5708
-    path: https://uni-lab.oss-cn-zhangjiakou.aliyuncs.com/uni-lab/resources/tecan_nested_tip_rack/modal.xacro
+    path: https://leap-lab.oss-cn-zhangjiakou.aliyuncs.com/uni-lab/resources/tecan_nested_tip_rack/modal.xacro
    type: resource
  version: 1.0.0
 opentrons_96_filtertiprack_10ul:
--- a/unilabos/resources/graphio.py
+++ b/unilabos/resources/graphio.py
@@ -42,7 +42,7 @@ def canonicalize_nodes_data(
    Returns:
        ResourceTreeSet: 标准化后的资源树集合
    """
-    print_status(f"{len(nodes)} Resources loaded", "info")
+    print_status(f"{len(nodes)} Resources loaded:", "info")

    # 第一步：基本预处理（处理graphml的label字段）
    outer_host_node_id = None
@@ -1033,7 +1033,7 @@ def resource_plr_to_bioyond(plr_resources: list[ResourcePLR], type_mapping: dict
                    logger.debug(f"🔍 [PLR→Bioyond] detail转换: {bottle.name} → PLR(x={site['x']},y={site['y']},id={site.get('identifier','?')}) → Bioyond(x={bioyond_x},y={bioyond_y})")

                    # 🔥 提取物料名称：从 tracker.liquids 中获取第一个液体的名称（去除PLR系统添加的后缀）
-                    # tracker.liquids 格式: [(物料名称, 数量), ...]
+                    # tracker.liquids 格式: [(物料名称, 数量, 单位), ...]
                    material_name = bottle_type_info[0]  # 默认使用类型名称（如"样品瓶"）
                    if hasattr(bottle, "tracker") and bottle.tracker.liquids:
                        # 如果有液体，使用液体的名称
@@ -1051,7 +1051,7 @@ def resource_plr_to_bioyond(plr_resources: list[ResourcePLR], type_mapping: dict
                        "typeId": bottle_type_info[1],
                        "code": bottle.code if hasattr(bottle, "code") else "",
                        "name": material_name,  # 使用物料名称（如"9090"），而不是类型名称（"样品瓶"）
-                        "quantity": sum(qty for _, qty in bottle.tracker.liquids) if hasattr(bottle, "tracker") else 0,
+                        "quantity": sum(qty for _, qty, *_ in bottle.tracker.liquids) if hasattr(bottle, "tracker") else 0,
                        "x": bioyond_x,
                        "y": bioyond_y,
                        "z": 1,
@@ -1124,7 +1124,7 @@ def resource_plr_to_bioyond(plr_resources: list[ResourcePLR], type_mapping: dict
                "barCode": "",
                "name": material_name,  # 使用物料名称而不是资源名称
                "unit": default_unit,  # 使用配置的单位或默认单位
-                "quantity": sum(qty for _, qty in bottle.tracker.liquids) if hasattr(bottle, "tracker") else 0,
+                "quantity": sum(qty for _, qty, *_ in bottle.tracker.liquids) if hasattr(bottle, "tracker") else 0,
                "Parameters": parameters_json  # API 实际要求的字段（必需）
            }

--- a/unilabos/ros/main_slave_run.py
+++ b/unilabos/ros/main_slave_run.py
@@ -1,4 +1,5 @@
 import json
+import os

 # from nt import device_encoding
 import threading
@@ -61,7 +62,7 @@ def main(
        rclpy.init(args=rclpy_init_args)
    else:
        logger.info("[ROS] rclpy already initialized, reusing context")
-    executor = rclpy.__executor = MultiThreadedExecutor()
+    executor = rclpy.__executor = MultiThreadedExecutor(num_threads=max(os.cpu_count() * 4, 48))
    # 创建主机节点
    host_node = HostNode(
        "host_node",
@@ -122,7 +123,7 @@ def slave(
        rclpy.init(args=rclpy_init_args)
    executor = rclpy.__executor
    if not executor:
-        executor = rclpy.__executor = MultiThreadedExecutor()
+        executor = rclpy.__executor = MultiThreadedExecutor(num_threads=max(os.cpu_count() * 4, 48))

    # 1.5 启动 executor 线程
    thread = threading.Thread(target=executor.spin, daemon=True, name="slave_executor_thread")
--- a/unilabos/ros/msgs/message_converter.py
+++ b/unilabos/ros/msgs/message_converter.py
@@ -142,16 +142,12 @@ _msg_converter: Dict[Type, Any] = {
    ),
    Resource: lambda x: Resource(
        id=x.get("id", ""),
-        uuid=x.get("uuid", ""),
        name=x.get("name", ""),
        sample_id=x.get("sample_id", "") or "",
-        description=x.get("description", ""),
        children=list(x.get("children", [])),
        parent=x.get("parent", "") or "",
-        parent_uuid=x.get("parent_uuid", ""),
        type=x.get("type", ""),
-        category=x.get("category", "") or x.get("class", "") or x.get("type", ""),
-        klass=x.get("class", "") or x.get("klass", ""),
+        category=x.get("class", "") or x.get("type", ""),
        pose=(
            Pose(
                position=Point(
@@ -164,11 +160,15 @@ _msg_converter: Dict[Type, Any] = {
            else Pose()
        ),
        config=json.dumps(x.get("config", {})),
-        data=json.dumps(x.get("data", {})),
-        extra=json.dumps(x.get("extra", {})),
+        data=json.dumps(obtain_data_with_uuid(x)),
    ),
 }

+def obtain_data_with_uuid(x: dict):
+    data = x.get("data", {})
+    data["unilabos_uuid"] = x.get("uuid", None)
+    return data
+
 def json_or_yaml_loads(data: str) -> Any:
    try:
        return json.loads(data)
@@ -195,20 +195,15 @@ _msg_converter_back: Dict[Type, Any] = {
    Point: lambda x: Point3D(x=x.x, y=x.y, z=x.z),
    Resource: lambda x: {
        "id": x.id,
-        "uuid": x.uuid if x.uuid else None,
        "name": x.name,
        "sample_id": x.sample_id if x.sample_id else None,
-        "description": x.description if x.description else "",
        "children": list(x.children),
        "parent": x.parent if x.parent else None,
-        "parent_uuid": x.parent_uuid if x.parent_uuid else None,
        "type": x.type,
-        "class": x.klass if x.klass else "",
-        "category": x.category if x.category else "",
+        "class": "",
        "position": {"x": x.pose.position.x, "y": x.pose.position.y, "z": x.pose.position.z},
        "config": json_or_yaml_loads(x.config or "{}"),
        "data": json_or_yaml_loads(x.data or "{}"),
-        "extra": json_or_yaml_loads(x.extra or "{}"),
    },
 }

--- a/unilabos/ros/nodes/base_device_node.py
+++ b/unilabos/ros/nodes/base_device_node.py
@@ -4,6 +4,8 @@ import json
 import threading
 import time
 import traceback
+
+from unilabos.utils.tools import fast_dumps_str as _fast_dumps_str, fast_loads as _fast_loads
 from typing import (
    get_type_hints,
    TypeVar,
@@ -78,6 +80,67 @@ if TYPE_CHECKING:
 T = TypeVar("T")


+class RclpyAsyncMutex:
+    """rclpy executor 兼容的异步互斥锁
+
+    通过 executor.create_task 唤醒等待者，避免 timer 的 InvalidHandle 问题。
+    """
+
+    def __init__(self, name: str = ""):
+        self._lock = threading.Lock()
+        self._acquired = False
+        self._queue: List[Future] = []
+        self._name = name
+        self._holder: Optional[str] = None
+
+    async def acquire(self, node: "BaseROS2DeviceNode", tag: str = ""):
+        """获取锁。如果已被占用，则异步等待直到锁释放。"""
+        # t0 = time.time()
+        with self._lock:
+            # qlen = len(self._queue)
+            if not self._acquired:
+                self._acquired = True
+                self._holder = tag
+                # node.lab_logger().debug(
+                #     f"[Mutex:{self._name}] 获取锁 tag={tag} (无等待, queue=0)"
+                # )
+                return
+            waiter = Future()
+            self._queue.append(waiter)
+            # node.lab_logger().info(
+            #     f"[Mutex:{self._name}] 等待锁 tag={tag} "
+            #     f"(holder={self._holder}, queue={qlen + 1})"
+            # )
+        await waiter
+        # wait_ms = (time.time() - t0) * 1000
+        self._holder = tag
+        # node.lab_logger().info(
+        #     f"[Mutex:{self._name}] 获取锁 tag={tag} (等了 {wait_ms:.0f}ms)"
+        # )
+
+    def release(self, node: "BaseROS2DeviceNode"):
+        """释放锁，通过 executor task 唤醒下一个等待者。"""
+        with self._lock:
+            # old_holder = self._holder
+            if self._queue:
+                next_waiter = self._queue.pop(0)
+                # node.lab_logger().debug(
+                #     f"[Mutex:{self._name}] 释放锁 holder={old_holder} → 唤醒下一个 (剩余 queue={len(self._queue)})"
+                # )
+
+                async def _wake():
+                    if not next_waiter.done():
+                        next_waiter.set_result(None)
+
+                rclpy.get_global_executor().create_task(_wake())
+            else:
+                self._acquired = False
+                self._holder = None
+                # node.lab_logger().debug(
+                #     f"[Mutex:{self._name}] 释放锁 holder={old_holder} → 空闲"
+                # )
+
+
 # 在线设备注册表
 registered_devices: Dict[str, "DeviceInfoType"] = {}

@@ -355,6 +418,8 @@ class BaseROS2DeviceNode(Node, Generic[T]):
            max_workers=max(len(action_value_mappings), 1), thread_name_prefix=f"ROSDevice{self.device_id}"
        )

+        self._append_resource_lock = RclpyAsyncMutex(name=f"AR:{device_id}")
+
        # 创建资源管理客户端
        self._resource_clients: Dict[str, Client] = {
            "resource_add": self.create_client(ResourceAdd, "/resources/add", callback_group=self.callback_group),
@@ -378,15 +443,40 @@ class BaseROS2DeviceNode(Node, Generic[T]):
            return res

        async def append_resource(req: SerialCommand_Request, res: SerialCommand_Response):
+            _cmd = _fast_loads(req.command)
+            _res_name = _cmd.get("resource", [{}])
+            _res_name = (_res_name[0].get("id", "?") if isinstance(_res_name, list) and _res_name
+                         else _res_name.get("id", "?") if isinstance(_res_name, dict) else "?")
+            _ar_tag = f"{_res_name}"
+            # _t_enter = time.time()
+            # self.lab_logger().info(f"[AR:{_ar_tag}] 进入 append_resource")
+            await self._append_resource_lock.acquire(self, tag=_ar_tag)
+            # _t_locked = time.time()
+            try:
+                return await _append_resource_inner(req, res, _ar_tag)
+                # _t_done = time.time()
+                # self.lab_logger().info(
+                #     f"[AR:{_ar_tag}] 完成 "
+                #     f"等锁={(_t_locked - _t_enter) * 1000:.0f}ms "
+                #     f"执行={(_t_done - _t_locked) * 1000:.0f}ms "
+                #     f"总计={(_t_done - _t_enter) * 1000:.0f}ms"
+                # )
+            except Exception as _ex:
+                self.lab_logger().error(f"[AR:{_ar_tag}] 异常: {_ex}")
+                raise
+            finally:
+                self._append_resource_lock.release(self)
+
+        async def _append_resource_inner(req: SerialCommand_Request, res: SerialCommand_Response, _ar_tag: str = ""):
            from pylabrobot.resources.deck import Deck
            from pylabrobot.resources import Coordinate
            from pylabrobot.resources import Plate

-            # 物料传输到对应的node节点
+            # _t0 = time.time()
            client = self._resource_clients["c2s_update_resource_tree"]
            request = SerialCommand.Request()
            request2 = SerialCommand.Request()
-            command_json = json.loads(req.command)
+            command_json = _fast_loads(req.command)
            namespace = command_json["namespace"]
            bind_parent_id = command_json["bind_parent_id"]
            edge_device_id = command_json["edge_device_id"]
@@ -439,7 +529,11 @@ class BaseROS2DeviceNode(Node, Generic[T]):
                            f"更新物料{container_instance.name}出现不支持的数据类型{type(found_resource)} {found_resource}"
                        )
            # noinspection PyUnresolvedReferences
-            request.command = json.dumps(
+            # _t1 = time.time()
+            # self.lab_logger().debug(
+            #     f"[AR:{_ar_tag}] 准备完成 PLR转换+序列化 {((_t1 - _t0) * 1000):.0f}ms, 发送首次上传..."
+            # )
+            request.command = _fast_dumps_str(
                {
                    "action": "add",
                    "data": {
@@ -450,7 +544,11 @@ class BaseROS2DeviceNode(Node, Generic[T]):
                }
            )
            tree_response: SerialCommand.Response = await client.call_async(request)
-            uuid_maps = json.loads(tree_response.response)
+            # _t2 = time.time()
+            # self.lab_logger().debug(
+            #     f"[AR:{_ar_tag}] 首次上传完成 {((_t2 - _t1) * 1000):.0f}ms"
+            # )
+            uuid_maps = _fast_loads(tree_response.response)
            plr_instances = rts.to_plr_resources()
            for plr_instance in plr_instances:
                self.resource_tracker.loop_update_uuid(plr_instance, uuid_maps)
@@ -486,18 +584,12 @@ class BaseROS2DeviceNode(Node, Generic[T]):
                if len(rts.root_nodes) == 1 and parent_resource is not None:
                    plr_instance = plr_instances[0]
                    if isinstance(plr_instance, Plate):
-                        empty_liquid_info_in: List[Tuple[Optional[str], float]] = [(None, 0)] * plr_instance.num_items
                        if len(ADD_LIQUID_TYPE) == 1 and len(LIQUID_VOLUME) == 1 and len(LIQUID_INPUT_SLOT) > 1:
                            ADD_LIQUID_TYPE = ADD_LIQUID_TYPE * len(LIQUID_INPUT_SLOT)
                            LIQUID_VOLUME = LIQUID_VOLUME * len(LIQUID_INPUT_SLOT)
                            self.lab_logger().warning(
                                f"增加液体资源时，数量为1，自动补全为 {len(LIQUID_INPUT_SLOT)} 个"
                            )
-                        for liquid_type, liquid_volume, liquid_input_slot in zip(
-                            ADD_LIQUID_TYPE, LIQUID_VOLUME, LIQUID_INPUT_SLOT
-                        ):
-                            empty_liquid_info_in[liquid_input_slot] = (liquid_type, liquid_volume)
-                        plr_instance.set_well_liquids(empty_liquid_info_in)
                        try:
                            # noinspection PyProtectedMember
                            keys = list(plr_instance._ordering.keys())
@@ -511,6 +603,10 @@ class BaseROS2DeviceNode(Node, Generic[T]):
                            input_wells = []
                            for r in LIQUID_INPUT_SLOT:
                                input_wells.append(plr_instance.children[r])
+                        for input_well, liquid_type, liquid_volume, liquid_input_slot in zip(
+                            input_wells, ADD_LIQUID_TYPE, LIQUID_VOLUME, LIQUID_INPUT_SLOT
+                        ):
+                            input_well.set_liquids([(liquid_type, liquid_volume, "ul")])
                        final_response["liquid_input_resource_tree"] = ResourceTreeSet.from_plr_resources(
                            input_wells
                        ).dump()
@@ -529,12 +625,13 @@ class BaseROS2DeviceNode(Node, Generic[T]):
                            Coordinate(location["x"], location["y"], location["z"]),
                            **other_calling_param,
                        )
-                    # 调整了液体以及Deck之后要重新Assign
                    # noinspection PyUnresolvedReferences
+                    # _t3 = time.time()
                    rts_with_parent = ResourceTreeSet.from_plr_resources([parent_resource])
+                    # _n_parent = len(rts_with_parent.all_nodes)
                    if rts_with_parent.root_nodes[0].res_content.uuid_parent is None:
                        rts_with_parent.root_nodes[0].res_content.parent_uuid = self.uuid
-                    request.command = json.dumps(
+                    request.command = _fast_dumps_str(
                        {
                            "action": "add",
                            "data": {
@@ -544,11 +641,18 @@ class BaseROS2DeviceNode(Node, Generic[T]):
                            },
                        }
                    )
+                    # _t4 = time.time()
+                    # self.lab_logger().debug(
+                    #     f"[AR:{_ar_tag}] 二次上传序列化 {_n_parent}节点 {((_t4 - _t3) * 1000):.0f}ms, 发送中..."
+                    # )
                    tree_response: SerialCommand.Response = await client.call_async(request)
-                    uuid_maps = json.loads(tree_response.response)
+                    # _t5 = time.time()
+                    uuid_maps = _fast_loads(tree_response.response)
                    self.resource_tracker.loop_update_uuid(input_resources, uuid_maps)
-                    self._lab_logger.info(f"Resource tree added. UUID mapping: {len(uuid_maps)} nodes")
-                    # 这里created_resources不包含parent_resource
+                    # self._lab_logger.info(
+                    #     f"[AR:{_ar_tag}] 二次上传完成 HTTP={(_t5 - _t4) * 1000:.0f}ms "
+                    #     f"UUID映射={len(uuid_maps)}节点 总执行={(_t5 - _t0) * 1000:.0f}ms"
+                    # )
                # 发送给ResourceMeshManager
                action_client = ActionClient(
                    self,
@@ -685,7 +789,11 @@ class BaseROS2DeviceNode(Node, Generic[T]):
        )
        # 发送请求并等待响应
        response: SerialCommand_Response = await self._resource_clients["resource_get"].call_async(r)
+        if not response.response:
+            raise ValueError(f"查询资源 {resource_id} 失败：服务端返回空响应")
        raw_data = json.loads(response.response)
+        if not raw_data:
+            raise ValueError(f"查询资源 {resource_id} 失败：返回数据为空")

        # 转换为 PLR 资源
        tree_set = ResourceTreeSet.from_raw_dict_list(raw_data)
@@ -761,84 +869,6 @@ class BaseROS2DeviceNode(Node, Generic[T]):
                    f"物料{plr_resource}请求挂载{tree.root_node.res_content.name}的父节点{parent_resource}[{parent_uuid}]失败！\n{traceback.format_exc()}"
                )

-    def batch_transfer_resources(
-        self,
-        transfers: List[Dict[str, Any]],
-    ) -> List["ResourcePLR"]:
-        """批量转移 PLR 资源：先全部 unassign，再全部 assign，最后一次性回调和同步
-
-        Args:
-            transfers: 转移列表，每项包含:
-                - "resource": PLR 资源对象
-                - "from_parent": 原父节点 (PLR ResourceHolder/WareHouse)
-                - "to_parent": 目标父节点
-                - "to_site": 目标 slot 名称（可选，用于 ItemizedCarrier）
-
-        Returns:
-            成功转移的目标 parent 列表
-        """
-        from pylabrobot.resources.resource import Resource as ResourcePLR
-
-        if not transfers:
-            return []
-
-        # 第一遍：校验所有物料和目标 parent 的合法性
-        for t in transfers:
-            resource = t["resource"]
-            to_parent = t["to_parent"]
-            if resource is None:
-                raise ValueError("转移列表中存在 resource=None")
-            if to_parent is None:
-                raise ValueError(f"物料 {resource} 的目标 parent 为 None")
-
-        # 第二遍：批量 unassign
-        old_parents = []
-        for t in transfers:
-            resource = t["resource"]
-            old_parent = resource.parent
-            old_parents.append(old_parent)
-            if old_parent is not None:
-                self.lab_logger().debug(f"批量 unassign: {resource.name} 从 {old_parent.name}")
-                old_parent.unassign_child_resource(resource)
-            # 从顶级资源列表中移除（避免 figure_resource 重复引用）
-            resource_id = id(resource)
-            for i, r in enumerate(self.resource_tracker.resources):
-                if id(r) == resource_id:
-                    self.resource_tracker.resources.pop(i)
-                    break
-
-        # 第三遍：批量 assign
-        parents = []
-        for t, old_parent in zip(transfers, old_parents):
-            resource = t["resource"]
-            to_parent = t["to_parent"]
-            to_site = t.get("to_site")
-            additional_params = {}
-            if to_site is not None:
-                spec = inspect.signature(to_parent.assign_child_resource)
-                if "spot" in spec.parameters:
-                    ordering_dict = getattr(to_parent, "_ordering", None)
-                    if ordering_dict and to_site in ordering_dict:
-                        additional_params["spot"] = list(ordering_dict.keys()).index(to_site)
-                    else:
-                        additional_params["spot"] = to_site
-            self.lab_logger().debug(f"批量 assign: {resource.name} → {to_parent.name} site={to_site}")
-            to_parent.assign_child_resource(resource, location=None, **additional_params)
-            parents.append(to_parent)
-
-        # 一次性触发 driver 回调
-        func = getattr(self.driver_instance, "resource_tree_batch_transfer", None)
-        if callable(func):
-            func(transfers, old_parents, parents)
-        else:
-            # 兜底：逐个调用 resource_tree_transfer
-            single_func = getattr(self.driver_instance, "resource_tree_transfer", None)
-            if callable(single_func):
-                for t, old_parent, new_parent in zip(transfers, old_parents, parents):
-                    single_func(old_parent, t["resource"], new_parent)
-
-        return parents
-
    async def s2c_resource_tree(self, req: SerialCommand_Request, res: SerialCommand_Response):
        """
        处理资源树更新请求
@@ -1212,7 +1242,8 @@ class BaseROS2DeviceNode(Node, Generic[T]):
            if uid is None:
                raise ValueError(f"目标物料{target_resource}没有unilabos_uuid属性，无法转运")
            target_uids.append(uid)
-        srv_address = f"/srv{target_device_id}/s2c_resource_tree"
+        _ns = target_device_id if target_device_id.startswith("/devices/") else f"/devices/{target_device_id.lstrip('/')}"
+        srv_address = f"/srv{_ns}/s2c_resource_tree"
        sclient = self.create_client(SerialCommand, srv_address)
        # 等待服务可用（设置超时）
        if not sclient.wait_for_service(timeout_sec=5.0):
@@ -1262,7 +1293,7 @@ class BaseROS2DeviceNode(Node, Generic[T]):
                    return False
                time.sleep(0.05)
            self.lab_logger().info(f"资源本地增加到{target_device_id}结果: {response.response}")
-        return None
+        return "转运完成"

    def register_device(self):
        """向注册表中注册设备信息"""
@@ -1334,9 +1365,8 @@ class BaseROS2DeviceNode(Node, Generic[T]):
        return self._lab_logger

    def create_ros_publisher(self, attr_name, msg_type, initial_period=5.0):
-        """创建ROS发布者，仅当方法/属性有 @topic_config 装饰器时才创建。"""
-        # 检测 @topic_config 装饰器配置
-        topic_config = {}
+        """创建ROS发布者。已在 status_types 中声明的属性直接创建；@topic_config 用于覆盖默认参数。"""
+        topic_cfg = {}
        driver_class = type(self.driver_instance)

        # 区分 @property 和普通方法两种情况
@@ -1345,23 +1375,17 @@ class BaseROS2DeviceNode(Node, Generic[T]):
        )

        if is_prop:
-            # @property: 检测 fget 上的 @topic_config
            class_attr = getattr(driver_class, attr_name)
            if class_attr.fget is not None:
-                topic_config = get_topic_config(class_attr.fget)
+                topic_cfg = get_topic_config(class_attr.fget)
        else:
-            # 普通方法: 直接检测 attr_name 方法上的 @topic_config
            if hasattr(self.driver_instance, attr_name):
                method = getattr(self.driver_instance, attr_name)
                if callable(method):
-                    topic_config = get_topic_config(method)
-
-        # 没有 @topic_config 装饰器则跳过发布
-        if not topic_config:
-            return
+                    topic_cfg = get_topic_config(method)

        # 发布名称优先级: @topic_config(name=...) > get_ 前缀去除 > attr_name
-        cfg_name = topic_config.get("name")
+        cfg_name = topic_cfg.get("name")
        if cfg_name:
            publish_name = cfg_name
        elif attr_name.startswith("get_"):
@@ -1369,10 +1393,10 @@ class BaseROS2DeviceNode(Node, Generic[T]):
        else:
            publish_name = attr_name

-        # 使用装饰器配置或默认值
-        cfg_period = topic_config.get("period")
-        cfg_print = topic_config.get("print_publish")
-        cfg_qos = topic_config.get("qos")
+        # @topic_config 参数覆盖默认值
+        cfg_period = topic_cfg.get("period")
+        cfg_print = topic_cfg.get("print_publish")
+        cfg_qos = topic_cfg.get("qos")
        period: float = cfg_period if cfg_period is not None else initial_period
        print_publish: bool = cfg_print if cfg_print is not None else self._print_publish
        qos: int = cfg_qos if cfg_qos is not None else 10
@@ -1654,37 +1678,75 @@ class BaseROS2DeviceNode(Node, Generic[T]):
            feedback_msg_types = action_type.Feedback.get_fields_and_field_types()
            result_msg_types = action_type.Result.get_fields_and_field_types()

-            while future is not None and not future.done():
-                if goal_handle.is_cancel_requested:
-                    self.lab_logger().info(f"取消动作: {action_name}")
-                    future.cancel()  # 尝试取消线程池中的任务
-                    goal_handle.canceled()
-                    return action_type.Result()
+            # 低频 feedback timer（10s），不阻塞完成检测
+            _feedback_timer = None

-                self._time_spent = time.time() - time_start
-                self._time_remaining = time_overall - self._time_spent
+            def _publish_feedback():
+                if future is not None and not future.done():
+                    self._time_spent = time.time() - time_start
+                    self._time_remaining = time_overall - self._time_spent
+                    feedback_values = {}
+                    for msg_name, attr_name in action_value_mapping["feedback"].items():
+                        if hasattr(self.driver_instance, f"get_{attr_name}"):
+                            method = getattr(self.driver_instance, f"get_{attr_name}")
+                            if not asyncio.iscoroutinefunction(method):
+                                feedback_values[msg_name] = method()
+                        elif hasattr(self.driver_instance, attr_name):
+                            feedback_values[msg_name] = getattr(self.driver_instance, attr_name)
+                    if self._print_publish:
+                        self.lab_logger().info(f"反馈: {feedback_values}")
+                    feedback_msg = convert_to_ros_msg_with_mapping(
+                        ros_msg_type=action_type.Feedback(),
+                        obj=feedback_values,
+                        value_mapping=action_value_mapping["feedback"],
+                    )
+                    goal_handle.publish_feedback(feedback_msg)

-                # 发布反馈
-                feedback_values = {}
-                for msg_name, attr_name in action_value_mapping["feedback"].items():
-                    if hasattr(self.driver_instance, f"get_{attr_name}"):
-                        method = getattr(self.driver_instance, f"get_{attr_name}")
-                        if not asyncio.iscoroutinefunction(method):
-                            feedback_values[msg_name] = method()
-                    elif hasattr(self.driver_instance, attr_name):
-                        feedback_values[msg_name] = getattr(self.driver_instance, attr_name)
-
-                if self._print_publish:
-                    self.lab_logger().info(f"反馈: {feedback_values}")
-
-                feedback_msg = convert_to_ros_msg_with_mapping(
-                    ros_msg_type=action_type.Feedback(),
-                    obj=feedback_values,
-                    value_mapping=action_value_mapping["feedback"],
+            if action_value_mapping.get("feedback"):
+                _fb_interval = action_value_mapping.get("feedback_interval", 0.5)
+                _feedback_timer = self.create_timer(
+                    _fb_interval, _publish_feedback, callback_group=self.callback_group
                )

-                goal_handle.publish_feedback(feedback_msg)
-                time.sleep(0.5)
+            # 等待 action 完成
+            if future is not None:
+                if isinstance(future, Task):
+                    # rclpy Task：直接 await，完成瞬间唤醒
+                    try:
+                        _raw_result = await future
+                    except Exception as e:
+                        _raw_result = e
+                else:
+                    # concurrent.futures.Future（同步 action）：用 rclpy 兼容的轮询
+                    _poll_future = Future()
+
+                    def _on_sync_done(fut):
+                        if not _poll_future.done():
+                            _poll_future.set_result(None)
+
+                    future.add_done_callback(_on_sync_done)
+                    await _poll_future
+                    try:
+                        _raw_result = future.result()
+                    except Exception as e:
+                        _raw_result = e
+
+                # 确保 execution_error/success 被正确设置（不依赖 done callback 时序）
+                if isinstance(_raw_result, BaseException):
+                    if not execution_error:
+                        execution_error = traceback.format_exception(
+                            type(_raw_result), _raw_result, _raw_result.__traceback__
+                        )
+                        execution_error = "".join(execution_error)
+                    execution_success = False
+                    action_return_value = _raw_result
+                elif not execution_error:
+                    execution_success = True
+                    action_return_value = _raw_result
+
+            # 清理 feedback timer
+            if _feedback_timer is not None:
+                _feedback_timer.cancel()

            if future is not None and future.cancelled():
                self.lab_logger().info(f"动作 {action_name} 已取消")
@@ -1693,8 +1755,12 @@ class BaseROS2DeviceNode(Node, Generic[T]):
            # self.lab_logger().info(f"动作执行完成: {action_name}")
            del future

+            # 执行失败时跳过物料状态更新
+            if execution_error:
+                execution_success = False
+
            # 向Host更新物料当前状态
-            if action_name not in ["create_resource_detailed", "create_resource"]:
+            if not execution_error and action_name not in ["create_resource_detailed", "create_resource"]:
                for k, v in goal.get_fields_and_field_types().items():
                    if v not in ["unilabos_msgs/Resource", "sequence<unilabos_msgs/Resource>"]:
                        continue
@@ -1750,7 +1816,7 @@ class BaseROS2DeviceNode(Node, Generic[T]):

            for attr_name in result_msg_types.keys():
                if attr_name in ["success", "reached_goal"]:
-                    setattr(result_msg, attr_name, True)
+                    setattr(result_msg, attr_name, execution_success)
                elif attr_name == "return_info":
                    setattr(
                        result_msg,
@@ -1856,7 +1922,7 @@ class BaseROS2DeviceNode(Node, Generic[T]):
            raise ValueError("至少需要提供一个 UUID")

        uuids_list = list(uuids)
-        future = self._resource_clients["c2s_update_resource_tree"].call_async(
+        future: Future = self._resource_clients["c2s_update_resource_tree"].call_async(
            SerialCommand.Request(
                command=json.dumps(
                    {
@@ -1882,6 +1948,8 @@ class BaseROS2DeviceNode(Node, Generic[T]):
            raise Exception(f"资源查询返回空结果: {uuids_list}")

        raw_data = json.loads(response.response)
+        if not raw_data:
+            raise Exception(f"资源原始查询返回空结果: {raw_data}")

        # 转换为 PLR 资源
        tree_set = ResourceTreeSet.from_raw_dict_list(raw_data)
@@ -1903,10 +1971,15 @@ class BaseROS2DeviceNode(Node, Generic[T]):

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

        return mapped_plr_resources

@@ -1999,16 +2072,27 @@ class BaseROS2DeviceNode(Node, Generic[T]):
                f"执行动作时JSON缺少function_name或function_args: {ex}\n原JSON: {string}\n{traceback.format_exc()}"
            )

-    async def _convert_resource_async(self, resource_data: Dict[str, Any]):
-        """异步转换资源数据为实例"""
-        # 使用封装的get_resource_with_dir方法获取PLR资源
-        plr_resource = await self.get_resource_with_dir(resource_ids=resource_data["id"], with_children=True)
+    async def _convert_resource_async(self, resource_data: "ResourceDictType"):
+        """异步转换 ResourceDictType 为 PLR 实例，优先用 uuid 查询"""
+        unilabos_uuid = resource_data.get("uuid")
+
+        if unilabos_uuid:
+            resource_tree = await self.get_resource([unilabos_uuid], with_children=True)
+            plr_resources = resource_tree.to_plr_resources()
+            if plr_resources:
+                plr_resource = plr_resources[0]
+            else:
+                raise ValueError(f"通过 uuid={unilabos_uuid} 查询资源为空")
+        else:
+            res_id = resource_data.get("id") or resource_data.get("name", "")
+            if not res_id:
+                raise ValueError(f"资源数据缺少 uuid 和 id: {list(resource_data.keys())}")
+            plr_resource = await self.get_resource_with_dir(resource_id=res_id, with_children=True)

        # 通过资源跟踪器获取本地实例
        res = self.resource_tracker.figure_resource(plr_resource, try_mode=True)
        if len(res) == 0:
-            # todo: 后续通过decoration来区分，减少warning
-            self.lab_logger().warning(f"资源转换未能索引到实例: {resource_data}，返回新建实例")
+            self.lab_logger().warning(f"资源转换未能索引到实例: {resource_data.get('id', '?')}，返回新建实例")
            return plr_resource
        elif len(res) == 1:
            return res[0]
--- a/unilabos/ros/nodes/presets/host_node.py
+++ b/unilabos/ros/nodes/presets/host_node.py
@@ -4,6 +4,8 @@ import threading
 import time
 import traceback
 import uuid
+
+from unilabos.utils.tools import fast_dumps_str as _fast_dumps_str, fast_loads as _fast_loads
 from dataclasses import dataclass, field
 from typing import TYPE_CHECKING, Optional, Dict, Any, List, ClassVar, Set, Union

@@ -618,22 +620,17 @@ class HostNode(BaseROS2DeviceNode):
                }
            )
        ]
-
        response: List[str] = await self.create_resource_detailed(
            resources, device_ids, bind_parent_id, bind_location, other_calling_param
        )

-        try:
-            assert len(response) == 1, "Create Resource应当只返回一个结果"
-            for i in response:
-                res = json.loads(i)
-                if "suc" in res:
-                    raise ValueError(res.get("error"))
-                return res
-        except Exception as ex:
-            pass
-        _n = "\n"
-        raise ValueError(f"创建资源时失败！\n{_n.join(response)}")
+        assert len(response) == 1, "Create Resource应当只返回一个结果"
+        for i in response:
+            res = json.loads(i)
+            if "suc" in res and not res["suc"]:
+                raise ValueError(res.get("error", "未知错误"))
+            return res
+        raise ValueError(f"创建资源时失败！响应为空")

    def initialize_device(self, device_id: str, device_config: ResourceDictInstance) -> None:
        """
@@ -1168,7 +1165,7 @@ class HostNode(BaseROS2DeviceNode):
                else:
                    physical_setup_graph.nodes[resource_dict["id"]]["data"].update(resource_dict.get("data", {}))

-        response.response = json.dumps(uuid_mapping) if success else "FAILED"
+        response.response = _fast_dumps_str(uuid_mapping) if success else "FAILED"
        self.lab_logger().info(f"[Host Node-Resource] Resource tree add completed, success: {success}")

    async def _resource_tree_action_get_callback(self, data: dict, response: SerialCommand_Response):  # OK
@@ -1178,6 +1175,7 @@ class HostNode(BaseROS2DeviceNode):

        resource_response = http_client.resource_tree_get(uuid_list, with_children)
        response.response = json.dumps(resource_response)
+        self.lab_logger().trace(f"[Host Node-Resource] Resource tree get request callback {response.response}")

    async def _resource_tree_action_remove_callback(self, data: dict, response: SerialCommand_Response):
        """
@@ -1230,9 +1228,26 @@ class HostNode(BaseROS2DeviceNode):
        """
        try:
            # 解析请求数据
-            data = json.loads(request.command)
+            data = _fast_loads(request.command)
            action = data["action"]
-            self.lab_logger().info(f"[Host Node-Resource] Resource tree {action} request received")
+            inner = data.get("data", {})
+            if action == "add":
+                mount_uuid = inner.get("mount_uuid", "?")[:8] if isinstance(inner, dict) else "?"
+                tree_data = inner.get("data", []) if isinstance(inner, dict) else inner
+                node_count = len(tree_data) if isinstance(tree_data, list) else "?"
+                source = f"mount={mount_uuid}.. nodes≈{node_count}"
+            elif action in ("get", "remove"):
+                uid_list = inner.get("data", inner) if isinstance(inner, dict) else inner
+                source = f"uuids={len(uid_list) if isinstance(uid_list, list) else '?'}"
+            elif action == "update":
+                tree_data = inner.get("data", []) if isinstance(inner, dict) else inner
+                node_count = len(tree_data) if isinstance(tree_data, list) else "?"
+                source = f"nodes≈{node_count}"
+            else:
+                source = ""
+            self.lab_logger().info(
+                f"[Host Node-Resource] Resource tree {action} request received ({source})"
+            )
            data = data["data"]
            if action == "add":
                await self._resource_tree_action_add_callback(data, response)
@@ -1632,6 +1647,7 @@ class HostNode(BaseROS2DeviceNode):
    def manual_confirm(self, timeout_seconds: int, assignee_user_ids: list[str], **kwargs) -> dict:
        """
        timeout_seconds: 超时时间（秒），默认3600秒
+        修改的结果无效，是只读的
        """
        return kwargs

--- a/unilabos/ros/nodes/presets/workstation.py
+++ b/unilabos/ros/nodes/presets/workstation.py
@@ -340,17 +340,8 @@ class ROS2WorkstationNode(BaseROS2DeviceNode):
                            )  # type: ignore
                            raw_data = json.loads(response.response)
                            tree_set = ResourceTreeSet.from_raw_dict_list(raw_data)
-
-                            # 传递 ResourceDictInstance（保留树结构），不再调用 dump() 扁平化
-                            if v == "unilabos_msgs/Resource":
-                                # 单个资源：取第一棵树的根节点
-                                root_instance = tree_set.trees[0].root_node if tree_set.trees else None
-                                protocol_kwargs[k] = root_instance.get_plr_nested_dict() if root_instance else protocol_kwargs[k]
-                            else:
-                                # 多个资源：取每棵树的根节点
-                                protocol_kwargs[k] = [
-                                    tree.root_node.get_plr_nested_dict() for tree in tree_set.trees
-                                ]
+                            target = tree_set.dump()
+                            protocol_kwargs[k] = target[0][0] if v == "unilabos_msgs/Resource" else target
                        except Exception as ex:
                            self.lab_logger().error(f"查询资源失败: {k}, 错误: {ex}\n{traceback.format_exc()}")
                            raise
--- a/unilabos/test/experiments/virtual_bench.json
+++ b/unilabos/test/experiments/virtual_bench.json
@@ -22,6 +22,447 @@
                "arm_state": "idle",
                "message": "工作台就绪"
            }
+        },
+        {
+            "id": "PRCXI",
+            "name": "PRCXI",
+            "type": "device",
+            "class": "liquid_handler.prcxi",
+            "parent": "",
+            "pose": {
+                "size": {
+                    "width": 562,
+                    "height": 394,
+                    "depth": 0
+                }
+            },
+            "config": {
+                "axis": "Left",
+                "deck": {
+                    "_resource_type": "unilabos.devices.liquid_handling.prcxi.prcxi:PRCXI9300Deck",
+                    "_resource_child_name": "PRCXI_Deck"
+                },
+                "host": "10.20.30.184",
+                "port": 9999,
+                "debug": true,
+                "setup": true,
+                "is_9320": true,
+                "timeout": 10,
+                "matrix_id": "5de524d0-3f95-406c-86dd-f83626ebc7cb",
+                "simulator": true,
+                "channel_num": 2
+            },
+            "data": {
+                "reset_ok": true
+            },
+            "schema": {},
+            "description": "",
+            "model": null,
+            "position": {
+                "x": 0,
+                "y": 240,
+                "z": 0
+            }
+        },
+        {
+            "id": "PRCXI_Deck",
+            "name": "PRCXI_Deck",
+            "children": [],
+            "parent": "PRCXI",
+            "type": "deck",
+            "class": "",
+            "position": {
+                "x": 10,
+                "y": 10,
+                "z": 0
+            },
+            "config": {
+                "type": "PRCXI9300Deck",
+                "size_x": 542,
+                "size_y": 374,
+                "size_z": 0,
+                "rotation": {
+                    "x": 0,
+                    "y": 0,
+                    "z": 0,
+                    "type": "Rotation"
+                },
+                "category": "deck",
+                "barcode": null,
+                "preferred_pickup_location": null,
+                "sites": [
+                    {
+                        "label": "T1",
+                        "visible": true,
+                        "occupied_by": null,
+                        "position": {
+                            "x": 0,
+                            "y": 0,
+                            "z": 0
+                        },
+                        "size": {
+                            "width": 128.0,
+                            "height": 86,
+                            "depth": 0
+                        },
+                        "content_type": [
+                            "container",
+                            "plate",
+                            "tip_rack",
+                            "plates",
+                            "tip_racks",
+                            "tube_rack",
+                            "adaptor"
+                        ]
+                    },
+                    {
+                        "label": "T2",
+                        "visible": true,
+                        "occupied_by": null,
+                        "position": {
+                            "x": 138,
+                            "y": 0,
+                            "z": 0
+                        },
+                        "size": {
+                            "width": 128.0,
+                            "height": 86,
+                            "depth": 0
+                        },
+                        "content_type": [
+                            "plate",
+                            "tip_rack",
+                            "plates",
+                            "tip_racks",
+                            "tube_rack",
+                            "adaptor"
+                        ]
+                    },
+                    {
+                        "label": "T3",
+                        "visible": true,
+                        "occupied_by": null,
+                        "position": {
+                            "x": 276,
+                            "y": 0,
+                            "z": 0
+                        },
+                        "size": {
+                            "width": 128.0,
+                            "height": 86,
+                            "depth": 0
+                        },
+                        "content_type": [
+                            "plate",
+                            "tip_rack",
+                            "plates",
+                            "tip_racks",
+                            "tube_rack",
+                            "adaptor"
+                        ]
+                    },
+                    {
+                        "label": "T4",
+                        "visible": true,
+                        "occupied_by": null,
+                        "position": {
+                            "x": 414,
+                            "y": 0,
+                            "z": 0
+                        },
+                        "size": {
+                            "width": 128.0,
+                            "height": 86,
+                            "depth": 0
+                        },
+                        "content_type": [
+                            "plate",
+                            "tip_rack",
+                            "plates",
+                            "tip_racks",
+                            "tube_rack",
+                            "adaptor"
+                        ]
+                    },
+                    {
+                        "label": "T5",
+                        "visible": true,
+                        "occupied_by": null,
+                        "position": {
+                            "x": 0,
+                            "y": 96,
+                            "z": 0
+                        },
+                        "size": {
+                            "width": 128.0,
+                            "height": 86,
+                            "depth": 0
+                        },
+                        "content_type": [
+                            "plate",
+                            "tip_rack",
+                            "plates",
+                            "tip_racks",
+                            "tube_rack",
+                            "adaptor"
+                        ]
+                    },
+                    {
+                        "label": "T6",
+                        "visible": true,
+                        "occupied_by": null,
+                        "position": {
+                            "x": 138,
+                            "y": 96,
+                            "z": 0
+                        },
+                        "size": {
+                            "width": 128.0,
+                            "height": 86,
+                            "depth": 0
+                        },
+                        "content_type": [
+                            "plate",
+                            "tip_rack",
+                            "plates",
+                            "tip_racks",
+                            "tube_rack",
+                            "adaptor"
+                        ]
+                    },
+                    {
+                        "label": "T7",
+                        "visible": true,
+                        "occupied_by": null,
+                        "position": {
+                            "x": 276,
+                            "y": 96,
+                            "z": 0
+                        },
+                        "size": {
+                            "width": 128.0,
+                            "height": 86,
+                            "depth": 0
+                        },
+                        "content_type": [
+                            "plate",
+                            "tip_rack",
+                            "plates",
+                            "tip_racks",
+                            "tube_rack",
+                            "adaptor"
+                        ]
+                    },
+                    {
+                        "label": "T8",
+                        "visible": true,
+                        "occupied_by": null,
+                        "position": {
+                            "x": 414,
+                            "y": 96,
+                            "z": 0
+                        },
+                        "size": {
+                            "width": 128.0,
+                            "height": 86,
+                            "depth": 0
+                        },
+                        "content_type": [
+                            "plate",
+                            "tip_rack",
+                            "plates",
+                            "tip_racks",
+                            "tube_rack",
+                            "adaptor"
+                        ]
+                    },
+                    {
+                        "label": "T9",
+                        "visible": true,
+                        "occupied_by": null,
+                        "position": {
+                            "x": 0,
+                            "y": 192,
+                            "z": 0
+                        },
+                        "size": {
+                            "width": 128.0,
+                            "height": 86,
+                            "depth": 0
+                        },
+                        "content_type": [
+                            "plate",
+                            "tip_rack",
+                            "plates",
+                            "tip_racks",
+                            "tube_rack",
+                            "adaptor"
+                        ]
+                    },
+                    {
+                        "label": "T10",
+                        "visible": true,
+                        "occupied_by": null,
+                        "position": {
+                            "x": 138,
+                            "y": 192,
+                            "z": 0
+                        },
+                        "size": {
+                            "width": 128.0,
+                            "height": 86,
+                            "depth": 0
+                        },
+                        "content_type": [
+                            "plate",
+                            "tip_rack",
+                            "plates",
+                            "tip_racks",
+                            "tube_rack",
+                            "adaptor"
+                        ]
+                    },
+                    {
+                        "label": "T11",
+                        "visible": true,
+                        "occupied_by": null,
+                        "position": {
+                            "x": 276,
+                            "y": 192,
+                            "z": 0
+                        },
+                        "size": {
+                            "width": 128.0,
+                            "height": 86,
+                            "depth": 0
+                        },
+                        "content_type": [
+                            "plate",
+                            "tip_rack",
+                            "plates",
+                            "tip_racks",
+                            "tube_rack",
+                            "adaptor"
+                        ]
+                    },
+                    {
+                        "label": "T12",
+                        "visible": true,
+                        "occupied_by": null,
+                        "position": {
+                            "x": 414,
+                            "y": 192,
+                            "z": 0
+                        },
+                        "size": {
+                            "width": 128.0,
+                            "height": 86,
+                            "depth": 0
+                        },
+                        "content_type": [
+                            "plate",
+                            "tip_rack",
+                            "plates",
+                            "tip_racks",
+                            "tube_rack",
+                            "adaptor"
+                        ]
+                    },
+                    {
+                        "label": "T13",
+                        "visible": true,
+                        "occupied_by": null,
+                        "position": {
+                            "x": 0,
+                            "y": 288,
+                            "z": 0
+                        },
+                        "size": {
+                            "width": 128.0,
+                            "height": 86,
+                            "depth": 0
+                        },
+                        "content_type": [
+                            "plate",
+                            "tip_rack",
+                            "plates",
+                            "tip_racks",
+                            "tube_rack",
+                            "adaptor"
+                        ]
+                    },
+                    {
+                        "label": "T14",
+                        "visible": true,
+                        "occupied_by": null,
+                        "position": {
+                            "x": 138,
+                            "y": 288,
+                            "z": 0
+                        },
+                        "size": {
+                            "width": 128.0,
+                            "height": 86,
+                            "depth": 0
+                        },
+                        "content_type": [
+                            "plate",
+                            "tip_rack",
+                            "plates",
+                            "tip_racks",
+                            "tube_rack",
+                            "adaptor"
+                        ]
+                    },
+                    {
+                        "label": "T15",
+                        "visible": true,
+                        "occupied_by": null,
+                        "position": {
+                            "x": 276,
+                            "y": 288,
+                            "z": 0
+                        },
+                        "size": {
+                            "width": 128.0,
+                            "height": 86,
+                            "depth": 0
+                        },
+                        "content_type": [
+                            "plate",
+                            "tip_rack",
+                            "plates",
+                            "tip_racks",
+                            "tube_rack",
+                            "adaptor"
+                        ]
+                    },
+                    {
+                        "label": "T16",
+                        "visible": true,
+                        "occupied_by": null,
+                        "position": {
+                            "x": 414,
+                            "y": 288,
+                            "z": 0
+                        },
+                        "size": {
+                            "width": 128.0,
+                            "height": 86,
+                            "depth": 0
+                        },
+                        "content_type": [
+                            "plate",
+                            "tip_rack",
+                            "plates",
+                            "tip_racks",
+                            "tube_rack",
+                            "adaptor"
+                        ]
+                    }
+                ]
+            },
+            "data": {}
        }
    ],
    "links": []
--- a/unilabos/test/experiments/workshop.json
+++ b/unilabos/test/experiments/workshop.json
@@ -577,38 +577,17 @@
        {
            "id": "AGV",
            "name": "AGV",
-            "children": ["zhixing_agv", "zhixing_ur_arm", "agv_platform"],
+            "children": ["zhixing_agv", "zhixing_ur_arm"],
            "parent": null,
            "type": "device",
-            "class": "agv_transport_station",
+            "class": "workstation",
            "position": {
                "x": 698.1111111111111,
                "y": 478,
                "z": 0
            },
            "config": {
-                "protocol_type": ["AGVTransferProtocol", "BatchTransferProtocol"],
-                "device_roles": {
-                    "navigator": "zhixing_agv",
-                    "arm": "zhixing_ur_arm"
-                },
-                "route_table": {
-                    "AiChemEcoHiWo->Revvity": {
-                        "nav_command": "{\"target\": \"LM14\"}",
-                        "arm_pick": "{\"task_name\": \"camera/250111_biaozhi.urp\"}",
-                        "arm_place": "{\"task_name\": \"camera/250111_put_board.urp\"}"
-                    },
-                    "Revvity->HPLC": {
-                        "nav_command": "{\"target\": \"LM13\"}",
-                        "arm_pick": "{\"task_name\": \"camera/250111_lfp.urp\"}",
-                        "arm_place": "{\"task_name\": \"camera/250111_hplc.urp\"}"
-                    },
-                    "HPLC->Revvity": {
-                        "nav_command": "{\"target\": \"LM13\"}",
-                        "arm_pick": "{\"task_name\": \"camera/250111_hplc.urp\"}",
-                        "arm_place": "{\"task_name\": \"camera/250111_lfp.urp\"}"
-                    }
-                }
+                "protocol_type": ["AGVTransferProtocol"]
            },
            "data": {
            }
@@ -648,27 +627,6 @@
            },
            "data": {
            }
-        },
-        {
-            "id": "agv_platform",
-            "name": "agv_platform",
-            "children": [],
-            "parent": "AGV",
-            "type": "warehouse",
-            "class": "",
-            "position": {
-                "x": 698.1111111111111,
-                "y": 478,
-                "z": 0
-            },
-            "config": {
-                "name": "agv_platform",
-                "num_items_x": 2,
-                "num_items_y": 1,
-                "num_items_z": 1
-            },
-            "data": {
-            }
        }
    ],
    "links": [
--- a/unilabos/utils/environment_check.py
+++ b/unilabos/utils/environment_check.py
@@ -188,7 +188,13 @@ class EnvironmentChecker:
            "crcmod": "crcmod-plus",
        }

-        self.special_packages = {"pylabrobot": "git+https://github.com/Xuwznln/pylabrobot.git"}
+        # 中文 locale 下走 Gitee 镜像，规避 GitHub 拉取失败
+        pylabrobot_url = (
+            "git+https://gitee.com/xuwznln/pylabrobot.git"
+            if _is_chinese_locale()
+            else "git+https://github.com/Xuwznln/pylabrobot.git"
+        )
+        self.special_packages = {"pylabrobot": pylabrobot_url}

        self.version_requirements = {
            "msgcenterpy": "0.1.8",
--- a/unilabos/utils/tools.py
+++ b/unilabos/utils/tools.py
@@ -17,6 +17,14 @@ try:
            default=json_default,
        )

+    def fast_loads(data) -> dict:
+        """JSON 反序列化，优先使用 orjson。接受 str / bytes。"""
+        return orjson.loads(data)
+
+    def fast_dumps_str(obj, **kwargs) -> str:
+        """JSON 序列化为 str，优先使用 orjson。用于需要 str 而非 bytes 的场景（如 ROS msg）。"""
+        return orjson.dumps(obj, option=orjson.OPT_NON_STR_KEYS, default=json_default).decode("utf-8")
+
    def normalize_json(info: dict) -> dict:
        """经 JSON 序列化/反序列化一轮来清理非标准类型。"""
        return orjson.loads(orjson.dumps(info, default=json_default))
@@ -29,6 +37,14 @@ except ImportError:
    def fast_dumps_pretty(obj, **kwargs) -> bytes:  # type: ignore[misc]
        return json.dumps(obj, indent=2, ensure_ascii=False, cls=TypeEncoder).encode("utf-8")

+    def fast_loads(data) -> dict:  # type: ignore[misc]
+        if isinstance(data, bytes):
+            data = data.decode("utf-8")
+        return json.loads(data)
+
+    def fast_dumps_str(obj, **kwargs) -> str:  # type: ignore[misc]
+        return json.dumps(obj, ensure_ascii=False, cls=TypeEncoder)
+
    def normalize_json(info: dict) -> dict:  # type: ignore[misc]
        return json.loads(json.dumps(info, ensure_ascii=False, cls=TypeEncoder))

--- a/Show More
+++ b/Show More