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exp. support with add device
This commit is contained in:
Xuwznln
2026-03-21 19:24:14 +08:00
parent 2c554182d3
commit 0f6264503a
31 changed files with 5453 additions and 1180 deletions
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2
.github/workflows/ci-check.yml vendored
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@@ -49,7 +49,7 @@ jobs:
uv pip uninstall enum34 || echo enum34 not installed, skipping uv pip uninstall enum34 || echo enum34 not installed, skipping
uv pip install . uv pip install .
- name: Run check mode (complete_registry) - name: Run check mode (AST registry validation)
run: | run: |
call conda activate check-env call conda activate check-env
echo Running check mode... echo Running check mode...

1
.gitignore vendored
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@@ -5,6 +5,7 @@ output/
unilabos_data/ unilabos_data/
pyrightconfig.json pyrightconfig.json
.cursorignore .cursorignore
device_package*/
## Python ## Python
# Byte-compiled / optimized / DLL files # Byte-compiled / optimized / DLL files

109
docs/developer_guide/add_device.md
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@@ -15,6 +15,9 @@ Python 类设备驱动在完成注册表后可以直接在 Uni-Lab 中使用,
**示例:** **示例:**
```python ```python
from unilabos.registry.decorators import device, topic_config
@device(id="mock_gripper", category=["gripper"], description="Mock Gripper")
class MockGripper: class MockGripper:
def __init__(self): def __init__(self):
self._position: float = 0.0 self._position: float = 0.0
@@ -23,19 +26,23 @@ class MockGripper:
self._status = "Idle" self._status = "Idle"
@property @property
@topic_config() # 添加 @topic_config 才会定时广播
def position(self) -> float: def position(self) -> float:
return self._position return self._position
@property @property
@topic_config()
def velocity(self) -> float: def velocity(self) -> float:
return self._velocity return self._velocity
@property @property
@topic_config()
def torque(self) -> float: def torque(self) -> float:
return self._torque return self._torque
# 会被自动识别的设备属性,接入 Uni-Lab 时会定时对外广播 # 使用 @topic_config 装饰的属性,接入 Uni-Lab 时会定时对外广播
@property @property
@topic_config(period=2.0) # 可自定义发布周期
def status(self) -> str: def status(self) -> str:
return self._status return self._status
@@ -149,7 +156,7 @@ my_device: # 设备唯一标识符
系统会自动分析您的 Python 驱动类并生成: 系统会自动分析您的 Python 驱动类并生成:
- `status_types`:从 `@property` 装饰的方法自动识别状态属性 - `status_types`:从 `@topic_config` 装饰的 `@property` 方法自动识别状态属性
- `action_value_mappings`:从类方法自动生成动作映射 - `action_value_mappings`:从类方法自动生成动作映射
- `init_param_schema`:从 `__init__` 方法分析初始化参数 - `init_param_schema`:从 `__init__` 方法分析初始化参数
- `schema`:前端显示用的属性类型定义 - `schema`:前端显示用的属性类型定义
@@ -179,7 +186,9 @@ Uni-Lab 设备驱动是一个 Python 类,需要遵循以下结构:
```python ```python
from typing import Dict, Any from typing import Dict, Any
from unilabos.registry.decorators import device, topic_config
@device(id="my_device", category=["general"], description="My Device")
class MyDevice: class MyDevice:
"""设备类文档字符串 """设备类文档字符串
@@ -198,8 +207,9 @@ class MyDevice:
# 初始化硬件连接 # 初始化硬件连接
@property @property
@topic_config() # 必须添加 @topic_config 才会广播
def status(self) -> str: def status(self) -> str:
"""设备状态(会自动广播)""" """设备状态(通过 @topic_config 广播)"""
return self._status return self._status
def my_action(self, param: float) -> Dict[str, Any]: def my_action(self, param: float) -> Dict[str, Any]:
@@ -217,34 +227,61 @@ class MyDevice:
## 状态属性 vs 动作方法 ## 状态属性 vs 动作方法
### 状态属性(@property ### 状态属性(@property + @topic_config
状态属性会被自动识别并定期广播: 状态属性需要同时使用 `@property``@topic_config` 装饰器才会被识别并定期广播:
```python ```python
from unilabos.registry.decorators import topic_config
@property @property
@topic_config() # 必须添加,否则不会广播
def temperature(self) -> float: def temperature(self) -> float:
"""当前温度""" """当前温度"""
return self._read_temperature() return self._read_temperature()
@property @property
@topic_config(period=2.0) # 可自定义发布周期(秒)
def status(self) -> str: def status(self) -> str:
"""设备状态: idle, running, error""" """设备状态: idle, running, error"""
return self._status return self._status
@property @property
@topic_config(name="ready") # 可自定义发布名称
def is_ready(self) -> bool: def is_ready(self) -> bool:
"""设备是否就绪""" """设备是否就绪"""
return self._status == "idle" return self._status == "idle"
``` ```
也可以使用普通方法(非 @property)配合 `@topic_config`
```python
@topic_config(period=10.0)
def get_sensor_data(self) -> Dict[str, float]:
"""获取传感器数据get_ 前缀会自动去除,发布名为 sensor_data"""
return {"temp": self._temp, "humidity": self._humidity}
```
**`@topic_config` 参数**:
| 参数 | 类型 | 默认值 | 说明 |
|------|------|--------|------|
| `period` | float | 5.0 | 发布周期(秒) |
| `print_publish` | bool | 节点默认 | 是否打印发布日志 |
| `qos` | int | 10 | QoS 深度 |
| `name` | str | None | 自定义发布名称 |
**发布名称优先级**`@topic_config(name=...)` > `get_` 前缀去除 > 方法名
**特点**: **特点**:
- 使用`@property`装饰器 - 必须使用 `@topic_config` 装饰器
- 只读,不能有参数 - 支持 `@property` 和普通方法
- 自动添加到注册表的`status_types` - 添加到注册表的 `status_types`
- 定期发布到 ROS2 topic - 定期发布到 ROS2 topic
> **⚠️ 重要:** 仅有 `@property` 装饰器而没有 `@topic_config` 的属性**不会**被广播。这是一个 Breaking Change。
### 动作方法 ### 动作方法
动作方法是设备可以执行的操作: 动作方法是设备可以执行的操作:
@@ -497,6 +534,7 @@ class LiquidHandler:
self._status = "idle" self._status = "idle"
@property @property
@topic_config()
def status(self) -> str: def status(self) -> str:
return self._status return self._status
@@ -886,7 +924,52 @@ class MyDevice:
## 最佳实践 ## 最佳实践
### 1. 类型注解 ### 1. 使用 `@device` 装饰器标识设备
```python
from unilabos.registry.decorators import device
@device(id="my_device", category=["heating"], description="My Heating Device", icon="heater.webp")
class MyDevice:
...
```
- `id`:设备唯一标识符,用于注册表匹配
- `category`:分类列表,前端用于分组显示
- `description`:设备描述
- `icon`:图标文件名(可选)
### 2. 使用 `@topic_config` 声明需要广播的状态
```python
from unilabos.registry.decorators import topic_config
# ✓ @property + @topic_config → 会广播
@property
@topic_config(period=2.0)
def temperature(self) -> float:
return self._temp
# ✓ 普通方法 + @topic_config → 会广播get_ 前缀自动去除)
@topic_config(period=10.0)
def get_sensor_data(self) -> Dict[str, float]:
return {"temp": self._temp}
# ✓ 使用 name 参数自定义发布名称
@property
@topic_config(name="ready")
def is_ready(self) -> bool:
return self._status == "idle"
# ✗ 仅有 @property没有 @topic_config → 不会广播
@property
def internal_state(self) -> str:
return self._state
```
> **注意:** 与 `@property` 连用时,`@topic_config` 必须放在 `@property` 下面。
### 3. 类型注解
```python ```python
from typing import Dict, Any, Optional, List from typing import Dict, Any, Optional, List
@@ -901,7 +984,7 @@ def method(
pass pass
``` ```
### 2. 文档字符串 ### 4. 文档字符串
```python ```python
def method(self, param: float) -> Dict[str, Any]: def method(self, param: float) -> Dict[str, Any]:
@@ -923,7 +1006,7 @@ def method(self, param: float) -> Dict[str, Any]:
pass pass
``` ```
### 3. 配置验证 ### 5. 配置验证
```python ```python
def __init__(self, config: Dict[str, Any]): def __init__(self, config: Dict[str, Any]):
@@ -937,7 +1020,7 @@ def __init__(self, config: Dict[str, Any]):
self.baudrate = config['baudrate'] self.baudrate = config['baudrate']
``` ```
### 4. 资源清理 ### 6. 资源清理
```python ```python
def __del__(self): def __del__(self):
@@ -946,7 +1029,7 @@ def __del__(self):
self.connection.close() self.connection.close()
``` ```
### 5. 设计前端友好的返回值 ### 7. 设计前端友好的返回值
**记住:返回值会直接显示在 Web 界面** **记住:返回值会直接显示在 Web 界面**

65
docs/developer_guide/add_registry.md
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@@ -422,18 +422,20 @@ placeholder_keys:
### status_types ### status_types
系统会扫描你的 Python 类,从状态方法property 或 get\_方法自动生成这部分: 系统会扫描你的 Python 类,从带有 `@topic_config` 装饰器的 `@property`方法自动生成这部分:
```yaml ```yaml
status_types: status_types:
current_temperature: float # 从 get_current_temperature() 或 @property current_temperature current_temperature: float # 从 @topic_config 装饰的 @property 或方法
is_heating: bool # 从 get_is_heating() 或 @property is_heating is_heating: bool
status: str # 从 get_status() 或 @property status status: str
``` ```
**注意事项** **注意事项**
- 系统会查找所有 `get_` 开头的方法和 `@property` 装饰的属性 - 仅有带 `@topic_config` 装饰器的 `@property` 或方法才会被识别为状态属性
- 没有 `@topic_config``@property` 不会生成 status_types也不会广播
- `get_` 前缀的方法名会自动去除前缀(如 `get_temperature``temperature`
- 类型会自动转成相应的类型(如 `str``float``bool` - 类型会自动转成相应的类型(如 `str``float``bool`
- 如果类型是 `Any``None` 或未知的,默认使用 `String` - 如果类型是 `Any``None` 或未知的,默认使用 `String`
@@ -537,11 +539,13 @@ class AdvancedLiquidHandler:
self._temperature = 25.0 self._temperature = 25.0
@property @property
@topic_config()
def status(self) -> str: def status(self) -> str:
"""设备状态""" """设备状态"""
return self._status return self._status
@property @property
@topic_config()
def temperature(self) -> float: def temperature(self) -> float:
"""当前温度""" """当前温度"""
return self._temperature return self._temperature
@@ -809,21 +813,23 @@ my_temperature_controller:
你的设备类需要符合以下要求: 你的设备类需要符合以下要求:
```python ```python
from unilabos.common.device_base import DeviceBase from unilabos.registry.decorators import device, topic_config
class MyDevice(DeviceBase): @device(id="my_device", category=["temperature"], description="My Device")
class MyDevice:
def __init__(self, config): def __init__(self, config):
"""初始化,参数会自动分析到 init_param_schema.config""" """初始化,参数会自动分析到 init_param_schema.config"""
super().__init__(config)
self.port = config.get('port', '/dev/ttyUSB0') self.port = config.get('port', '/dev/ttyUSB0')
# 状态方法(会自动生成到 status_types # 状态方法(必须添加 @topic_config 才会生成到 status_types 并广播
@property @property
@topic_config()
def status(self): def status(self):
"""返回设备状态""" """返回设备状态"""
return "idle" return "idle"
@property @property
@topic_config()
def temperature(self): def temperature(self):
"""返回当前温度""" """返回当前温度"""
return 25.0 return 25.0
@@ -1039,7 +1045,34 @@ resource.type # "resource"
### 代码规范 ### 代码规范
1. **始终使用类型注解** 1. **使用 `@device` 装饰器标识设备类**
```python
from unilabos.registry.decorators import device
@device(id="my_device", category=["heating"], description="My Device")
class MyDevice:
...
```
2. **使用 `@topic_config` 声明广播属性**
```python
from unilabos.registry.decorators import topic_config
# ✓ 需要广播的状态属性
@property
@topic_config(period=2.0)
def temperature(self) -> float:
return self._temp
# ✗ 仅有 @property 不会广播
@property
def internal_counter(self) -> int:
return self._counter
```
3. **始终使用类型注解**
```python ```python
# ✓ 好 # ✓ 好
@@ -1051,7 +1084,7 @@ def method(self, resource, device):
pass pass
``` ```
2. **提供有意义的参数名** 4. **提供有意义的参数名**
```python ```python
# ✓ 好 - 清晰的参数名 # ✓ 好 - 清晰的参数名
@@ -1063,7 +1096,7 @@ def transfer(self, r1: ResourceSlot, r2: ResourceSlot):
pass pass
``` ```
3. **使用 Optional 表示可选参数** 5. **使用 Optional 表示可选参数**
```python ```python
from typing import Optional from typing import Optional
@@ -1076,7 +1109,7 @@ def method(
pass pass
``` ```
4. **添加详细的文档字符串** 6. **添加详细的文档字符串**
```python ```python
def method( def method(
@@ -1096,13 +1129,13 @@ def method(
pass pass
``` ```
5. **方法命名规范** 7. **方法命名规范**
- 状态方法使用 `@property` 装饰器或 `get_` 前缀 - 状态方法使用 `@property` + `@topic_config` 装饰器,或普通方法 + `@topic_config`
- 动作方法使用动词开头 - 动作方法使用动词开头
- 保持命名清晰、一致 - 保持命名清晰、一致
6. **完善的错误处理** 8. **完善的错误处理**
- 实现完善的错误处理 - 实现完善的错误处理
- 添加日志记录 - 添加日志记录
- 提供有意义的错误信息 - 提供有意义的错误信息

4
docs/developer_guide/networking_overview.md
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@@ -221,10 +221,10 @@ Laboratory A Laboratory B
```bash ```bash
# 实验室A # 实验室A
unilab --ak your_ak --sk your_sk --upload_registry --use_remote_resource unilab --ak your_ak --sk your_sk --upload_registry
# 实验室B # 实验室B
unilab --ak your_ak --sk your_sk --upload_registry --use_remote_resource unilab --ak your_ak --sk your_sk --upload_registry
``` ```
--- ---

5
docs/user_guide/launch.md
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@@ -22,7 +22,6 @@ options:
--is_slave Run the backend as slave node (without host privileges). --is_slave Run the backend as slave node (without host privileges).
--slave_no_host Skip waiting for host service in slave mode --slave_no_host Skip waiting for host service in slave mode
--upload_registry Upload registry information when starting unilab --upload_registry Upload registry information when starting unilab
--use_remote_resource Use remote resources when starting unilab
--config CONFIG Configuration file path, supports .py format Python config files --config CONFIG Configuration file path, supports .py format Python config files
--port PORT Port for web service information page --port PORT Port for web service information page
--disable_browser Disable opening information page on startup --disable_browser Disable opening information page on startup
@@ -85,7 +84,7 @@ Uni-Lab 的启动过程分为以下几个阶段:
支持两种方式: 支持两种方式:
- **本地文件**:使用 `-g` 指定图谱文件(支持 JSON 和 GraphML 格式) - **本地文件**:使用 `-g` 指定图谱文件(支持 JSON 和 GraphML 格式)
- **远程资源**使用 `--use_remote_resource` 从云端获取 - **远程资源**不指定本地文件即可
### 7. 注册表构建 ### 7. 注册表构建
@@ -196,7 +195,7 @@ unilab --config path/to/your/config.py
unilab --ak your_ak --sk your_sk -g path/to/graph.json --upload_registry unilab --ak your_ak --sk your_sk -g path/to/graph.json --upload_registry
# 使用远程资源启动 # 使用远程资源启动
unilab --ak your_ak --sk your_sk --use_remote_resource unilab --ak your_ak --sk your_sk
# 更新注册表 # 更新注册表
unilab --ak your_ak --sk your_sk --complete_registry unilab --ak your_ak --sk your_sk --complete_registry

148
unilabos/app/main.py
View File

@@ -4,6 +4,7 @@ import os
import platform import platform
import shutil import shutil
import signal import signal
import subprocess
import sys import sys
import threading import threading
import time import time
@@ -25,6 +26,84 @@ from unilabos.config.config import load_config, BasicConfig, HTTPConfig
_restart_requested: bool = False _restart_requested: bool = False
_restart_reason: str = "" _restart_reason: str = ""
RESTART_EXIT_CODE = 42
def _build_child_argv():
"""Build sys.argv for child process, stripping supervisor-only arguments."""
result = []
skip_next = False
for arg in sys.argv:
if skip_next:
skip_next = False
continue
if arg in ("--restart_mode", "--restart-mode"):
continue
if arg in ("--auto_restart_count", "--auto-restart-count"):
skip_next = True
continue
if arg.startswith("--auto_restart_count=") or arg.startswith("--auto-restart-count="):
continue
result.append(arg)
return result
def _run_as_supervisor(max_restarts: int):
"""
Supervisor process that spawns and monitors child processes.
Similar to Uvicorn's --reload: the supervisor itself does no heavy work,
it only launches the real process as a child and restarts it when the child
exits with RESTART_EXIT_CODE.
"""
child_argv = [sys.executable] + _build_child_argv()
restart_count = 0
print_status(
f"[Supervisor] Restart mode enabled (max restarts: {max_restarts}), "
f"child command: {' '.join(child_argv)}",
"info",
)
while True:
print_status(
f"[Supervisor] Launching process (restart {restart_count}/{max_restarts})...",
"info",
)
try:
process = subprocess.Popen(child_argv)
exit_code = process.wait()
except KeyboardInterrupt:
print_status("[Supervisor] Interrupted, terminating child process...", "info")
process.terminate()
try:
process.wait(timeout=10)
except subprocess.TimeoutExpired:
process.kill()
process.wait()
sys.exit(1)
if exit_code == RESTART_EXIT_CODE:
restart_count += 1
if restart_count > max_restarts:
print_status(
f"[Supervisor] Maximum restart count ({max_restarts}) reached, exiting",
"warning",
)
sys.exit(1)
print_status(
f"[Supervisor] Child requested restart ({restart_count}/{max_restarts}), restarting in 2s...",
"info",
)
time.sleep(2)
else:
if exit_code != 0:
print_status(f"[Supervisor] Child exited with code {exit_code}", "warning")
else:
print_status("[Supervisor] Child exited normally", "info")
sys.exit(exit_code)
def load_config_from_file(config_path): def load_config_from_file(config_path):
if config_path is None: if config_path is None:
@@ -66,6 +145,13 @@ def parse_args():
action="append", action="append",
help="Path to the registry directory", help="Path to the registry directory",
) )
parser.add_argument(
"--devices",
type=str,
default=None,
action="append",
help="Path to Python code directory for AST-based device/resource scanning",
)
parser.add_argument( parser.add_argument(
"--working_dir", "--working_dir",
type=str, type=str,
@@ -155,12 +241,6 @@ def parse_args():
action="store_true", action="store_true",
help="Skip environment dependency check on startup", help="Skip environment dependency check on startup",
) )
parser.add_argument(
"--complete_registry",
action="store_true",
default=False,
help="Complete registry information",
)
parser.add_argument( parser.add_argument(
"--check_mode", "--check_mode",
action="store_true", action="store_true",
@@ -178,6 +258,24 @@ def parse_args():
default=False, default=False,
help="Test mode: all actions simulate execution and return mock results without running real hardware", help="Test mode: all actions simulate execution and return mock results without running real hardware",
) )
parser.add_argument(
"--extra_resource",
action="store_true",
default=False,
help="Load extra lab_ prefixed labware resources (529 auto-generated definitions from lab_resources.py)",
)
parser.add_argument(
"--restart_mode",
action="store_true",
default=False,
help="Enable supervisor mode: automatically restart the process when triggered via WebSocket",
)
parser.add_argument(
"--auto_restart_count",
type=int,
default=500,
help="Maximum number of automatic restarts in restart mode (default: 500)",
)
# workflow upload subcommand # workflow upload subcommand
workflow_parser = subparsers.add_parser( workflow_parser = subparsers.add_parser(
"workflow_upload", "workflow_upload",
@@ -228,6 +326,11 @@ def main():
args = parser.parse_args() args = parser.parse_args()
args_dict = vars(args) args_dict = vars(args)
# Supervisor mode: spawn child processes and monitor for restart
if args_dict.get("restart_mode", False):
_run_as_supervisor(args_dict.get("auto_restart_count", 5))
return
# 环境检查 - 检查并自动安装必需的包 (可选) # 环境检查 - 检查并自动安装必需的包 (可选)
skip_env_check = args_dict.get("skip_env_check", False) skip_env_check = args_dict.get("skip_env_check", False)
check_mode = args_dict.get("check_mode", False) check_mode = args_dict.get("check_mode", False)
@@ -358,6 +461,9 @@ def main():
BasicConfig.test_mode = args_dict.get("test_mode", False) BasicConfig.test_mode = args_dict.get("test_mode", False)
if BasicConfig.test_mode: if BasicConfig.test_mode:
print_status("启用测试模式:所有动作将模拟执行,不调用真实硬件", "warning") print_status("启用测试模式:所有动作将模拟执行,不调用真实硬件", "warning")
BasicConfig.extra_resource = args_dict.get("extra_resource", False)
if BasicConfig.extra_resource:
print_status("启用额外资源加载将加载lab_开头的labware资源定义", "info")
BasicConfig.communication_protocol = "websocket" BasicConfig.communication_protocol = "websocket"
machine_name = platform.node() machine_name = platform.node()
machine_name = "".join([c if c.isalnum() or c == "_" else "_" for c in machine_name]) machine_name = "".join([c if c.isalnum() or c == "_" else "_" for c in machine_name])
@@ -382,22 +488,30 @@ def main():
# 显示启动横幅 # 显示启动横幅
print_unilab_banner(args_dict) print_unilab_banner(args_dict)
# 注册表 - check_mode 时强制启用 complete_registry # Step 0: AST 分析优先 + YAML 注册表加载
complete_registry = args_dict.get("complete_registry", False) or check_mode # check_mode 和 upload_registry 都会执行实际 import 验证
lab_registry = build_registry(args_dict["registry_path"], complete_registry, BasicConfig.upload_registry) devices_dirs = args_dict.get("devices", None)
lab_registry = build_registry(
registry_paths=args_dict["registry_path"],
devices_dirs=devices_dirs,
upload_registry=BasicConfig.upload_registry,
check_mode=check_mode,
)
# Check mode: complete_registry 完成后直接退出git diff 检测由 CI workflow 执行 # Check mode: 注册表验证完成后直接退出
if check_mode: if check_mode:
print_status("Check mode: complete_registry 完成,退出", "info") device_count = len(lab_registry.device_type_registry)
resource_count = len(lab_registry.resource_type_registry)
print_status(f"Check mode: 注册表验证完成 ({device_count} 设备, {resource_count} 资源),退出", "info")
os._exit(0) os._exit(0)
# Step 1: 上传全部注册表到服务端,同步保存到 unilabos_data
if BasicConfig.upload_registry: if BasicConfig.upload_registry:
# 设备注册到服务端 - 需要 ak 和 sk
if BasicConfig.ak and BasicConfig.sk: if BasicConfig.ak and BasicConfig.sk:
print_status("开始注册设备到服务端...", "info") # print_status("开始注册设备到服务端...", "info")
try: try:
register_devices_and_resources(lab_registry) register_devices_and_resources(lab_registry)
print_status("设备注册完成", "info") # print_status("设备注册完成", "info")
except Exception as e: except Exception as e:
print_status(f"设备注册失败: {e}", "error") print_status(f"设备注册失败: {e}", "error")
else: else:
@@ -482,7 +596,7 @@ def main():
continue continue
# 如果从远端获取了物料信息,则与本地物料进行同步 # 如果从远端获取了物料信息,则与本地物料进行同步
if request_startup_json and "nodes" in request_startup_json: if file_path is not None and request_startup_json and "nodes" in request_startup_json:
print_status("开始同步远端物料到本地...", "info") print_status("开始同步远端物料到本地...", "info")
remote_tree_set = ResourceTreeSet.from_raw_dict_list(request_startup_json["nodes"]) remote_tree_set = ResourceTreeSet.from_raw_dict_list(request_startup_json["nodes"])
resource_tree_set.merge_remote_resources(remote_tree_set) resource_tree_set.merge_remote_resources(remote_tree_set)
@@ -579,6 +693,10 @@ def main():
open_browser=not args_dict["disable_browser"], open_browser=not args_dict["disable_browser"],
port=BasicConfig.port, port=BasicConfig.port,
) )
if restart_requested:
print_status("[Main] Restart requested, cleaning up...", "info")
cleanup_for_restart()
os._exit(RESTART_EXIT_CODE)
if __name__ == "__main__": if __name__ == "__main__":

63
unilabos/app/register.py
View File

@@ -1,60 +1,83 @@
import json import json
import time import time
from typing import Optional, Tuple, Dict, Any from typing import Any, Dict, Optional, Tuple
from unilabos.utils.log import logger from unilabos.utils.log import logger
from unilabos.utils.type_check import TypeEncoder from unilabos.utils.type_check import TypeEncoder
try:
import orjson
def _normalize_device(info: dict) -> dict:
"""Serialize via orjson to strip non-JSON types (type objects etc.)."""
return orjson.loads(orjson.dumps(info, default=str))
except ImportError:
def _normalize_device(info: dict) -> dict:
return json.loads(json.dumps(info, ensure_ascii=False, cls=TypeEncoder))
def register_devices_and_resources(lab_registry, gather_only=False) -> Optional[Tuple[Dict[str, Any], Dict[str, Any]]]: def register_devices_and_resources(lab_registry, gather_only=False) -> Optional[Tuple[Dict[str, Any], Dict[str, Any]]]:
""" """
注册设备和资源到服务器仅支持HTTP 注册设备和资源到服务器仅支持HTTP
""" """
# 注册资源信息 - 使用HTTP方式
from unilabos.app.web.client import http_client from unilabos.app.web.client import http_client
logger.info("[UniLab Register] 开始注册设备和资源...") logger.info("[UniLab Register] 开始注册设备和资源...")
# 注册设备信息
devices_to_register = {} devices_to_register = {}
for device_info in lab_registry.obtain_registry_device_info(): for device_info in lab_registry.obtain_registry_device_info():
devices_to_register[device_info["id"]] = json.loads( devices_to_register[device_info["id"]] = _normalize_device(device_info)
json.dumps(device_info, ensure_ascii=False, cls=TypeEncoder) logger.trace(f"[UniLab Register] 收集设备: {device_info['id']}")
)
logger.debug(f"[UniLab Register] 收集设备: {device_info['id']}")
resources_to_register = {} resources_to_register = {}
for resource_info in lab_registry.obtain_registry_resource_info(): for resource_info in lab_registry.obtain_registry_resource_info():
resources_to_register[resource_info["id"]] = resource_info resources_to_register[resource_info["id"]] = resource_info
logger.debug(f"[UniLab Register] 收集资源: {resource_info['id']}") logger.trace(f"[UniLab Register] 收集资源: {resource_info['id']}")
if gather_only: if gather_only:
return devices_to_register, resources_to_register return devices_to_register, resources_to_register
# 注册设备
if devices_to_register: if devices_to_register:
try: try:
start_time = time.time() start_time = time.time()
response = http_client.resource_registry({"resources": list(devices_to_register.values())}) response = http_client.resource_registry(
{"resources": list(devices_to_register.values())},
tag="device_registry",
)
cost_time = time.time() - start_time cost_time = time.time() - start_time
if response.status_code in [200, 201]: res_data = response.json() if response.status_code == 200 else {}
logger.info(f"[UniLab Register] 成功注册 {len(devices_to_register)} 个设备 {cost_time}s") skipped = res_data.get("data", {}).get("skipped", False)
if skipped:
logger.info(
f"[UniLab Register] 设备注册跳过(内容未变化)"
f" {len(devices_to_register)}{cost_time:.3f}s"
)
elif response.status_code in [200, 201]:
logger.info(f"[UniLab Register] 成功注册 {len(devices_to_register)} 个设备 {cost_time:.3f}s")
else: else:
logger.error(f"[UniLab Register] 设备注册失败: {response.status_code}, {response.text} {cost_time}s") logger.error(f"[UniLab Register] 设备注册失败: {response.status_code}, {response.text} {cost_time:.3f}s")
except Exception as e: except Exception as e:
logger.error(f"[UniLab Register] 设备注册异常: {e}") logger.error(f"[UniLab Register] 设备注册异常: {e}")
# 注册资源
if resources_to_register: if resources_to_register:
try: try:
start_time = time.time() start_time = time.time()
response = http_client.resource_registry({"resources": list(resources_to_register.values())}) response = http_client.resource_registry(
{"resources": list(resources_to_register.values())},
tag="resource_registry",
)
cost_time = time.time() - start_time cost_time = time.time() - start_time
if response.status_code in [200, 201]: res_data = response.json() if response.status_code == 200 else {}
logger.info(f"[UniLab Register] 成功注册 {len(resources_to_register)} 个资源 {cost_time}s") skipped = res_data.get("data", {}).get("skipped", False)
if skipped:
logger.info(
f"[UniLab Register] 资源注册跳过(内容未变化)"
f" {len(resources_to_register)}{cost_time:.3f}s"
)
elif response.status_code in [200, 201]:
logger.info(f"[UniLab Register] 成功注册 {len(resources_to_register)} 个资源 {cost_time:.3f}s")
else: else:
logger.error(f"[UniLab Register] 资源注册失败: {response.status_code}, {response.text} {cost_time}s") logger.error(f"[UniLab Register] 资源注册失败: {response.status_code}, {response.text} {cost_time:.3f}s")
except Exception as e: except Exception as e:
logger.error(f"[UniLab Register] 资源注册异常: {e}") logger.error(f"[UniLab Register] 资源注册异常: {e}")
logger.info("[UniLab Register] 设备和资源注册完成.")

2
unilabos/app/web/api.py
View File

@@ -1052,7 +1052,7 @@ async def handle_file_import(websocket: WebSocket, request_data: dict):
"result": {}, "result": {},
"schema": lab_registry._generate_unilab_json_command_schema(v["args"], k), "schema": lab_registry._generate_unilab_json_command_schema(v["args"], k),
"goal_default": {i["name"]: i["default"] for i in v["args"]}, "goal_default": {i["name"]: i["default"] for i in v["args"]},
"handles": [], "handles": {},
} }
# 不生成已配置action的动作 # 不生成已配置action的动作
for k, v in enhanced_info["action_methods"].items() for k, v in enhanced_info["action_methods"].items()

62
unilabos/app/web/client.py
View File

@@ -8,6 +8,25 @@ import json
import os import os
from typing import List, Dict, Any, Optional from typing import List, Dict, Any, Optional
try:
import orjson as _json_fast
def _fast_dumps(obj, **kwargs) -> bytes:
return _json_fast.dumps(obj, option=_json_fast.OPT_NON_STR_KEYS, default=str)
def _fast_dumps_pretty(obj, **kwargs) -> bytes:
return _json_fast.dumps(
obj, option=_json_fast.OPT_NON_STR_KEYS | _json_fast.OPT_INDENT_2, default=str,
)
except ImportError:
_json_fast = None # type: ignore[assignment]
def _fast_dumps(obj, **kwargs) -> bytes:
return json.dumps(obj, ensure_ascii=False, default=str).encode("utf-8")
def _fast_dumps_pretty(obj, **kwargs) -> bytes:
return json.dumps(obj, indent=2, ensure_ascii=False, default=str).encode("utf-8")
import requests import requests
from unilabos.resources.resource_tracker import ResourceTreeSet from unilabos.resources.resource_tracker import ResourceTreeSet
from unilabos.utils.log import info from unilabos.utils.log import info
@@ -280,29 +299,54 @@ class HTTPClient:
) )
return response return response
def resource_registry(self, registry_data: Dict[str, Any] | List[Dict[str, Any]]) -> requests.Response: def resource_registry(
self, registry_data: Dict[str, Any] | List[Dict[str, Any]], tag: str = "registry",
) -> requests.Response:
""" """
注册资源到服务器 注册资源到服务器,同步保存请求/响应到 unilabos_data
Args: Args:
registry_data: 注册表数据,格式为 {resource_id: resource_info} / [{resource_info}] registry_data: 注册表数据,格式为 {resource_id: resource_info} / [{resource_info}]
tag: 保存文件的标签后缀 (如 "device_registry" / "resource_registry")
Returns: Returns:
Response: API响应对象 Response: API响应对象
""" """
compressed_body = gzip.compress( # 序列化一次,同时用于保存和发送
json.dumps(registry_data, ensure_ascii=False, default=str).encode("utf-8") json_bytes = _fast_dumps(registry_data)
)
response = requests.post( # 保存请求数据到 unilabos_data
f"{self.remote_addr}/lab/resource", req_path = os.path.join(BasicConfig.working_dir, f"req_{tag}_upload.json")
data=compressed_body, try:
os.makedirs(BasicConfig.working_dir, exist_ok=True)
with open(req_path, "wb") as f:
f.write(_fast_dumps_pretty(registry_data))
logger.trace(f"注册表请求数据已保存: {req_path}")
except Exception as e:
logger.warning(f"保存注册表请求数据失败: {e}")
compressed_body = gzip.compress(json_bytes)
headers = { headers = {
"Authorization": f"Lab {self.auth}", "Authorization": f"Lab {self.auth}",
"Content-Type": "application/json", "Content-Type": "application/json",
"Content-Encoding": "gzip", "Content-Encoding": "gzip",
}, }
response = requests.post(
f"{self.remote_addr}/lab/resource",
data=compressed_body,
headers=headers,
timeout=30, timeout=30,
) )
# 保存响应数据到 unilabos_data
res_path = os.path.join(BasicConfig.working_dir, f"res_{tag}_upload.json")
try:
with open(res_path, "w", encoding="utf-8") as f:
f.write(f"{response.status_code}\n{response.text}")
logger.trace(f"注册表响应数据已保存: {res_path}")
except Exception as e:
logger.warning(f"保存注册表响应数据失败: {e}")
if response.status_code not in [200, 201]: if response.status_code not in [200, 201]:
logger.error(f"注册资源失败: {response.status_code}, {response.text}") logger.error(f"注册资源失败: {response.status_code}, {response.text}")
if response.status_code == 200: if response.status_code == 200:

4
unilabos/app/web/server.py
View File

@@ -86,7 +86,7 @@ def setup_server() -> FastAPI:
# 设置页面路由 # 设置页面路由
try: try:
setup_web_pages(pages) setup_web_pages(pages)
info("[Web] 已加载Web UI模块") # info("[Web] 已加载Web UI模块")
except ImportError as e: except ImportError as e:
info(f"[Web] 未找到Web页面模块: {str(e)}") info(f"[Web] 未找到Web页面模块: {str(e)}")
except Exception as e: except Exception as e:
@@ -138,7 +138,7 @@ def start_server(host: str = "0.0.0.0", port: int = 8002, open_browser: bool = T
server_thread = threading.Thread(target=server.run, daemon=True, name="uvicorn_server") server_thread = threading.Thread(target=server.run, daemon=True, name="uvicorn_server")
server_thread.start() server_thread.start()
info("[Web] Server started, monitoring for restart requests...") # info("[Web] Server started, monitoring for restart requests...")
# 监控重启标志 # 监控重启标志
import unilabos.app.main as main_module import unilabos.app.main as main_module

64
unilabos/app/ws_client.py
View File

@@ -26,6 +26,7 @@ from enum import Enum
from typing_extensions import TypedDict from typing_extensions import TypedDict
from unilabos.app.model import JobAddReq from unilabos.app.model import JobAddReq
from unilabos.resources.resource_tracker import ResourceDictType
from unilabos.ros.nodes.presets.host_node import HostNode from unilabos.ros.nodes.presets.host_node import HostNode
from unilabos.utils.type_check import serialize_result_info from unilabos.utils.type_check import serialize_result_info
from unilabos.app.communication import BaseCommunicationClient from unilabos.app.communication import BaseCommunicationClient
@@ -408,6 +409,7 @@ class MessageProcessor:
# 线程控制 # 线程控制
self.is_running = False self.is_running = False
self.thread = None self.thread = None
self._loop = None # asyncio event loop引用用于外部关闭websocket
self.reconnect_count = 0 self.reconnect_count = 0
logger.info(f"[MessageProcessor] Initialized for URL: {websocket_url}") logger.info(f"[MessageProcessor] Initialized for URL: {websocket_url}")
@@ -434,22 +436,31 @@ class MessageProcessor:
def stop(self) -> None: def stop(self) -> None:
"""停止消息处理线程""" """停止消息处理线程"""
self.is_running = False self.is_running = False
# 主动关闭websocket以快速中断消息接收循环
ws = self.websocket
loop = self._loop
if ws and loop and loop.is_running():
try:
asyncio.run_coroutine_threadsafe(ws.close(), loop)
except Exception:
pass
if self.thread and self.thread.is_alive(): if self.thread and self.thread.is_alive():
self.thread.join(timeout=2) self.thread.join(timeout=2)
logger.info("[MessageProcessor] Stopped") logger.info("[MessageProcessor] Stopped")
def _run(self): def _run(self):
"""运行消息处理主循环""" """运行消息处理主循环"""
loop = asyncio.new_event_loop() self._loop = asyncio.new_event_loop()
try: try:
asyncio.set_event_loop(loop) asyncio.set_event_loop(self._loop)
loop.run_until_complete(self._connection_handler()) self._loop.run_until_complete(self._connection_handler())
except Exception as e: except Exception as e:
logger.error(f"[MessageProcessor] Thread error: {str(e)}") logger.error(f"[MessageProcessor] Thread error: {str(e)}")
logger.error(traceback.format_exc()) logger.error(traceback.format_exc())
finally: finally:
if loop: if self._loop:
loop.close() self._loop.close()
self._loop = None
async def _connection_handler(self): async def _connection_handler(self):
"""处理WebSocket连接和重连逻辑""" """处理WebSocket连接和重连逻辑"""
@@ -648,6 +659,10 @@ class MessageProcessor:
# elif message_type == "session_id": # elif message_type == "session_id":
# self.session_id = message_data.get("session_id") # self.session_id = message_data.get("session_id")
# logger.info(f"[MessageProcessor] Session ID: {self.session_id}") # logger.info(f"[MessageProcessor] Session ID: {self.session_id}")
elif message_type == "add_device":
await self._handle_device_manage(message_data, "add")
elif message_type == "remove_device":
await self._handle_device_manage(message_data, "remove")
elif message_type == "request_restart": elif message_type == "request_restart":
await self._handle_request_restart(message_data) await self._handle_request_restart(message_data)
else: else:
@@ -984,6 +999,37 @@ class MessageProcessor:
) )
thread.start() thread.start()
async def _handle_device_manage(self, device_list: list[ResourceDictType], action: str):
"""Handle add_device / remove_device from LabGo server."""
if not device_list:
return
for item in device_list:
target_node_id = item.get("target_node_id", "host_node")
def _notify(target_id: str, act: str, cfg: ResourceDictType):
try:
host_node = HostNode.get_instance(timeout=5)
if not host_node:
logger.error(f"[DeviceManage] HostNode not available for {act}_device")
return
success = host_node.notify_device_manage(target_id, act, cfg)
if success:
logger.info(f"[DeviceManage] {act}_device completed on {target_id}")
else:
logger.warning(f"[DeviceManage] {act}_device failed on {target_id}")
except Exception as e:
logger.error(f"[DeviceManage] Error in {act}_device: {e}")
logger.error(traceback.format_exc())
thread = threading.Thread(
target=_notify,
args=(target_node_id, action, item),
daemon=True,
name=f"DeviceManage-{action}-{item.get('id', '')}",
)
thread.start()
async def _handle_request_restart(self, data: Dict[str, Any]): async def _handle_request_restart(self, data: Dict[str, Any]):
""" """
处理重启请求 处理重启请求
@@ -995,8 +1041,7 @@ class MessageProcessor:
logger.info(f"[MessageProcessor] Received restart request, reason: {reason}, delay: {delay}s") logger.info(f"[MessageProcessor] Received restart request, reason: {reason}, delay: {delay}s")
# 发送确认消息 # 发送确认消息
if self.websocket_client: self.send_message(
await self.websocket_client.send_message(
{"action": "restart_acknowledged", "data": {"reason": reason, "delay": delay}} {"action": "restart_acknowledged", "data": {"reason": reason, "delay": delay}}
) )
@@ -1100,6 +1145,7 @@ class QueueProcessor:
def stop(self) -> None: def stop(self) -> None:
"""停止队列处理线程""" """停止队列处理线程"""
self.is_running = False self.is_running = False
self.queue_update_event.set() # 立即唤醒等待中的线程
if self.thread and self.thread.is_alive(): if self.thread and self.thread.is_alive():
self.thread.join(timeout=2) self.thread.join(timeout=2)
logger.info("[QueueProcessor] Stopped") logger.info("[QueueProcessor] Stopped")
@@ -1353,8 +1399,8 @@ class WebSocketClient(BaseCommunicationClient):
message = {"action": "normal_exit", "data": {"session_id": session_id}} message = {"action": "normal_exit", "data": {"session_id": session_id}}
self.message_processor.send_message(message) self.message_processor.send_message(message)
logger.info(f"[WebSocketClient] Sent normal_exit message with session_id: {session_id}") logger.info(f"[WebSocketClient] Sent normal_exit message with session_id: {session_id}")
# 给一点时间让消息发送出去 # send_handler 每100ms检查一次队列等300ms足以让消息发
time.sleep(1) time.sleep(0.3)
except Exception as e: except Exception as e:
logger.warning(f"[WebSocketClient] Failed to send normal_exit message: {str(e)}") logger.warning(f"[WebSocketClient] Failed to send normal_exit message: {str(e)}")

1
unilabos/config/config.py
View File

@@ -24,6 +24,7 @@ class BasicConfig:
port = 8002 # 本地HTTP服务 port = 8002 # 本地HTTP服务
check_mode = False # CI 检查模式,用于验证 registry 导入和文件一致性 check_mode = False # CI 检查模式,用于验证 registry 导入和文件一致性
test_mode = False # 测试模式,所有动作不实际执行,返回模拟结果 test_mode = False # 测试模式,所有动作不实际执行,返回模拟结果
extra_resource = False # 是否加载lab_开头的额外资源
# 'TRACE', 'DEBUG', 'INFO', 'WARNING', 'ERROR', 'CRITICAL' # 'TRACE', 'DEBUG', 'INFO', 'WARNING', 'ERROR', 'CRITICAL'
log_level: Literal["TRACE", "DEBUG", "INFO", "WARNING", "ERROR", "CRITICAL"] = "DEBUG" log_level: Literal["TRACE", "DEBUG", "INFO", "WARNING", "ERROR", "CRITICAL"] = "DEBUG"

1
unilabos/device_comms/universal_driver.py
View File

@@ -1,4 +1,3 @@
from abc import abstractmethod from abc import abstractmethod
from functools import wraps from functools import wraps
import inspect import inspect

351
unilabos/devices/virtual/workbench.py
View File

@@ -1,15 +1,15 @@
""" """
Virtual Workbench Device - 模拟工作台设备 Virtual Workbench Device - 模拟工作台设备
包含 包含:
- 1个机械臂 (每次操作3s, 独占锁) - 1个机械臂 (每次操作3s, 独占锁)
- 3个加热台 (每次加热10s, 可并行) - 3个加热台 (每次加热10s, 可并行)
工作流程 工作流程:
1. A1-A5 物料同时启动竞争机械臂 1. A1-A5 物料同时启动, 竞争机械臂
2. 机械臂将物料移动到空闲加热台 2. 机械臂将物料移动到空闲加热台
3. 加热完成后机械臂将物料移动到C1-C5 3. 加热完成后, 机械臂将物料移动到C1-C5
注意调用来自线程池使用 threading.Lock 进行同步 注意: 调用来自线程池, 使用 threading.Lock 进行同步
""" """
import logging import logging
@@ -21,9 +21,11 @@ from threading import Lock, RLock
from typing_extensions import TypedDict from typing_extensions import TypedDict
from unilabos.registry.decorators import (
device, action, ActionInputHandle, ActionOutputHandle, DataSource, topic_config, not_action
)
from unilabos.ros.nodes.base_device_node import BaseROS2DeviceNode from unilabos.ros.nodes.base_device_node import BaseROS2DeviceNode
from unilabos.utils.decorator import not_action, always_free from unilabos.resources.resource_tracker import SampleUUIDsType, LabSample
from unilabos.resources.resource_tracker import SampleUUIDsType, LabSample, RETURN_UNILABOS_SAMPLES
# ============ TypedDict 返回类型定义 ============ # ============ TypedDict 返回类型定义 ============
@@ -57,6 +59,8 @@ class MoveToOutputResult(TypedDict):
success: bool success: bool
station_id: int station_id: int
material_id: str material_id: str
output_position: str
message: str
unilabos_samples: List[LabSample] unilabos_samples: List[LabSample]
@@ -81,9 +85,9 @@ class HeatingStationState(Enum):
"""加热台状态枚举""" """加热台状态枚举"""
IDLE = "idle" # 空闲 IDLE = "idle" # 空闲
OCCUPIED = "occupied" # 已放置物料等待加热 OCCUPIED = "occupied" # 已放置物料, 等待加热
HEATING = "heating" # 加热中 HEATING = "heating" # 加热中
COMPLETED = "completed" # 加热完成等待取走 COMPLETED = "completed" # 加热完成, 等待取走
class ArmState(Enum): class ArmState(Enum):
@@ -105,19 +109,24 @@ class HeatingStation:
heating_progress: float = 0.0 heating_progress: float = 0.0
@device(
id="virtual_workbench",
category=["virtual_device"],
description="Virtual Workbench with 1 robotic arm and 3 heating stations for concurrent material processing",
)
class VirtualWorkbench: class VirtualWorkbench:
""" """
Virtual Workbench Device - 虚拟工作台设备 Virtual Workbench Device - 虚拟工作台设备
模拟一个包含1个机械臂和3个加热台的工作站 模拟一个包含1个机械臂和3个加热台的工作站
- 机械臂操作耗时3秒同一时间只能执行一个操作 - 机械臂操作耗时3秒, 同一时间只能执行一个操作
- 加热台加热耗时10秒3个加热台可并行工作 - 加热台加热耗时10秒, 3个加热台可并行工作
工作流: 工作流:
1. 物料A1-A5并发启动线程池竞争机械臂使用权 1. 物料A1-A5并发启动(线程池), 竞争机械臂使用权
2. 获取机械臂后查找空闲加热台 2. 获取机械臂后, 查找空闲加热台
3. 机械臂将物料放入加热台开始加热 3. 机械臂将物料放入加热台, 开始加热
4. 加热完成后机械臂将物料移动到目标位置Cn 4. 加热完成后, 机械臂将物料移动到目标位置Cn
""" """
_ros_node: BaseROS2DeviceNode _ros_node: BaseROS2DeviceNode
@@ -145,19 +154,19 @@ class VirtualWorkbench:
self.HEATING_TIME = float(self.config.get("heating_time", self.HEATING_TIME)) self.HEATING_TIME = float(self.config.get("heating_time", self.HEATING_TIME))
self.NUM_HEATING_STATIONS = int(self.config.get("num_heating_stations", self.NUM_HEATING_STATIONS)) self.NUM_HEATING_STATIONS = int(self.config.get("num_heating_stations", self.NUM_HEATING_STATIONS))
# 机械臂状态和锁 (使用threading.Lock) # 机械臂状态和锁
self._arm_lock = Lock() self._arm_lock = Lock()
self._arm_state = ArmState.IDLE self._arm_state = ArmState.IDLE
self._arm_current_task: Optional[str] = None self._arm_current_task: Optional[str] = None
# 加热台状态 (station_id -> HeatingStation) - 立即初始化不依赖initialize() # 加热台状态
self._heating_stations: Dict[int, HeatingStation] = { self._heating_stations: Dict[int, HeatingStation] = {
i: HeatingStation(station_id=i) for i in range(1, self.NUM_HEATING_STATIONS + 1) i: HeatingStation(station_id=i) for i in range(1, self.NUM_HEATING_STATIONS + 1)
} }
self._stations_lock = RLock() # 可重入锁,保护加热台状态 self._stations_lock = RLock()
# 任务追踪 # 任务追踪
self._active_tasks: Dict[str, Dict[str, Any]] = {} # material_id -> task_info self._active_tasks: Dict[str, Dict[str, Any]] = {}
self._tasks_lock = Lock() self._tasks_lock = Lock()
# 处理其他kwargs参数 # 处理其他kwargs参数
@@ -183,7 +192,6 @@ class VirtualWorkbench:
"""初始化虚拟工作台""" """初始化虚拟工作台"""
self.logger.info(f"初始化虚拟工作台 {self.device_id}") self.logger.info(f"初始化虚拟工作台 {self.device_id}")
# 重置加热台状态 (已在__init__中创建这里重置为初始状态)
with self._stations_lock: with self._stations_lock:
for station in self._heating_stations.values(): for station in self._heating_stations.values():
station.state = HeatingStationState.IDLE station.state = HeatingStationState.IDLE
@@ -191,7 +199,6 @@ class VirtualWorkbench:
station.material_number = None station.material_number = None
station.heating_progress = 0.0 station.heating_progress = 0.0
# 初始化状态
self.data.update( self.data.update(
{ {
"status": "Ready", "status": "Ready",
@@ -257,11 +264,7 @@ class VirtualWorkbench:
self.data["message"] = message self.data["message"] = message
def _find_available_heating_station(self) -> Optional[int]: def _find_available_heating_station(self) -> Optional[int]:
"""查找空闲的加热台 """查找空闲的加热台"""
Returns:
空闲加热台ID如果没有则返回None
"""
with self._stations_lock: with self._stations_lock:
for station_id, station in self._heating_stations.items(): for station_id, station in self._heating_stations.items():
if station.state == HeatingStationState.IDLE: if station.state == HeatingStationState.IDLE:
@@ -269,23 +272,12 @@ class VirtualWorkbench:
return None return None
def _acquire_arm(self, task_description: str) -> bool: def _acquire_arm(self, task_description: str) -> bool:
"""获取机械臂使用权阻塞直到获取 """获取机械臂使用权(阻塞直到获取)"""
Args:
task_description: 任务描述,用于日志
Returns:
是否成功获取
"""
self.logger.info(f"[{task_description}] 等待获取机械臂...") self.logger.info(f"[{task_description}] 等待获取机械臂...")
# 阻塞等待获取锁
self._arm_lock.acquire() self._arm_lock.acquire()
self._arm_state = ArmState.BUSY self._arm_state = ArmState.BUSY
self._arm_current_task = task_description self._arm_current_task = task_description
self._update_data_status(f"机械臂执行: {task_description}") self._update_data_status(f"机械臂执行: {task_description}")
self.logger.info(f"[{task_description}] 成功获取机械臂使用权") self.logger.info(f"[{task_description}] 成功获取机械臂使用权")
return True return True
@@ -298,6 +290,22 @@ class VirtualWorkbench:
self._update_data_status(f"机械臂已释放 (完成: {task})") 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})") self.logger.info(f"机械臂已释放 (完成: {task})")
@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",
handles=[
ActionOutputHandle(key="channel_1", data_type="workbench_material",
label="实验1", data_key="material_1", data_source=DataSource.EXECUTOR),
ActionOutputHandle(key="channel_2", data_type="workbench_material",
label="实验2", data_key="material_2", data_source=DataSource.EXECUTOR),
ActionOutputHandle(key="channel_3", data_type="workbench_material",
label="实验3", data_key="material_3", data_source=DataSource.EXECUTOR),
ActionOutputHandle(key="channel_4", data_type="workbench_material",
label="实验4", data_key="material_4", data_source=DataSource.EXECUTOR),
ActionOutputHandle(key="channel_5", data_type="workbench_material",
label="实验5", data_key="material_5", data_source=DataSource.EXECUTOR),
],
)
def prepare_materials( def prepare_materials(
self, self,
sample_uuids: SampleUUIDsType, sample_uuids: SampleUUIDsType,
@@ -306,19 +314,14 @@ class VirtualWorkbench:
""" """
批量准备物料 - 虚拟起始节点 批量准备物料 - 虚拟起始节点
作为工作流的起始节点生成指定数量的物料编号供后续节点使用。 作为工作流的起始节点, 生成指定数量的物料编号供后续节点使用。
输出5个handle (material_1 ~ material_5)分别对应实验1~5。 输出5个handle (material_1 ~ material_5), 分别对应实验1~5。
Args:
count: 待生成的物料数量默认5 (生成 A1-A5)
Returns:
PrepareMaterialsResult: 包含 material_1 ~ material_5 用于传递给 move_to_heating_station
""" """
# 生成物料列表 A1 - A{count}
materials = [i for i in range(1, count + 1)] materials = [i for i in range(1, count + 1)]
self.logger.info(f"[准备物料] 生成 {count} 个物料: " f"A1-A{count} -> material_1~material_{count}") self.logger.info(
f"[准备物料] 生成 {count} 个物料: A1-A{count} -> material_1~material_{count}"
)
return { return {
"success": True, "success": True,
@@ -329,9 +332,28 @@ class VirtualWorkbench:
"material_4": materials[3] if len(materials) > 3 else 0, "material_4": materials[3] if len(materials) > 3 else 0,
"material_5": materials[4] if len(materials) > 4 else 0, "material_5": materials[4] if len(materials) > 4 else 0,
"message": f"已准备 {count} 个物料: A1-A{count}", "message": f"已准备 {count} 个物料: A1-A{count}",
"unilabos_samples": [LabSample(sample_uuid=sample_uuid, oss_path="", extra={"material_uuid": content} if isinstance(content, str) else content.serialize()) for sample_uuid, content in sample_uuids.items()] "unilabos_samples": [
LabSample(
sample_uuid=sample_uuid,
oss_path="",
extra={"material_uuid": content} if isinstance(content, str) else (content.serialize() if content else {}),
)
for sample_uuid, content in sample_uuids.items()
],
} }
@action(
auto_prefix=True,
description="将物料从An位置移动到空闲加热台, 返回分配的加热台ID",
handles=[
ActionInputHandle(key="material_input", data_type="workbench_material",
label="物料编号", data_key="material_number", data_source=DataSource.HANDLE),
ActionOutputHandle(key="heating_station_output", data_type="workbench_station",
label="加热台ID", data_key="station_id", data_source=DataSource.EXECUTOR),
ActionOutputHandle(key="material_number_output", data_type="workbench_material",
label="物料编号", data_key="material_number", data_source=DataSource.EXECUTOR),
],
)
def move_to_heating_station( def move_to_heating_station(
self, self,
sample_uuids: SampleUUIDsType, sample_uuids: SampleUUIDsType,
@@ -340,20 +362,12 @@ class VirtualWorkbench:
""" """
将物料从An位置移动到加热台 将物料从An位置移动到加热台
多线程并发调用时会竞争机械臂使用权并自动查找空闲加热台 多线程并发调用时, 会竞争机械臂使用权, 并自动查找空闲加热台
Args:
material_number: 物料编号 (1-5)
Returns:
MoveToHeatingStationResult: 包含 station_id, material_number 等用于传递给下一个节点
""" """
# 根据物料编号生成物料ID
material_id = f"A{material_number}" material_id = f"A{material_number}"
task_desc = f"移动{material_id}到加热台" task_desc = f"移动{material_id}到加热台"
self.logger.info(f"[任务] {task_desc} - 开始执行") self.logger.info(f"[任务] {task_desc} - 开始执行")
# 记录任务
with self._tasks_lock: with self._tasks_lock:
self._active_tasks[material_id] = { self._active_tasks[material_id] = {
"status": "waiting_for_arm", "status": "waiting_for_arm",
@@ -361,33 +375,27 @@ class VirtualWorkbench:
} }
try: try:
# 步骤1: 等待获取机械臂使用权(竞争)
with self._tasks_lock: with self._tasks_lock:
self._active_tasks[material_id]["status"] = "waiting_for_arm" self._active_tasks[material_id]["status"] = "waiting_for_arm"
self._acquire_arm(task_desc) self._acquire_arm(task_desc)
# 步骤2: 查找空闲加热台
with self._tasks_lock: with self._tasks_lock:
self._active_tasks[material_id]["status"] = "finding_station" self._active_tasks[material_id]["status"] = "finding_station"
station_id = None station_id = None
# 循环等待直到找到空闲加热台
while station_id is None: while station_id is None:
station_id = self._find_available_heating_station() station_id = self._find_available_heating_station()
if station_id is None: if station_id is None:
self.logger.info(f"[{material_id}] 没有空闲加热台等待中...") self.logger.info(f"[{material_id}] 没有空闲加热台, 等待中...")
# 释放机械臂,等待后重试
self._release_arm() self._release_arm()
time.sleep(0.5) time.sleep(0.5)
self._acquire_arm(task_desc) self._acquire_arm(task_desc)
# 步骤3: 占用加热台 - 立即标记为OCCUPIED防止其他任务选择同一加热台
with self._stations_lock: with self._stations_lock:
self._heating_stations[station_id].state = HeatingStationState.OCCUPIED self._heating_stations[station_id].state = HeatingStationState.OCCUPIED
self._heating_stations[station_id].current_material = material_id self._heating_stations[station_id].current_material = material_id
self._heating_stations[station_id].material_number = material_number self._heating_stations[station_id].material_number = material_number
# 步骤4: 模拟机械臂移动操作 (3秒)
with self._tasks_lock: with self._tasks_lock:
self._active_tasks[material_id]["status"] = "arm_moving" self._active_tasks[material_id]["status"] = "arm_moving"
self._active_tasks[material_id]["assigned_station"] = station_id self._active_tasks[material_id]["assigned_station"] = station_id
@@ -395,11 +403,11 @@ class VirtualWorkbench:
time.sleep(self.ARM_OPERATION_TIME) time.sleep(self.ARM_OPERATION_TIME)
# 步骤5: 放入加热台完成
self._update_data_status(f"{material_id}已放入加热台{station_id}") self._update_data_status(f"{material_id}已放入加热台{station_id}")
self.logger.info(f"[{material_id}] 已放入加热台{station_id} (用时{self.ARM_OPERATION_TIME}s)") self.logger.info(
f"[{material_id}] 已放入加热台{station_id} (用时{self.ARM_OPERATION_TIME}s)"
)
# 释放机械臂
self._release_arm() self._release_arm()
with self._tasks_lock: with self._tasks_lock:
@@ -412,8 +420,16 @@ class VirtualWorkbench:
"material_number": material_number, "material_number": material_number,
"message": f"{material_id}已成功移动到加热台{station_id}", "message": f"{material_id}已成功移动到加热台{station_id}",
"unilabos_samples": [ "unilabos_samples": [
LabSample(sample_uuid=sample_uuid, oss_path="", extra={"material_uuid": content} if isinstance(content, str) else content.serialize()) for LabSample(
sample_uuid, content in sample_uuids.items()] sample_uuid=sample_uuid,
oss_path="",
extra=(
{"material_uuid": content}
if isinstance(content, str) else (content.serialize() if content else {})
),
)
for sample_uuid, content in sample_uuids.items()
],
} }
except Exception as e: except Exception as e:
@@ -427,11 +443,33 @@ class VirtualWorkbench:
"material_number": material_number, "material_number": material_number,
"message": f"移动失败: {str(e)}", "message": f"移动失败: {str(e)}",
"unilabos_samples": [ "unilabos_samples": [
LabSample(sample_uuid=sample_uuid, oss_path="", extra={"material_uuid": content} if isinstance(content, str) else content.serialize()) for LabSample(
sample_uuid, content in sample_uuids.items()] sample_uuid=sample_uuid,
oss_path="",
extra=(
{"material_uuid": content}
if isinstance(content, str) else (content.serialize() if content else {})
),
)
for sample_uuid, content in sample_uuids.items()
],
} }
@always_free @action(
auto_prefix=True,
always_free=True,
description="启动指定加热台的加热程序",
handles=[
ActionInputHandle(key="station_id_input", data_type="workbench_station",
label="加热台ID", data_key="station_id", data_source=DataSource.HANDLE),
ActionInputHandle(key="material_number_input", data_type="workbench_material",
label="物料编号", data_key="material_number", data_source=DataSource.HANDLE),
ActionOutputHandle(key="heating_done_station", data_type="workbench_station",
label="加热完成-加热台ID", data_key="station_id", data_source=DataSource.EXECUTOR),
ActionOutputHandle(key="heating_done_material", data_type="workbench_material",
label="加热完成-物料编号", data_key="material_number", data_source=DataSource.EXECUTOR),
],
)
def start_heating( def start_heating(
self, self,
sample_uuids: SampleUUIDsType, sample_uuids: SampleUUIDsType,
@@ -440,13 +478,6 @@ class VirtualWorkbench:
) -> StartHeatingResult: ) -> StartHeatingResult:
""" """
启动指定加热台的加热程序 启动指定加热台的加热程序
Args:
station_id: 加热台ID (1-3),从 move_to_heating_station 的 handle 传入
material_number: 物料编号,从 move_to_heating_station 的 handle 传入
Returns:
StartHeatingResult: 包含 station_id, material_number 等用于传递给下一个节点
""" """
self.logger.info(f"[加热台{station_id}] 开始加热") self.logger.info(f"[加热台{station_id}] 开始加热")
@@ -458,8 +489,16 @@ class VirtualWorkbench:
"material_number": material_number, "material_number": material_number,
"message": f"无效的加热台ID: {station_id}", "message": f"无效的加热台ID: {station_id}",
"unilabos_samples": [ "unilabos_samples": [
LabSample(sample_uuid=sample_uuid, oss_path="", extra={"material_uuid": content} if isinstance(content, str) else content.serialize()) for LabSample(
sample_uuid, content in sample_uuids.items()] sample_uuid=sample_uuid,
oss_path="",
extra=(
{"material_uuid": content}
if isinstance(content, str) else (content.serialize() if content else {})
),
)
for sample_uuid, content in sample_uuids.items()
],
} }
with self._stations_lock: with self._stations_lock:
@@ -473,8 +512,16 @@ class VirtualWorkbench:
"material_number": material_number, "material_number": material_number,
"message": f"加热台{station_id}上没有物料", "message": f"加热台{station_id}上没有物料",
"unilabos_samples": [ "unilabos_samples": [
LabSample(sample_uuid=sample_uuid, oss_path="", extra={"material_uuid": content} if isinstance(content, str) else content.serialize()) for LabSample(
sample_uuid, content in sample_uuids.items()] sample_uuid=sample_uuid,
oss_path="",
extra=(
{"material_uuid": content}
if isinstance(content, str) else (content.serialize() if content else {})
),
)
for sample_uuid, content in sample_uuids.items()
],
} }
if station.state == HeatingStationState.HEATING: if station.state == HeatingStationState.HEATING:
@@ -485,13 +532,20 @@ class VirtualWorkbench:
"material_number": material_number, "material_number": material_number,
"message": f"加热台{station_id}已经在加热中", "message": f"加热台{station_id}已经在加热中",
"unilabos_samples": [ "unilabos_samples": [
LabSample(sample_uuid=sample_uuid, oss_path="", extra={"material_uuid": content} if isinstance(content, str) else content.serialize()) for LabSample(
sample_uuid, content in sample_uuids.items()] sample_uuid=sample_uuid,
oss_path="",
extra=(
{"material_uuid": content}
if isinstance(content, str) else (content.serialize() if content else {})
),
)
for sample_uuid, content in sample_uuids.items()
],
} }
material_id = station.current_material material_id = station.current_material
# 开始加热
station.state = HeatingStationState.HEATING station.state = HeatingStationState.HEATING
station.heating_start_time = time.time() station.heating_start_time = time.time()
station.heating_progress = 0.0 station.heating_progress = 0.0
@@ -502,7 +556,6 @@ class VirtualWorkbench:
self._update_data_status(f"加热台{station_id}开始加热{material_id}") self._update_data_status(f"加热台{station_id}开始加热{material_id}")
# 打印当前所有正在加热的台位
with self._stations_lock: with self._stations_lock:
heating_list = [ heating_list = [
f"加热台{sid}:{s.current_material}" f"加热台{sid}:{s.current_material}"
@@ -511,7 +564,6 @@ class VirtualWorkbench:
] ]
self.logger.info(f"[并行加热] 当前同时加热中: {', '.join(heating_list)}") self.logger.info(f"[并行加热] 当前同时加热中: {', '.join(heating_list)}")
# 模拟加热过程
start_time = time.time() start_time = time.time()
last_countdown_log = start_time last_countdown_log = start_time
while True: while True:
@@ -524,7 +576,6 @@ class VirtualWorkbench:
self._update_data_status(f"加热台{station_id}加热中: {progress:.1f}%") self._update_data_status(f"加热台{station_id}加热中: {progress:.1f}%")
# 每5秒打印一次倒计时
if time.time() - last_countdown_log >= 5.0: if time.time() - last_countdown_log >= 5.0:
self.logger.info(f"[加热台{station_id}] {material_id} 剩余 {remaining:.1f}s") self.logger.info(f"[加热台{station_id}] {material_id} 剩余 {remaining:.1f}s")
last_countdown_log = time.time() last_countdown_log = time.time()
@@ -534,7 +585,6 @@ class VirtualWorkbench:
time.sleep(1.0) time.sleep(1.0)
# 加热完成
with self._stations_lock: with self._stations_lock:
self._heating_stations[station_id].state = HeatingStationState.COMPLETED self._heating_stations[station_id].state = HeatingStationState.COMPLETED
self._heating_stations[station_id].heating_progress = 100.0 self._heating_stations[station_id].heating_progress = 100.0
@@ -553,10 +603,28 @@ class VirtualWorkbench:
"material_number": material_number, "material_number": material_number,
"message": f"加热台{station_id}加热完成", "message": f"加热台{station_id}加热完成",
"unilabos_samples": [ "unilabos_samples": [
LabSample(sample_uuid=sample_uuid, oss_path="", extra={"material_uuid": content} if isinstance(content, str) else content.serialize()) for LabSample(
sample_uuid, content in sample_uuids.items()] sample_uuid=sample_uuid,
oss_path="",
extra=(
{"material_uuid": content}
if isinstance(content, str) else (content.serialize() if content else {})
),
)
for sample_uuid, content in sample_uuids.items()
],
} }
@action(
auto_prefix=True,
description="将物料从加热台移动到输出位置Cn",
handles=[
ActionInputHandle(key="output_station_input", data_type="workbench_station",
label="加热台ID", data_key="station_id", data_source=DataSource.HANDLE),
ActionInputHandle(key="output_material_input", data_type="workbench_material",
label="物料编号", data_key="material_number", data_source=DataSource.HANDLE),
],
)
def move_to_output( def move_to_output(
self, self,
sample_uuids: SampleUUIDsType, sample_uuids: SampleUUIDsType,
@@ -565,15 +633,8 @@ class VirtualWorkbench:
) -> MoveToOutputResult: ) -> MoveToOutputResult:
""" """
将物料从加热台移动到输出位置Cn 将物料从加热台移动到输出位置Cn
Args:
station_id: 加热台ID (1-3),从 start_heating 的 handle 传入
material_number: 物料编号,从 start_heating 的 handle 传入,用于确定输出位置 Cn
Returns:
MoveToOutputResult: 包含执行结果
""" """
output_number = material_number # 物料编号决定输出位置 output_number = material_number
if station_id not in self._heating_stations: if station_id not in self._heating_stations:
return { return {
@@ -583,8 +644,16 @@ class VirtualWorkbench:
"output_position": f"C{output_number}", "output_position": f"C{output_number}",
"message": f"无效的加热台ID: {station_id}", "message": f"无效的加热台ID: {station_id}",
"unilabos_samples": [ "unilabos_samples": [
LabSample(sample_uuid=sample_uuid, oss_path="", extra={"material_uuid": content} if isinstance(content, str) else content.serialize()) for LabSample(
sample_uuid, content in sample_uuids.items()] sample_uuid=sample_uuid,
oss_path="",
extra=(
{"material_uuid": content}
if isinstance(content, str) else (content.serialize() if content else {})
),
)
for sample_uuid, content in sample_uuids.items()
],
} }
with self._stations_lock: with self._stations_lock:
@@ -599,8 +668,16 @@ class VirtualWorkbench:
"output_position": f"C{output_number}", "output_position": f"C{output_number}",
"message": f"加热台{station_id}上没有物料", "message": f"加热台{station_id}上没有物料",
"unilabos_samples": [ "unilabos_samples": [
LabSample(sample_uuid=sample_uuid, oss_path="", extra={"material_uuid": content} if isinstance(content, str) else content.serialize()) for LabSample(
sample_uuid, content in sample_uuids.items()] sample_uuid=sample_uuid,
oss_path="",
extra=(
{"material_uuid": content}
if isinstance(content, str) else (content.serialize() if content else {})
),
)
for sample_uuid, content in sample_uuids.items()
],
} }
if station.state != HeatingStationState.COMPLETED: if station.state != HeatingStationState.COMPLETED:
@@ -611,8 +688,16 @@ class VirtualWorkbench:
"output_position": f"C{output_number}", "output_position": f"C{output_number}",
"message": f"加热台{station_id}尚未完成加热 (当前状态: {station.state.value})", "message": f"加热台{station_id}尚未完成加热 (当前状态: {station.state.value})",
"unilabos_samples": [ "unilabos_samples": [
LabSample(sample_uuid=sample_uuid, oss_path="", extra={"material_uuid": content} if isinstance(content, str) else content.serialize()) for LabSample(
sample_uuid, content in sample_uuids.items()] sample_uuid=sample_uuid,
oss_path="",
extra=(
{"material_uuid": content}
if isinstance(content, str) else (content.serialize() if content else {})
),
)
for sample_uuid, content in sample_uuids.items()
],
} }
output_position = f"C{output_number}" output_position = f"C{output_number}"
@@ -624,18 +709,17 @@ class VirtualWorkbench:
if material_id in self._active_tasks: if material_id in self._active_tasks:
self._active_tasks[material_id]["status"] = "waiting_for_arm_output" self._active_tasks[material_id]["status"] = "waiting_for_arm_output"
# 获取机械臂
self._acquire_arm(task_desc) self._acquire_arm(task_desc)
with self._tasks_lock: with self._tasks_lock:
if material_id in self._active_tasks: if material_id in self._active_tasks:
self._active_tasks[material_id]["status"] = "arm_moving_to_output" self._active_tasks[material_id]["status"] = "arm_moving_to_output"
# 模拟机械臂操作 (3秒) self.logger.info(
self.logger.info(f"[{material_id}] 机械臂正在从加热台{station_id}取出并移动到{output_position}...") f"[{material_id}] 机械臂正在从加热台{station_id}取出并移动到{output_position}..."
)
time.sleep(self.ARM_OPERATION_TIME) time.sleep(self.ARM_OPERATION_TIME)
# 清空加热台
with self._stations_lock: with self._stations_lock:
self._heating_stations[station_id].state = HeatingStationState.IDLE self._heating_stations[station_id].state = HeatingStationState.IDLE
self._heating_stations[station_id].current_material = None self._heating_stations[station_id].current_material = None
@@ -643,17 +727,17 @@ class VirtualWorkbench:
self._heating_stations[station_id].heating_progress = 0.0 self._heating_stations[station_id].heating_progress = 0.0
self._heating_stations[station_id].heating_start_time = None self._heating_stations[station_id].heating_start_time = None
# 释放机械臂
self._release_arm() self._release_arm()
# 任务完成
with self._tasks_lock: with self._tasks_lock:
if material_id in self._active_tasks: if material_id in self._active_tasks:
self._active_tasks[material_id]["status"] = "completed" self._active_tasks[material_id]["status"] = "completed"
self._active_tasks[material_id]["end_time"] = time.time() self._active_tasks[material_id]["end_time"] = time.time()
self._update_data_status(f"{material_id}已移动到{output_position}") self._update_data_status(f"{material_id}已移动到{output_position}")
self.logger.info(f"[{material_id}] 已成功移动到{output_position} (用时{self.ARM_OPERATION_TIME}s)") self.logger.info(
f"[{material_id}] 已成功移动到{output_position} (用时{self.ARM_OPERATION_TIME}s)"
)
return { return {
"success": True, "success": True,
@@ -662,8 +746,17 @@ class VirtualWorkbench:
"output_position": output_position, "output_position": output_position,
"message": f"{material_id}已成功移动到{output_position}", "message": f"{material_id}已成功移动到{output_position}",
"unilabos_samples": [ "unilabos_samples": [
LabSample(sample_uuid=sample_uuid, oss_path="", extra={"material_uuid": content} if isinstance(content, str) else content.serialize()) for LabSample(
sample_uuid, content in sample_uuids.items()] sample_uuid=sample_uuid,
oss_path="",
extra=(
{"material_uuid": content}
if isinstance(content, str)
else (content.serialize() if content is not None else {})
),
)
for sample_uuid, content in sample_uuids.items()
],
} }
except Exception as e: except Exception as e:
@@ -677,83 +770,105 @@ class VirtualWorkbench:
"output_position": output_position, "output_position": output_position,
"message": f"移动失败: {str(e)}", "message": f"移动失败: {str(e)}",
"unilabos_samples": [ "unilabos_samples": [
LabSample(sample_uuid=sample_uuid, oss_path="", extra={"material_uuid": content} if isinstance(content, str) else content.serialize()) for LabSample(
sample_uuid, content in sample_uuids.items()] sample_uuid=sample_uuid,
oss_path="",
extra=(
{"material_uuid": content}
if isinstance(content, str) else (content.serialize() if content else {})
),
)
for sample_uuid, content in sample_uuids.items()
],
} }
# ============ 状态属性 ============ # ============ 状态属性 ============
@property @property
@topic_config()
def status(self) -> str: def status(self) -> str:
return self.data.get("status", "Unknown") return self.data.get("status", "Unknown")
@property @property
@topic_config()
def arm_state(self) -> str: def arm_state(self) -> str:
return self._arm_state.value return self._arm_state.value
@property @property
@topic_config()
def arm_current_task(self) -> str: def arm_current_task(self) -> str:
return self._arm_current_task or "" return self._arm_current_task or ""
@property @property
@topic_config()
def heating_station_1_state(self) -> str: def heating_station_1_state(self) -> str:
with self._stations_lock: with self._stations_lock:
station = self._heating_stations.get(1) station = self._heating_stations.get(1)
return station.state.value if station else "unknown" return station.state.value if station else "unknown"
@property @property
@topic_config()
def heating_station_1_material(self) -> str: def heating_station_1_material(self) -> str:
with self._stations_lock: with self._stations_lock:
station = self._heating_stations.get(1) station = self._heating_stations.get(1)
return station.current_material or "" if station else "" return station.current_material or "" if station else ""
@property @property
@topic_config()
def heating_station_1_progress(self) -> float: def heating_station_1_progress(self) -> float:
with self._stations_lock: with self._stations_lock:
station = self._heating_stations.get(1) station = self._heating_stations.get(1)
return station.heating_progress if station else 0.0 return station.heating_progress if station else 0.0
@property @property
@topic_config()
def heating_station_2_state(self) -> str: def heating_station_2_state(self) -> str:
with self._stations_lock: with self._stations_lock:
station = self._heating_stations.get(2) station = self._heating_stations.get(2)
return station.state.value if station else "unknown" return station.state.value if station else "unknown"
@property @property
@topic_config()
def heating_station_2_material(self) -> str: def heating_station_2_material(self) -> str:
with self._stations_lock: with self._stations_lock:
station = self._heating_stations.get(2) station = self._heating_stations.get(2)
return station.current_material or "" if station else "" return station.current_material or "" if station else ""
@property @property
@topic_config()
def heating_station_2_progress(self) -> float: def heating_station_2_progress(self) -> float:
with self._stations_lock: with self._stations_lock:
station = self._heating_stations.get(2) station = self._heating_stations.get(2)
return station.heating_progress if station else 0.0 return station.heating_progress if station else 0.0
@property @property
@topic_config()
def heating_station_3_state(self) -> str: def heating_station_3_state(self) -> str:
with self._stations_lock: with self._stations_lock:
station = self._heating_stations.get(3) station = self._heating_stations.get(3)
return station.state.value if station else "unknown" return station.state.value if station else "unknown"
@property @property
@topic_config()
def heating_station_3_material(self) -> str: def heating_station_3_material(self) -> str:
with self._stations_lock: with self._stations_lock:
station = self._heating_stations.get(3) station = self._heating_stations.get(3)
return station.current_material or "" if station else "" return station.current_material or "" if station else ""
@property @property
@topic_config()
def heating_station_3_progress(self) -> float: def heating_station_3_progress(self) -> float:
with self._stations_lock: with self._stations_lock:
station = self._heating_stations.get(3) station = self._heating_stations.get(3)
return station.heating_progress if station else 0.0 return station.heating_progress if station else 0.0
@property @property
@topic_config()
def active_tasks_count(self) -> int: def active_tasks_count(self) -> int:
with self._tasks_lock: with self._tasks_lock:
return len(self._active_tasks) return len(self._active_tasks)
@property @property
@topic_config()
def message(self) -> str: def message(self) -> str:
return self.data.get("message", "") return self.data.get("message", "")

1022
unilabos/registry/ast_registry_scanner.py Normal file
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614
unilabos/registry/decorators.py Normal file
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@@ -0,0 +1,614 @@
"""
装饰器注册表系统
通过 @device, @action, @resource 装饰器替代 YAML 配置文件来定义设备/动作/资源注册表信息。
Usage:
from unilabos.registry.decorators import (
device, action, resource,
InputHandle, OutputHandle,
ActionInputHandle, ActionOutputHandle,
HardwareInterface, Side, DataSource,
)
@device(
id="solenoid_valve.mock",
category=["pump_and_valve"],
description="模拟电磁阀设备",
handles=[
InputHandle(key="in", data_type="fluid", label="in", side=Side.NORTH),
OutputHandle(key="out", data_type="fluid", label="out", side=Side.SOUTH),
],
hardware_interface=HardwareInterface(
name="hardware_interface",
read="send_command",
write="send_command",
),
)
class SolenoidValveMock:
@action(action_type=EmptyIn)
def close(self):
...
@action(
handles=[
ActionInputHandle(key="in", data_type="fluid", label="in"),
ActionOutputHandle(key="out", data_type="fluid", label="out"),
],
)
def set_valve_position(self, position):
...
# 无 @action 装饰器 => auto- 前缀动作
def is_open(self):
...
"""
from enum import Enum
from functools import wraps
from typing import Any, Callable, Dict, List, Optional, TypeVar
from pydantic import BaseModel, ConfigDict, Field
F = TypeVar("F", bound=Callable[..., Any])
# ---------------------------------------------------------------------------
# 枚举
# ---------------------------------------------------------------------------
class Side(str, Enum):
"""UI 上 Handle 的显示位置"""
NORTH = "NORTH"
SOUTH = "SOUTH"
EAST = "EAST"
WEST = "WEST"
class DataSource(str, Enum):
"""Handle 的数据来源"""
HANDLE = "handle" # 从上游 handle 获取数据 (用于 InputHandle)
EXECUTOR = "executor" # 从执行器输出数据 (用于 OutputHandle)
# ---------------------------------------------------------------------------
# Device / Resource Handle (设备/资源级别端口, 序列化时包含 io_type)
# ---------------------------------------------------------------------------
class _DeviceHandleBase(BaseModel):
"""设备/资源端口基类 (内部使用)"""
model_config = ConfigDict(populate_by_name=True)
key: str = Field(serialization_alias="handler_key")
data_type: str
label: str
side: Optional[Side] = None
data_key: Optional[str] = None
data_source: Optional[str] = None
description: Optional[str] = None
# 子类覆盖
io_type: str = ""
def to_registry_dict(self) -> Dict[str, Any]:
return self.model_dump(by_alias=True, exclude_none=True)
class InputHandle(_DeviceHandleBase):
"""
输入端口 (io_type="target"), 用于 @device / @resource handles
Example:
InputHandle(key="in", data_type="fluid", label="in", side=Side.NORTH)
"""
io_type: str = "target"
class OutputHandle(_DeviceHandleBase):
"""
输出端口 (io_type="source"), 用于 @device / @resource handles
Example:
OutputHandle(key="out", data_type="fluid", label="out", side=Side.SOUTH)
"""
io_type: str = "source"
# ---------------------------------------------------------------------------
# Action Handle (动作级别端口, 序列化时不含 io_type, 按类型自动分组)
# ---------------------------------------------------------------------------
class _ActionHandleBase(BaseModel):
"""动作端口基类 (内部使用)"""
model_config = ConfigDict(populate_by_name=True)
key: str = Field(serialization_alias="handler_key")
data_type: str
label: str
side: Optional[Side] = None
data_key: Optional[str] = None
data_source: Optional[str] = None
description: Optional[str] = None
io_type: Optional[str] = None # source/sink (dataflow) or target/source (device-style)
def to_registry_dict(self) -> Dict[str, Any]:
return self.model_dump(by_alias=True, exclude_none=True)
class ActionInputHandle(_ActionHandleBase):
"""
动作输入端口, 用于 @action handles, 序列化后归入 "input"
Example:
ActionInputHandle(
key="material_input", data_type="workbench_material",
label="物料编号", data_key="material_number", data_source="handle",
)
"""
pass
class ActionOutputHandle(_ActionHandleBase):
"""
动作输出端口, 用于 @action handles, 序列化后归入 "output"
Example:
ActionOutputHandle(
key="station_output", data_type="workbench_station",
label="加热台ID", data_key="station_id", data_source="executor",
)
"""
pass
# ---------------------------------------------------------------------------
# HardwareInterface
# ---------------------------------------------------------------------------
class HardwareInterface(BaseModel):
"""
硬件通信接口定义
描述设备与底层硬件通信的方式 (串口、Modbus 等)。
Example:
HardwareInterface(name="hardware_interface", read="send_command", write="send_command")
"""
name: str
read: Optional[str] = None
write: Optional[str] = None
extra_info: Optional[List[str]] = None
# ---------------------------------------------------------------------------
# 全局注册表 -- 记录所有被装饰器标记的类/函数
# ---------------------------------------------------------------------------
_registered_devices: Dict[str, type] = {} # device_id -> class
_registered_resources: Dict[str, Any] = {} # resource_id -> class or function
def _device_handles_to_list(
handles: Optional[List[_DeviceHandleBase]],
) -> List[Dict[str, Any]]:
"""将设备/资源 Handle 列表序列化为字典列表 (含 io_type)"""
if handles is None:
return []
return [h.to_registry_dict() for h in handles]
def _action_handles_to_dict(
handles: Optional[List[_ActionHandleBase]],
) -> Dict[str, Any]:
"""
将动作 Handle 列表序列化为 {"input": [...], "output": [...]} 格式。
ActionInputHandle => "input", ActionOutputHandle => "output"
"""
if handles is None:
return {}
input_list = [h.to_registry_dict() for h in handles if isinstance(h, ActionInputHandle)]
output_list = [h.to_registry_dict() for h in handles if isinstance(h, ActionOutputHandle)]
result: Dict[str, Any] = {}
if input_list:
result["input"] = input_list
if output_list:
result["output"] = output_list
return result
# ---------------------------------------------------------------------------
# @device 类装饰器
# ---------------------------------------------------------------------------
# noinspection PyShadowingBuiltins
def device(
id: Optional[str] = None,
ids: Optional[List[str]] = None,
id_meta: Optional[Dict[str, Dict[str, Any]]] = None,
category: Optional[List[str]] = None,
description: str = "",
display_name: str = "",
icon: str = "",
version: str = "1.0.0",
handles: Optional[List[_DeviceHandleBase]] = None,
model: Optional[Dict[str, Any]] = None,
device_type: str = "python",
hardware_interface: Optional[HardwareInterface] = None,
):
"""
设备类装饰器
将类标记为一个 UniLab-OS 设备,并附加注册表元数据。
支持两种模式:
1. 单设备: id="xxx", category=[...]
2. 多设备: ids=["id1","id2"], id_meta={"id1":{handles:[...]}, "id2":{...}}
Args:
id: 单设备时的注册表唯一标识
ids: 多设备时的 id 列表,与 id_meta 配合使用
id_meta: 每个 device_id 的覆盖元数据 (handles/description/icon/model)
category: 设备分类标签列表 (必填)
description: 设备描述
display_name: 人类可读的设备显示名称,缺失时默认使用 id
icon: 图标路径
version: 版本号
handles: 设备端口列表 (单设备或 id_meta 未覆盖时使用)
model: 可选的 3D 模型配置
device_type: 设备实现类型 ("python" / "ros2")
hardware_interface: 硬件通信接口 (HardwareInterface)
"""
# Resolve device ids
if ids is not None:
device_ids = list(ids)
if not device_ids:
raise ValueError("@device ids 不能为空")
id_meta = id_meta or {}
elif id is not None:
device_ids = [id]
id_meta = {}
else:
raise ValueError("@device 必须提供 id 或 ids")
if category is None:
raise ValueError("@device category 必填")
base_meta = {
"category": category,
"description": description,
"display_name": display_name,
"icon": icon,
"version": version,
"handles": _device_handles_to_list(handles),
"model": model,
"device_type": device_type,
"hardware_interface": (hardware_interface.model_dump(exclude_none=True) if hardware_interface else None),
}
def decorator(cls):
cls._device_registry_meta = base_meta
cls._device_registry_id_meta = id_meta
cls._device_registry_ids = device_ids
for did in device_ids:
if did in _registered_devices:
raise ValueError(f"@device id 重复: '{did}' 已被 {_registered_devices[did]} 注册")
_registered_devices[did] = cls
return cls
return decorator
# ---------------------------------------------------------------------------
# @action 方法装饰器
# ---------------------------------------------------------------------------
# 区分 "用户没传 action_type" 和 "用户传了 None"
_ACTION_TYPE_UNSET = object()
# noinspection PyShadowingNames
def action(
action_type: Any = _ACTION_TYPE_UNSET,
goal: Optional[Dict[str, str]] = None,
feedback: Optional[Dict[str, str]] = None,
result: Optional[Dict[str, str]] = None,
handles: Optional[List[_ActionHandleBase]] = None,
goal_default: Optional[Dict[str, Any]] = None,
placeholder_keys: Optional[Dict[str, str]] = None,
always_free: bool = False,
is_protocol: bool = False,
description: str = "",
auto_prefix: bool = False,
parent: bool = False,
):
"""
动作方法装饰器
标记方法为注册表动作。有三种用法:
1. @action(action_type=EmptyIn, ...) -- 非 auto, 使用指定 ROS Action 类型
2. @action() -- 非 auto, UniLabJsonCommand (从方法签名生成 schema)
3. 不加 @action -- auto- 前缀, UniLabJsonCommand
Protocol 用法:
@action(action_type=Add, is_protocol=True)
def AddProtocol(self): ...
标记该动作为高级协议 (protocol),运行时通过 ROS Action 路由到
protocol generator 执行。action_type 指向 unilabos_msgs 的 Action 类型。
Args:
action_type: ROS Action 消息类型 (如 EmptyIn, SendCmd, HeatChill).
不传/默认 = UniLabJsonCommand (非 auto).
goal: Goal 字段映射 (ROS字段名 -> 设备参数名).
protocol 模式下可留空,系统自动生成 identity 映射.
feedback: Feedback 字段映射
result: Result 字段映射
handles: 动作端口列表 (ActionInputHandle / ActionOutputHandle)
goal_default: Goal 字段默认值映射 (字段名 -> 默认值), 与自动生成的 goal_default 合并
placeholder_keys: 参数占位符配置
always_free: 是否为永久闲置动作 (不受排队限制)
is_protocol: 是否为工作站协议 (protocol)。True 时运行时走 protocol generator 路径。
description: 动作描述
auto_prefix: 若为 True动作名使用 auto-{method_name} 形式(与无 @action 时一致)
parent: 若为 True当方法参数为空 (*args, **kwargs) 时,通过 MRO 从父类获取真实方法参数
"""
def decorator(func: F) -> F:
@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
meta = {
"action_type": resolved_type,
"goal": goal or {},
"feedback": feedback or {},
"result": result or {},
"handles": _action_handles_to_dict(handles),
"goal_default": goal_default or {},
"placeholder_keys": placeholder_keys or {},
"always_free": always_free,
"is_protocol": is_protocol,
"description": description,
"auto_prefix": auto_prefix,
"parent": parent,
}
wrapper._action_registry_meta = meta # type: ignore[attr-defined]
# 设置 _is_always_free 保持与旧 @always_free 装饰器兼容
if always_free:
wrapper._is_always_free = True # type: ignore[attr-defined]
return wrapper # type: ignore[return-value]
return decorator
def get_action_meta(func) -> Optional[Dict[str, Any]]:
"""获取方法上的 @action 装饰器元数据"""
return getattr(func, "_action_registry_meta", None)
def has_action_decorator(func) -> bool:
"""检查函数是否带有 @action 装饰器"""
return hasattr(func, "_action_registry_meta")
# ---------------------------------------------------------------------------
# @resource 类/函数装饰器
# ---------------------------------------------------------------------------
def resource(
id: str,
category: List[str],
description: str = "",
icon: str = "",
version: str = "1.0.0",
handles: Optional[List[_DeviceHandleBase]] = None,
model: Optional[Dict[str, Any]] = None,
class_type: str = "pylabrobot",
):
"""
资源类/函数装饰器
将类或工厂函数标记为一个 UniLab-OS 资源,附加注册表元数据。
Args:
id: 注册表唯一标识 (必填, 不可重复)
category: 资源分类标签列表 (必填)
description: 资源描述
icon: 图标路径
version: 版本号
handles: 端口列表 (InputHandle / OutputHandle)
model: 可选的 3D 模型配置
class_type: 资源实现类型 ("python" / "pylabrobot" / "unilabos")
"""
def decorator(obj):
meta = {
"resource_id": id,
"category": category,
"description": description,
"icon": icon,
"version": version,
"handles": _device_handles_to_list(handles),
"model": model,
"class_type": class_type,
}
obj._resource_registry_meta = meta
if id in _registered_resources:
raise ValueError(f"@resource id 重复: '{id}' 已被 {_registered_resources[id]} 注册")
_registered_resources[id] = obj
return obj
return decorator
def get_device_meta(cls, device_id: Optional[str] = None) -> Optional[Dict[str, Any]]:
"""
获取类上的 @device 装饰器元数据。
当 device_id 存在且类使用 ids+id_meta 时,返回合并后的 meta
(base_meta 与 id_meta[device_id] 深度合并)。
"""
base = getattr(cls, "_device_registry_meta", None)
if base is None:
return None
id_meta = getattr(cls, "_device_registry_id_meta", None) or {}
if device_id is None or device_id not in id_meta:
result = dict(base)
ids = getattr(cls, "_device_registry_ids", None)
result["device_id"] = device_id if device_id is not None else (ids[0] if ids else None)
return result
overrides = id_meta[device_id]
result = dict(base)
result["device_id"] = device_id
for key in ["handles", "description", "icon", "model"]:
if key in overrides:
val = overrides[key]
if key == "handles" and isinstance(val, list):
# handles 必须是 Handle 对象列表
result[key] = [h.to_registry_dict() for h in val]
else:
result[key] = val
return result
def get_resource_meta(obj) -> Optional[Dict[str, Any]]:
"""获取对象上的 @resource 装饰器元数据"""
return getattr(obj, "_resource_registry_meta", None)
def get_all_registered_devices() -> Dict[str, type]:
"""获取所有已注册的设备类"""
return _registered_devices.copy()
def get_all_registered_resources() -> Dict[str, Any]:
"""获取所有已注册的资源"""
return _registered_resources.copy()
def clear_registry():
"""清空全局注册表 (用于测试)"""
_registered_devices.clear()
_registered_resources.clear()
# ---------------------------------------------------------------------------
# topic_config / not_action / always_free 装饰器
# ---------------------------------------------------------------------------
def topic_config(
period: Optional[float] = None,
print_publish: Optional[bool] = None,
qos: Optional[int] = None,
name: Optional[str] = None,
) -> Callable[[F], F]:
"""
Topic发布配置装饰器
用于装饰 get_{attr_name} 方法或 @property控制对应属性的ROS topic发布行为。
Args:
period: 发布周期。None 表示使用默认值 5.0
print_publish: 是否打印发布日志。None 表示使用节点默认配置
qos: QoS深度配置。None 表示使用默认值 10
name: 自定义发布名称。None 表示使用方法名(去掉 get_ 前缀)
Note:
与 @property 连用时,@topic_config 必须放在 @property 下面,
这样装饰器执行顺序为:先 topic_config 添加配置,再 property 包装。
"""
def decorator(func: F) -> F:
@wraps(func)
def wrapper(*args, **kwargs):
return func(*args, **kwargs)
wrapper._topic_period = period # type: ignore[attr-defined]
wrapper._topic_print_publish = print_publish # type: ignore[attr-defined]
wrapper._topic_qos = qos # type: ignore[attr-defined]
wrapper._topic_name = name # type: ignore[attr-defined]
wrapper._has_topic_config = True # type: ignore[attr-defined]
return wrapper # type: ignore[return-value]
return decorator
def get_topic_config(func) -> dict:
"""获取函数上的 topic 配置 (period, print_publish, qos, name)"""
if hasattr(func, "_has_topic_config") and getattr(func, "_has_topic_config", False):
return {
"period": getattr(func, "_topic_period", None),
"print_publish": getattr(func, "_topic_print_publish", None),
"qos": getattr(func, "_topic_qos", None),
"name": getattr(func, "_topic_name", None),
}
return {}
def always_free(func: F) -> F:
"""
标记动作为永久闲置(不受busy队列限制)的装饰器
被此装饰器标记的 action 方法,在执行时不会受到设备级别的排队限制,
任何时候请求都可以立即执行。适用于查询类、状态读取类等轻量级操作。
"""
@wraps(func)
def wrapper(*args, **kwargs):
return func(*args, **kwargs)
wrapper._is_always_free = True # type: ignore[attr-defined]
return wrapper # type: ignore[return-value]
def is_always_free(func) -> bool:
"""检查函数是否被标记为永久闲置"""
return getattr(func, "_is_always_free", False)
def not_action(func: F) -> F:
"""
标记方法为非动作的装饰器
用于装饰 driver 类中的方法,使其在注册表扫描时不被识别为动作。
适用于辅助方法、内部工具方法等不应暴露为设备动作的公共方法。
"""
@wraps(func)
def wrapper(*args, **kwargs):
return func(*args, **kwargs)
wrapper._is_not_action = True # type: ignore[attr-defined]
return wrapper # type: ignore[return-value]
def is_not_action(func) -> bool:
"""检查函数是否被标记为非动作"""
return getattr(func, "_is_not_action", False)

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"""
注册表工具函数
从 registry.py 中提取的纯工具函数,包括:
- docstring 解析
- 类型字符串 → JSON Schema 转换
- AST 类型节点解析
- TypedDict / Slot / Handle 等辅助检测
"""
import inspect
import logging
import re
import typing
from typing import Any, Dict, List, Optional, Tuple, Union
from msgcenterpy.instances.typed_dict_instance import TypedDictMessageInstance
from unilabos.utils.cls_creator import import_class
_logger = logging.getLogger(__name__)
# ---------------------------------------------------------------------------
# 异常
# ---------------------------------------------------------------------------
class ROSMsgNotFound(Exception):
pass
# ---------------------------------------------------------------------------
# Docstring 解析 (Google-style)
# ---------------------------------------------------------------------------
_SECTION_RE = re.compile(r"^(\w[\w\s]*):\s*$")
def parse_docstring(docstring: Optional[str]) -> Dict[str, Any]:
"""
解析 Google-style docstring提取描述和参数说明。
Returns:
{"description": "短描述", "params": {"param1": "参数1描述", ...}}
"""
result: Dict[str, Any] = {"description": "", "params": {}}
if not docstring:
return result
lines = docstring.strip().splitlines()
if not lines:
return result
result["description"] = lines[0].strip()
in_args = False
current_param: Optional[str] = None
current_desc_parts: list = []
for line in lines[1:]:
stripped = line.strip()
section_match = _SECTION_RE.match(stripped)
if section_match:
if current_param is not None:
result["params"][current_param] = "\n".join(current_desc_parts).strip()
current_param = None
current_desc_parts = []
section_name = section_match.group(1).lower()
in_args = section_name in ("args", "arguments", "parameters", "params")
continue
if not in_args:
continue
if ":" in stripped and not stripped.startswith(" "):
if current_param is not None:
result["params"][current_param] = "\n".join(current_desc_parts).strip()
param_part, _, desc_part = stripped.partition(":")
param_name = param_part.strip().split("(")[0].strip()
current_param = param_name
current_desc_parts = [desc_part.strip()]
elif current_param is not None:
aline = line
if aline.startswith(" "):
aline = aline[4:]
elif aline.startswith("\t"):
aline = aline[1:]
current_desc_parts.append(aline.strip())
if current_param is not None:
result["params"][current_param] = "\n".join(current_desc_parts).strip()
return result
# ---------------------------------------------------------------------------
# 类型常量
# ---------------------------------------------------------------------------
SIMPLE_TYPE_MAP = {
"str": "string",
"string": "string",
"int": "integer",
"integer": "integer",
"float": "number",
"number": "number",
"bool": "boolean",
"boolean": "boolean",
"list": "array",
"array": "array",
"dict": "object",
"object": "object",
}
ARRAY_TYPES = {"list", "List", "tuple", "Tuple", "set", "Set", "Sequence", "Iterable"}
OBJECT_TYPES = {"dict", "Dict", "Mapping"}
WRAPPER_TYPES = {"Optional"}
SLOT_TYPES = {"ResourceSlot", "DeviceSlot"}
# ---------------------------------------------------------------------------
# 简单类型映射
# ---------------------------------------------------------------------------
def get_json_schema_type(type_str: str) -> str:
"""简单类型名 -> JSON Schema type"""
return SIMPLE_TYPE_MAP.get(type_str.lower(), "string")
# ---------------------------------------------------------------------------
# AST 类型解析
# ---------------------------------------------------------------------------
def parse_type_node(type_str: str):
"""将类型注解字符串解析为 AST 节点,失败返回 None。"""
import ast as _ast
try:
return _ast.parse(type_str.strip(), mode="eval").body
except Exception:
return None
def _collect_bitor(node, out: list):
"""递归收集 X | Y | Z 的所有分支。"""
import ast as _ast
if isinstance(node, _ast.BinOp) and isinstance(node.op, _ast.BitOr):
_collect_bitor(node.left, out)
_collect_bitor(node.right, out)
else:
out.append(node)
def type_node_to_schema(
node,
import_map: Optional[Dict[str, str]] = None,
) -> Dict[str, Any]:
"""将 AST 类型注解节点递归转换为 JSON Schema dict。
当提供 import_map 时,对于未知类名会尝试通过 import_map 解析模块路径,
然后 import 真实类型对象来生成 schema (支持 TypedDict 等)。
映射规则:
- Optional[X] → X 的 schema (剥掉 Optional)
- Union[X, Y] → {"anyOf": [X_schema, Y_schema]}
- List[X] / Tuple[X] / Set[X] → {"type": "array", "items": X_schema}
- Dict[K, V] → {"type": "object", "additionalProperties": V_schema}
- Literal["a", "b"] → {"type": "string", "enum": ["a", "b"]}
- TypedDict (via import_map) → {"type": "object", "properties": {...}}
- 基本类型 str/int/... → {"type": "string"/"integer"/...}
"""
import ast as _ast
# --- Name 节点: str / int / dict / ResourceSlot / 自定义类 ---
if isinstance(node, _ast.Name):
name = node.id
if name in SLOT_TYPES:
return {"$slot": name}
json_type = SIMPLE_TYPE_MAP.get(name.lower())
if json_type:
return {"type": json_type}
# 尝试通过 import_map 解析并 import 真实类型
if import_map and name in import_map:
type_obj = resolve_type_object(import_map[name])
if type_obj is not None:
return type_to_schema(type_obj)
# 未知类名 → 无法转 schema 的自定义类型默认当 object
return {"type": "object"}
if isinstance(node, _ast.Constant):
if isinstance(node.value, str):
return {"type": SIMPLE_TYPE_MAP.get(node.value.lower(), "string")}
return {"type": "string"}
# --- Subscript 节点: List[X], Dict[K,V], Optional[X], Literal[...] 等 ---
if isinstance(node, _ast.Subscript):
base_name = node.value.id if isinstance(node.value, _ast.Name) else ""
# Optional[X] → 剥掉
if base_name in WRAPPER_TYPES:
return type_node_to_schema(node.slice, import_map)
# Union[X, None] → 剥掉 None; Union[X, Y] → anyOf
if base_name == "Union":
elts = node.slice.elts if isinstance(node.slice, _ast.Tuple) else [node.slice]
non_none = [
e
for e in elts
if not (isinstance(e, _ast.Constant) and e.value is None)
and not (isinstance(e, _ast.Name) and e.id == "None")
]
if len(non_none) == 1:
return type_node_to_schema(non_none[0], import_map)
if len(non_none) > 1:
return {"anyOf": [type_node_to_schema(e, import_map) for e in non_none]}
return {"type": "string"}
# Literal["a", "b", 1] → enum
if base_name == "Literal":
elts = node.slice.elts if isinstance(node.slice, _ast.Tuple) else [node.slice]
values = []
for e in elts:
if isinstance(e, _ast.Constant):
values.append(e.value)
elif isinstance(e, _ast.Name):
values.append(e.id)
if values:
return {"type": "string", "enum": values}
return {"type": "string"}
# List / Tuple / Set → array
if base_name in ARRAY_TYPES:
if isinstance(node.slice, _ast.Tuple) and node.slice.elts:
inner_node = node.slice.elts[0]
else:
inner_node = node.slice
return {"type": "array", "items": type_node_to_schema(inner_node, import_map)}
# Dict → object
if base_name in OBJECT_TYPES:
schema: Dict[str, Any] = {"type": "object"}
if isinstance(node.slice, _ast.Tuple) and len(node.slice.elts) >= 2:
val_node = node.slice.elts[1]
# Dict[str, Any] → 不加 additionalProperties (Any 等同于无约束)
is_any = (isinstance(val_node, _ast.Name) and val_node.id == "Any") or (
isinstance(val_node, _ast.Constant) and val_node.value is None
)
if not is_any:
val_schema = type_node_to_schema(val_node, import_map)
schema["additionalProperties"] = val_schema
return schema
# --- BinOp: X | Y (Python 3.10+) → 当 Union 处理 ---
if isinstance(node, _ast.BinOp) and isinstance(node.op, _ast.BitOr):
parts: list = []
_collect_bitor(node, parts)
non_none = [
p
for p in parts
if not (isinstance(p, _ast.Constant) and p.value is None)
and not (isinstance(p, _ast.Name) and p.id == "None")
]
if len(non_none) == 1:
return type_node_to_schema(non_none[0], import_map)
if len(non_none) > 1:
return {"anyOf": [type_node_to_schema(p, import_map) for p in non_none]}
return {"type": "string"}
return {"type": "string"}
# ---------------------------------------------------------------------------
# 真实类型对象解析 (import-based)
# ---------------------------------------------------------------------------
def resolve_type_object(type_ref: str) -> Optional[Any]:
"""通过 'module.path:ClassName' 格式的引用 import 并返回真实类型对象。
对于 typing 内置名 (str, int, List 等) 直接返回 None (由 AST 路径处理)。
import 失败时静默返回 None。
"""
if ":" not in type_ref:
return None
try:
return import_class(type_ref)
except Exception:
return None
def is_typed_dict_class(obj: Any) -> bool:
"""检查对象是否是 TypedDict 类。"""
if obj is None:
return False
try:
from typing_extensions import is_typeddict
return is_typeddict(obj)
except ImportError:
if isinstance(obj, type):
return hasattr(obj, "__required_keys__") and hasattr(obj, "__optional_keys__")
return False
def type_to_schema(tp: Any) -> Dict[str, Any]:
"""将真实 typing 对象递归转换为 JSON Schema dict。
支持:
- 基本类型: str, int, float, bool → {"type": "string"/"integer"/...}
- typing 泛型: List[X], Dict[K,V], Optional[X], Union[X,Y], Literal[...]
- TypedDict → {"type": "object", "properties": {...}, "required": [...]}
- 自定义类 (ResourceSlot 等) → {"$slot": "..."} 或 {"type": "string"}
"""
origin = getattr(tp, "__origin__", None)
args = getattr(tp, "__args__", None)
# --- None / NoneType ---
if tp is type(None):
return {"type": "null"}
# --- 基本类型 ---
if tp is str:
return {"type": "string"}
if tp is int:
return {"type": "integer"}
if tp is float:
return {"type": "number"}
if tp is bool:
return {"type": "boolean"}
# --- TypedDict ---
if is_typed_dict_class(tp):
try:
return TypedDictMessageInstance.get_json_schema_from_typed_dict(tp)
except Exception:
return {"type": "object"}
# --- Literal ---
if origin is typing.Literal:
values = list(args) if args else []
return {"type": "string", "enum": values}
# --- Optional / Union ---
if origin is typing.Union:
non_none = [a for a in (args or ()) if a is not type(None)]
if len(non_none) == 1:
return type_to_schema(non_none[0])
if len(non_none) > 1:
return {"anyOf": [type_to_schema(a) for a in non_none]}
return {"type": "string"}
# --- List / Sequence / Set / Tuple / Iterable ---
if origin in (list, tuple, set, frozenset) or (
origin is not None
and getattr(origin, "__name__", "") in ("Sequence", "Iterable", "Iterator", "MutableSequence")
):
if args:
return {"type": "array", "items": type_to_schema(args[0])}
return {"type": "array"}
# --- Dict / Mapping ---
if origin in (dict,) or (origin is not None and getattr(origin, "__name__", "") in ("Mapping", "MutableMapping")):
schema: Dict[str, Any] = {"type": "object"}
if args and len(args) >= 2:
schema["additionalProperties"] = type_to_schema(args[1])
return schema
# --- Slot 类型 ---
if isinstance(tp, type):
name = tp.__name__
if name in SLOT_TYPES:
return {"$slot": name}
# --- 其他未知类型 fallback ---
if isinstance(tp, type):
return {"type": "object"}
return {"type": "string"}
# ---------------------------------------------------------------------------
# Slot / Placeholder 检测
# ---------------------------------------------------------------------------
def detect_slot_type(ptype) -> Tuple[Optional[str], bool]:
"""检测参数类型是否为 ResourceSlot / DeviceSlot。
兼容多种格式:
- runtime: "unilabos.registry.placeholder_type:ResourceSlot"
- runtime tuple: ("list", "unilabos.registry.placeholder_type:ResourceSlot")
- AST 裸名: "ResourceSlot", "List[ResourceSlot]", "Optional[ResourceSlot]"
Returns: (slot_name | None, is_list)
"""
ptype_str = str(ptype)
# 快速路径: 字符串里根本没有 Slot
if "ResourceSlot" not in ptype_str and "DeviceSlot" not in ptype_str:
return (None, False)
# runtime 格式: 完整模块路径
if isinstance(ptype, str):
if ptype.endswith(":ResourceSlot") or ptype == "ResourceSlot":
return ("ResourceSlot", False)
if ptype.endswith(":DeviceSlot") or ptype == "DeviceSlot":
return ("DeviceSlot", False)
# AST 复杂格式: List[ResourceSlot], Optional[ResourceSlot] 等
if "[" in ptype:
node = parse_type_node(ptype)
if node is not None:
schema = type_node_to_schema(node)
# 直接是 slot
if "$slot" in schema:
return (schema["$slot"], False)
# array 包裹 slot: {"type": "array", "items": {"$slot": "..."}}
items = schema.get("items", {})
if isinstance(items, dict) and "$slot" in items:
return (items["$slot"], True)
return (None, False)
# runtime tuple 格式
if isinstance(ptype, tuple) and len(ptype) == 2:
inner_str = str(ptype[1])
if "ResourceSlot" in inner_str:
return ("ResourceSlot", True)
if "DeviceSlot" in inner_str:
return ("DeviceSlot", True)
return (None, False)
def detect_placeholder_keys(params: list) -> Dict[str, str]:
"""Detect parameters that reference ResourceSlot or DeviceSlot."""
result: Dict[str, str] = {}
for p in params:
ptype = p.get("type", "")
if "ResourceSlot" in str(ptype):
result[p["name"]] = "unilabos_resources"
elif "DeviceSlot" in str(ptype):
result[p["name"]] = "unilabos_devices"
return result
# ---------------------------------------------------------------------------
# Handle 规范化
# ---------------------------------------------------------------------------
def normalize_ast_handles(handles_raw: Any) -> List[Dict[str, Any]]:
"""Convert AST-parsed handle structures to the standard registry format."""
if not handles_raw:
return []
# handle_type → io_type 映射 (AST 内部类名 → YAML 标准字段值)
_HANDLE_TYPE_TO_IO_TYPE = {
"input": "target",
"output": "source",
"action_input": "action_target",
"action_output": "action_source",
}
result: List[Dict[str, Any]] = []
for h in handles_raw:
if isinstance(h, dict):
call = h.get("_call", "")
if "InputHandle" in call:
handle_type = "input"
elif "OutputHandle" in call:
handle_type = "output"
elif "ActionInputHandle" in call:
handle_type = "action_input"
elif "ActionOutputHandle" in call:
handle_type = "action_output"
else:
handle_type = h.get("handle_type", "unknown")
io_type = _HANDLE_TYPE_TO_IO_TYPE.get(handle_type, handle_type)
entry: Dict[str, Any] = {
"handler_key": h.get("key", ""),
"data_type": h.get("data_type", ""),
"io_type": io_type,
}
side = h.get("side")
if side:
if isinstance(side, str) and "." in side:
val = side.rsplit(".", 1)[-1]
side = val.lower() if val in ("LEFT", "RIGHT", "TOP", "BOTTOM") else val
entry["side"] = side
label = h.get("label")
if label:
entry["label"] = label
data_key = h.get("data_key")
if data_key:
entry["data_key"] = data_key
data_source = h.get("data_source")
if data_source:
if isinstance(data_source, str) and "." in data_source:
val = data_source.rsplit(".", 1)[-1]
data_source = val.lower() if val in ("HANDLE", "EXECUTOR") else val
entry["data_source"] = data_source
description = h.get("description")
if description:
entry["description"] = description
result.append(entry)
return result
def normalize_ast_action_handles(handles_raw: Any) -> Dict[str, Any]:
"""Convert AST-parsed action handle list to {"input": [...], "output": [...]}.
Mirrors the runtime behavior of decorators._action_handles_to_dict:
- ActionInputHandle => grouped under "input"
- ActionOutputHandle => grouped under "output"
Field mapping: key -> handler_key (matches Pydantic serialization_alias).
"""
if not handles_raw or not isinstance(handles_raw, list):
return {}
input_list: List[Dict[str, Any]] = []
output_list: List[Dict[str, Any]] = []
for h in handles_raw:
if not isinstance(h, dict):
continue
call = h.get("_call", "")
is_input = "ActionInputHandle" in call or "InputHandle" in call
is_output = "ActionOutputHandle" in call or "OutputHandle" in call
entry: Dict[str, Any] = {
"handler_key": h.get("key", ""),
"data_type": h.get("data_type", ""),
"label": h.get("label", ""),
}
for opt_key in ("side", "data_key", "data_source", "description", "io_type"):
val = h.get(opt_key)
if val is not None:
# Only resolve enum-style refs (e.g. DataSource.HANDLE -> handle) for data_source/side
# data_key values like "wells.@flatten", "@this.0@@@plate" must be preserved as-is
if (
isinstance(val, str)
and "." in val
and opt_key not in ("io_type", "data_key")
):
val = val.rsplit(".", 1)[-1].lower()
entry[opt_key] = val
# io_type: only add when explicitly set; do not default output to "sink" (YAML convention omits it)
if "io_type" not in entry and is_input:
entry["io_type"] = "source"
if is_input:
input_list.append(entry)
elif is_output:
output_list.append(entry)
result: Dict[str, Any] = {}
if input_list:
result["input"] = input_list
# Always include output (empty list when no outputs) to match YAML
result["output"] = output_list
return result
# ---------------------------------------------------------------------------
# Schema 辅助
# ---------------------------------------------------------------------------
def wrap_action_schema(
goal_schema: Dict[str, Any],
action_name: str,
description: str = "",
result_schema: Optional[Dict[str, Any]] = None,
feedback_schema: Optional[Dict[str, Any]] = None,
) -> Dict[str, Any]:
"""
将 goal 参数 schema 包装为标准的 action schema 格式:
{ "properties": { "goal": ..., "feedback": ..., "result": ... }, ... }
"""
# 去掉 auto- 前缀用于 title/description与 YAML 路径保持一致
display_name = action_name.removeprefix("auto-")
return {
"title": f"{display_name}参数",
"description": description or f"{display_name}的参数schema",
"type": "object",
"properties": {
"goal": goal_schema,
"feedback": feedback_schema or {},
"result": result_schema or {},
},
"required": ["goal"],
}
def preserve_field_descriptions(new_schema: Dict[str, Any], prev_schema: Dict[str, Any]):
"""保留之前 schema 中的 field descriptions"""
if not prev_schema or not new_schema:
return
prev_props = prev_schema.get("properties", {})
new_props = new_schema.get("properties", {})
for field_name, prev_field in prev_props.items():
if field_name in new_props and "title" in prev_field:
new_props[field_name].setdefault("title", prev_field["title"])
# ---------------------------------------------------------------------------
# 深度对比
# ---------------------------------------------------------------------------
def _short(val, limit=120):
"""截断过长的值用于日志显示。"""
s = repr(val)
return s if len(s) <= limit else s[:limit] + "..."
def deep_diff(old, new, path="", max_depth=10) -> list:
"""递归对比两个对象,返回所有差异的描述列表。"""
diffs = []
if max_depth <= 0:
if old != new:
diffs.append(f"{path}: (达到最大深度) OLD≠NEW")
return diffs
if type(old) != type(new):
diffs.append(f"{path}: 类型不同 OLD={type(old).__name__}({_short(old)}) NEW={type(new).__name__}({_short(new)})")
return diffs
if isinstance(old, dict):
old_keys = set(old.keys())
new_keys = set(new.keys())
for k in sorted(new_keys - old_keys):
diffs.append(f"{path}.{k}: 新增字段 (AST有, YAML无) = {_short(new[k])}")
for k in sorted(old_keys - new_keys):
diffs.append(f"{path}.{k}: 缺失字段 (YAML有, AST无) = {_short(old[k])}")
for k in sorted(old_keys & new_keys):
diffs.extend(deep_diff(old[k], new[k], f"{path}.{k}", max_depth - 1))
elif isinstance(old, (list, tuple)):
if len(old) != len(new):
diffs.append(f"{path}: 列表长度不同 OLD={len(old)} NEW={len(new)}")
for i in range(min(len(old), len(new))):
diffs.extend(deep_diff(old[i], new[i], f"{path}[{i}]", max_depth - 1))
if len(new) > len(old):
for i in range(len(old), len(new)):
diffs.append(f"{path}[{i}]: 新增元素 = {_short(new[i])}")
elif len(old) > len(new):
for i in range(len(new), len(old)):
diffs.append(f"{path}[{i}]: 缺失元素 = {_short(old[i])}")
else:
if old != new:
diffs.append(f"{path}: OLD={_short(old)} NEW={_short(new)}")
return diffs
# ---------------------------------------------------------------------------
# MRO 方法参数解析
# ---------------------------------------------------------------------------
def resolve_method_params_via_import(module_str: str, method_name: str) -> Dict[str, str]:
"""当 AST 方法参数为空 (如 *args, **kwargs) 时, import class 并通过 MRO 获取真实方法参数.
返回 identity mapping {param_name: param_name}.
"""
if not module_str or ":" not in module_str:
return {}
try:
cls = import_class(module_str)
except Exception as e:
_logger.debug(f"[AST] resolve_method_params_via_import: import_class('{module_str}') failed: {e}")
return {}
try:
for base_cls in cls.__mro__:
if method_name not in base_cls.__dict__:
continue
method = base_cls.__dict__[method_name]
actual = getattr(method, "__wrapped__", method)
if isinstance(actual, (staticmethod, classmethod)):
actual = actual.__func__
if not callable(actual):
continue
sig = inspect.signature(actual, follow_wrapped=True)
params = [
p.name for p in sig.parameters.values()
if p.name not in ("self", "cls")
and p.kind not in (inspect.Parameter.VAR_POSITIONAL, inspect.Parameter.VAR_KEYWORD)
]
if params:
return {p: p for p in params}
except Exception as e:
_logger.debug(f"[AST] resolve_method_params_via_import: MRO walk for '{method_name}' failed: {e}")
return {}

20
unilabos/resources/graphio.py
View File

@@ -76,7 +76,7 @@ def canonicalize_nodes_data(
if sample_id: if sample_id:
logger.error(f"{node}的sample_id参数已弃用sample_id: {sample_id}") logger.error(f"{node}的sample_id参数已弃用sample_id: {sample_id}")
for k in list(node.keys()): for k in list(node.keys()):
if k not in ["id", "uuid", "name", "description", "schema", "model", "icon", "parent_uuid", "parent", "type", "class", "position", "config", "data", "children", "pose", "extra"]: if k not in ["id", "uuid", "name", "description", "schema", "model", "icon", "parent_uuid", "parent", "type", "class", "position", "config", "data", "children", "pose", "extra", "machine_name"]:
v = node.pop(k) v = node.pop(k)
node["config"][k] = v node["config"][k] = v
if outer_host_node_id is not None: if outer_host_node_id is not None:
@@ -288,6 +288,15 @@ def read_node_link_json(
physical_setup_graph = nx.node_link_graph(graph_data, edges="links", multigraph=False) physical_setup_graph = nx.node_link_graph(graph_data, edges="links", multigraph=False)
handle_communications(physical_setup_graph) handle_communications(physical_setup_graph)
# Stamp machine_name on device trees only (resources are cloud-managed)
local_machine = BasicConfig.machine_name or "本地"
for tree in resource_tree_set.trees:
if tree.root_node.res_content.type != "device":
continue
for node in tree.get_all_nodes():
if not node.res_content.machine_name:
node.res_content.machine_name = local_machine
return physical_setup_graph, resource_tree_set, standardized_links return physical_setup_graph, resource_tree_set, standardized_links
@@ -372,6 +381,15 @@ def read_graphml(graphml_file: str) -> tuple[nx.Graph, ResourceTreeSet, List[Dic
physical_setup_graph = nx.node_link_graph(graph_data, link="links", multigraph=False) physical_setup_graph = nx.node_link_graph(graph_data, link="links", multigraph=False)
handle_communications(physical_setup_graph) handle_communications(physical_setup_graph)
# Stamp machine_name on device trees only (resources are cloud-managed)
local_machine = BasicConfig.machine_name or "本地"
for tree in resource_tree_set.trees:
if tree.root_node.res_content.type != "device":
continue
for node in tree.get_all_nodes():
if not node.res_content.machine_name:
node.res_content.machine_name = local_machine
return physical_setup_graph, resource_tree_set, standardized_links return physical_setup_graph, resource_tree_set, standardized_links

56
unilabos/resources/resource_tracker.py
View File

@@ -120,6 +120,7 @@ class ResourceDictType(TypedDict):
config: Dict[str, Any] config: Dict[str, Any]
data: Dict[str, Any] data: Dict[str, Any]
extra: Dict[str, Any] extra: Dict[str, Any]
machine_name: str
# 统一的资源字典模型parent 自动序列化为 parent_uuidchildren 不序列化 # 统一的资源字典模型parent 自动序列化为 parent_uuidchildren 不序列化
@@ -141,6 +142,7 @@ class ResourceDict(BaseModel):
config: Dict[str, Any] = Field(description="Resource configuration") config: Dict[str, Any] = Field(description="Resource configuration")
data: Dict[str, Any] = Field(description="Resource data, eg: container liquid data") data: Dict[str, Any] = Field(description="Resource data, eg: container liquid data")
extra: Dict[str, Any] = Field(description="Extra data, eg: slot index") extra: Dict[str, Any] = Field(description="Extra data, eg: slot index")
machine_name: str = Field(description="Machine this resource belongs to", default="")
@field_serializer("parent_uuid") @field_serializer("parent_uuid")
def _serialize_parent(self, parent_uuid: Optional["ResourceDict"]): def _serialize_parent(self, parent_uuid: Optional["ResourceDict"]):
@@ -196,22 +198,30 @@ class ResourceDictInstance(object):
self.typ = "dict" self.typ = "dict"
@classmethod @classmethod
def get_resource_instance_from_dict(cls, content: Dict[str, Any]) -> "ResourceDictInstance": def get_resource_instance_from_dict(cls, content: ResourceDictType) -> "ResourceDictInstance":
"""从字典创建资源实例""" """从字典创建资源实例"""
if "id" not in content: if "id" not in content:
content["id"] = content["name"] content["id"] = content["name"]
if "uuid" not in content: if "uuid" not in content:
content["uuid"] = str(uuid.uuid4()) content["uuid"] = str(uuid.uuid4())
if "description" in content and content["description"] is None: if "description" in content and content["description"] is None:
# noinspection PyTypedDict
del content["description"] del content["description"]
if "model" in content and content["model"] is None: if "model" in content and content["model"] is None:
# noinspection PyTypedDict
del content["model"] del content["model"]
# noinspection PyTypedDict
if "schema" in content and content["schema"] is None: if "schema" in content and content["schema"] is None:
# noinspection PyTypedDict
del content["schema"] del content["schema"]
# noinspection PyTypedDict
if "x" in content.get("position", {}): if "x" in content.get("position", {}):
# 说明是老版本的position格式转换成新的 # 说明是老版本的position格式转换成新的
# noinspection PyTypedDict
content["position"] = {"position": content["position"]} content["position"] = {"position": content["position"]}
# noinspection PyTypedDict
if not content.get("class"): if not content.get("class"):
# noinspection PyTypedDict
content["class"] = "" content["class"] = ""
if not content.get("config"): # todo: 后续从后端保证字段非空 if not content.get("config"): # todo: 后续从后端保证字段非空
content["config"] = {} content["config"] = {}
@@ -222,16 +232,18 @@ class ResourceDictInstance(object):
if "position" in content: if "position" in content:
pose = content.get("pose", {}) pose = content.get("pose", {})
if "position" not in pose: if "position" not in pose:
# noinspection PyTypedDict
if "position" in content["position"]: if "position" in content["position"]:
# noinspection PyTypedDict
pose["position"] = content["position"]["position"] pose["position"] = content["position"]["position"]
else: else:
pose["position"] = {"x": 0, "y": 0, "z": 0} pose["position"] = ResourceDictPositionObjectType(x=0, y=0, z=0)
if "size" not in pose: if "size" not in pose:
pose["size"] = { pose["size"] = ResourceDictPositionSizeType(
"width": content["config"].get("size_x", 0), width= content["config"].get("size_x", 0),
"height": content["config"].get("size_y", 0), height= content["config"].get("size_y", 0),
"depth": content["config"].get("size_z", 0), depth= content["config"].get("size_z", 0),
} )
content["pose"] = pose content["pose"] = pose
try: try:
res_dict = ResourceDict.model_validate(content) res_dict = ResourceDict.model_validate(content)
@@ -399,7 +411,7 @@ class ResourceTreeSet(object):
) )
@classmethod @classmethod
def from_plr_resources(cls, resources: List["PLRResource"], known_newly_created=False) -> "ResourceTreeSet": def from_plr_resources(cls, resources: List["PLRResource"], known_newly_created=False, old_size=False) -> "ResourceTreeSet":
""" """
从plr资源创建ResourceTreeSet 从plr资源创建ResourceTreeSet
""" """
@@ -422,13 +434,20 @@ class ResourceTreeSet(object):
"resource_group": "resource_group", "resource_group": "resource_group",
"trash": "trash", "trash": "trash",
"plate_adapter": "plate_adapter", "plate_adapter": "plate_adapter",
"consumable": "consumable",
"tool": "tool",
"condenser": "condenser",
"crucible": "crucible",
"reagent_bottle": "reagent_bottle",
"flask": "flask",
"beaker": "beaker",
} }
if source in replace_info: if source in replace_info:
return replace_info[source] return replace_info[source]
elif source is None: elif source is None:
return "" return ""
else: else:
print("转换pylabrobot的时候出现未知类型", source) logger.trace(f"转换pylabrobot的时候出现未知类型 {source}")
return source return source
def build_uuid_mapping(res: "PLRResource", uuid_list: list, parent_uuid: Optional[str] = None): def build_uuid_mapping(res: "PLRResource", uuid_list: list, parent_uuid: Optional[str] = None):
@@ -483,7 +502,7 @@ class ResourceTreeSet(object):
k: v k: v
for k, v in d.items() for k, v in d.items()
if k if k
not in [ not in ([
"name", "name",
"children", "children",
"parent_name", "parent_name",
@@ -494,7 +513,15 @@ class ResourceTreeSet(object):
"size_z", "size_z",
"cross_section_type", "cross_section_type",
"bottom_type", "bottom_type",
] ] if not old_size else [
"name",
"children",
"parent_name",
"location",
"rotation",
"cross_section_type",
"bottom_type",
])
}, },
"data": states[d["name"]], "data": states[d["name"]],
"extra": extra, "extra": extra,
@@ -793,6 +820,7 @@ class ResourceTreeSet(object):
if remote_root_type == "device": if remote_root_type == "device":
# 情况1: 一级是 device # 情况1: 一级是 device
if remote_root_id not in local_device_map: if remote_root_id not in local_device_map:
if remote_root_id != "host_node":
logger.warning(f"Device '{remote_root_id}' 在本地不存在,跳过该 device 下的物料同步") logger.warning(f"Device '{remote_root_id}' 在本地不存在,跳过该 device 下的物料同步")
continue continue
@@ -883,7 +911,7 @@ class ResourceTreeSet(object):
return self return self
def dump(self) -> List[List[Dict[str, Any]]]: def dump(self, old_position=False) -> List[List[Dict[str, Any]]]:
""" """
将 ResourceTreeSet 序列化为嵌套列表格式 将 ResourceTreeSet 序列化为嵌套列表格式
@@ -899,6 +927,10 @@ class ResourceTreeSet(object):
# 获取树的所有节点并序列化 # 获取树的所有节点并序列化
tree_nodes = [node.res_content.model_dump(by_alias=True) for node in tree.get_all_nodes()] tree_nodes = [node.res_content.model_dump(by_alias=True) for node in tree.get_all_nodes()]
result.append(tree_nodes) result.append(tree_nodes)
if old_position:
for r in result:
for rr in r:
rr["position"] = rr["pose"]["position"]
return result return result
@classmethod @classmethod

42
unilabos/ros/msgs/message_converter.py
View File

@@ -11,6 +11,7 @@ from io import StringIO
from typing import Iterable, Any, Dict, Type, TypeVar, Union from typing import Iterable, Any, Dict, Type, TypeVar, Union
import yaml import yaml
from msgcenterpy.instances.ros2_instance import ROS2MessageInstance
from pydantic import BaseModel from pydantic import BaseModel
from dataclasses import asdict, is_dataclass from dataclasses import asdict, is_dataclass
@@ -727,46 +728,9 @@ def ros_message_to_json_schema(msg_class: Any, field_name: str) -> Dict[str, Any
Returns: Returns:
对应的 JSON Schema 定义 对应的 JSON Schema 定义
""" """
schema = {"type": "object", "properties": {}, "required": []} schema = ROS2MessageInstance(msg_class()).get_json_schema()
# 优先使用字段名作为标题,否则使用类名
schema["title"] = field_name schema["title"] = field_name
schema.pop("description")
# 获取消息的字段和字段类型
try:
for ind, slot_info in enumerate(msg_class._fields_and_field_types.items()):
slot_name, slot_type = slot_info
type_info = msg_class.SLOT_TYPES[ind]
field_schema = ros_field_type_to_json_schema(type_info, slot_name)
schema["properties"][slot_name] = field_schema
schema["required"].append(slot_name)
# if hasattr(msg_class, 'get_fields_and_field_types'):
# fields_and_types = msg_class.get_fields_and_field_types()
#
# for field_name, field_type in fields_and_types.items():
# # 将 ROS 字段类型转换为 JSON Schema
# field_schema = ros_field_type_to_json_schema(field_type)
#
# schema['properties'][field_name] = field_schema
# schema['required'].append(field_name)
# elif hasattr(msg_class, '__slots__') and hasattr(msg_class, '_fields_and_field_types'):
# # 直接从实例属性获取
# for field_name in msg_class.__slots__:
# # 移除前导下划线(如果有)
# clean_name = field_name[1:] if field_name.startswith('_') else field_name
#
# # 从 _fields_and_field_types 获取类型
# if clean_name in msg_class._fields_and_field_types:
# field_type = msg_class._fields_and_field_types[clean_name]
# field_schema = ros_field_type_to_json_schema(field_type)
#
# schema['properties'][clean_name] = field_schema
# schema['required'].append(clean_name)
except Exception as e:
# 如果获取字段类型失败,添加错误信息
schema["description"] = f"解析消息字段时出错: {str(e)}"
logger.error(f"解析 {msg_class.__name__} 消息字段失败: {str(e)}")
return schema return schema

113
unilabos/ros/nodes/base_device_node.py
View File

@@ -34,7 +34,8 @@ from unilabos_msgs.action import SendCmd
from unilabos_msgs.srv._serial_command import SerialCommand_Request, SerialCommand_Response from unilabos_msgs.srv._serial_command import SerialCommand_Request, SerialCommand_Response
from unilabos.config.config import BasicConfig from unilabos.config.config import BasicConfig
from unilabos.utils.decorator import get_topic_config, get_all_subscriptions from unilabos.registry.decorators import get_topic_config
from unilabos.utils.decorator import get_all_subscriptions
from unilabos.resources.container import RegularContainer from unilabos.resources.container import RegularContainer
from unilabos.resources.graphio import ( from unilabos.resources.graphio import (
@@ -57,6 +58,7 @@ from unilabos_msgs.msg import Resource # type: ignore
from unilabos.resources.resource_tracker import ( from unilabos.resources.resource_tracker import (
DeviceNodeResourceTracker, DeviceNodeResourceTracker,
ResourceDictType,
ResourceTreeSet, ResourceTreeSet,
ResourceTreeInstance, ResourceTreeInstance,
ResourceDictInstance, ResourceDictInstance,
@@ -194,9 +196,9 @@ class PropertyPublisher:
self._value = None self._value = None
try: try:
self.publisher_ = node.create_publisher(msg_type, f"{name}", qos) self.publisher_ = node.create_publisher(msg_type, f"{name}", qos)
except AttributeError as ex: except Exception as e:
self.node.lab_logger().error( self.node.lab_logger().error(
f"创建发布者 {name} 失败,可能由于注册表有误,类型: {msg_type},错误: {ex}\n{traceback.format_exc()}" f"StatusError, DeviceId: {self.node.device_id} 创建发布者 {name} 失败,可能由于注册表有误,类型: {msg_type},错误: {e}"
) )
self.timer = node.create_timer(self.timer_period, self.publish_property) self.timer = node.create_timer(self.timer_period, self.publish_property)
self.__loop = ROS2DeviceNode.get_asyncio_loop() self.__loop = ROS2DeviceNode.get_asyncio_loop()
@@ -596,6 +598,12 @@ class BaseROS2DeviceNode(Node, Generic[T]):
self.s2c_resource_tree, # type: ignore self.s2c_resource_tree, # type: ignore
callback_group=self.callback_group, callback_group=self.callback_group,
), ),
"s2c_device_manage": self.create_service(
SerialCommand,
f"/srv{self.namespace}/s2c_device_manage",
self.s2c_device_manage, # type: ignore
callback_group=self.callback_group,
),
} }
# 向全局在线设备注册表添加设备信息 # 向全局在线设备注册表添加设备信息
@@ -1064,6 +1072,48 @@ class BaseROS2DeviceNode(Node, Generic[T]):
return res return res
async def s2c_device_manage(self, req: SerialCommand_Request, res: SerialCommand_Response):
"""Handle add/remove device requests from HostNode via SerialCommand."""
try:
cmd = json.loads(req.command)
action = cmd.get("action", "")
data = cmd.get("data", {})
device_id = data.get("device_id", "")
if not device_id:
res.response = json.dumps({"success": False, "error": "device_id required"})
return res
if action == "add":
result = self.create_device(device_id, data)
elif action == "remove":
result = self.destroy_device(device_id)
else:
result = {"success": False, "error": f"Unknown action: {action}"}
res.response = json.dumps(result, ensure_ascii=False)
except NotImplementedError as e:
self.lab_logger().warning(f"[DeviceManage] {e}")
res.response = json.dumps({"success": False, "error": str(e)})
except Exception as e:
self.lab_logger().error(f"[DeviceManage] Error: {e}")
res.response = json.dumps({"success": False, "error": str(e)})
return res
def create_device(self, device_id: str, config: "ResourceDictType") -> dict:
"""Create a sub-device dynamically. Override in HostNode / WorkstationNode."""
raise NotImplementedError(
f"{self.__class__.__name__} does not support dynamic device creation"
)
def destroy_device(self, device_id: str) -> dict:
"""Destroy a sub-device dynamically. Override in HostNode / WorkstationNode."""
raise NotImplementedError(
f"{self.__class__.__name__} does not support dynamic device removal"
)
async def transfer_resource_to_another( async def transfer_resource_to_another(
self, self,
plr_resources: List["ResourcePLR"], plr_resources: List["ResourcePLR"],
@@ -1206,22 +1256,40 @@ class BaseROS2DeviceNode(Node, Generic[T]):
return self._lab_logger return self._lab_logger
def create_ros_publisher(self, attr_name, msg_type, initial_period=5.0): def create_ros_publisher(self, attr_name, msg_type, initial_period=5.0):
"""创建ROS发布者""" """创建ROS发布者,仅当方法/属性有 @topic_config 装饰器时才创建。"""
# 检测装饰器配置(支持 get_{attr_name} 方法和 @property # 检测 @topic_config 装饰器配置
topic_config = {} topic_config = {}
# 优先检测 get_{attr_name} 方法
if hasattr(self.driver_instance, f"get_{attr_name}"):
getter_method = getattr(self.driver_instance, f"get_{attr_name}")
topic_config = get_topic_config(getter_method)
# 如果没有配置,检测 @property 装饰的属性
if not topic_config:
driver_class = type(self.driver_instance) driver_class = type(self.driver_instance)
if hasattr(driver_class, attr_name):
# 区分 @property 和普通方法两种情况
is_prop = hasattr(driver_class, attr_name) and isinstance(
getattr(driver_class, attr_name), property
)
if is_prop:
# @property: 检测 fget 上的 @topic_config
class_attr = getattr(driver_class, attr_name) class_attr = getattr(driver_class, attr_name)
if isinstance(class_attr, property) and class_attr.fget is not None: if class_attr.fget is not None:
topic_config = get_topic_config(class_attr.fget) topic_config = 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
# 发布名称优先级: @topic_config(name=...) > get_ 前缀去除 > attr_name
cfg_name = topic_config.get("name")
if cfg_name:
publish_name = cfg_name
elif attr_name.startswith("get_"):
publish_name = attr_name[4:]
else:
publish_name = attr_name
# 使用装饰器配置或默认值 # 使用装饰器配置或默认值
cfg_period = topic_config.get("period") cfg_period = topic_config.get("period")
@@ -1234,10 +1302,10 @@ class BaseROS2DeviceNode(Node, Generic[T]):
# 获取属性值的方法 # 获取属性值的方法
def get_device_attr(): def get_device_attr():
try: try:
if hasattr(self.driver_instance, f"get_{attr_name}"): if is_prop:
return getattr(self.driver_instance, f"get_{attr_name}")()
else:
return getattr(self.driver_instance, attr_name) return getattr(self.driver_instance, attr_name)
else:
return getattr(self.driver_instance, attr_name)()
except AttributeError as ex: except AttributeError as ex:
if ex.args[0].startswith(f"AttributeError: '{self.driver_instance.__class__.__name__}' object"): if ex.args[0].startswith(f"AttributeError: '{self.driver_instance.__class__.__name__}' object"):
self.lab_logger().error( self.lab_logger().error(
@@ -1249,8 +1317,8 @@ class BaseROS2DeviceNode(Node, Generic[T]):
) )
self.lab_logger().error(traceback.format_exc()) self.lab_logger().error(traceback.format_exc())
self._property_publishers[attr_name] = PropertyPublisher( self._property_publishers[publish_name] = PropertyPublisher(
self, attr_name, get_device_attr, msg_type, period, print_publish, qos self, publish_name, get_device_attr, msg_type, period, print_publish, qos
) )
def create_ros_action_server(self, action_name, action_value_mapping): def create_ros_action_server(self, action_name, action_value_mapping):
@@ -1258,6 +1326,7 @@ class BaseROS2DeviceNode(Node, Generic[T]):
action_type = action_value_mapping["type"] action_type = action_value_mapping["type"]
str_action_type = str(action_type)[8:-2] str_action_type = str(action_type)[8:-2]
try:
self._action_servers[action_name] = ActionServer( self._action_servers[action_name] = ActionServer(
self, self,
action_type, action_type,
@@ -1265,7 +1334,9 @@ class BaseROS2DeviceNode(Node, Generic[T]):
execute_callback=self._create_execute_callback(action_name, action_value_mapping), execute_callback=self._create_execute_callback(action_name, action_value_mapping),
callback_group=self.callback_group, callback_group=self.callback_group,
) )
except Exception as e:
self.lab_logger().error(f"创建ActionServer失败Device: {self.device_id}, Action Name: {action_name}, Action Type: {action_type}, Error: {e}")
return
self.lab_logger().trace(f"发布动作: {action_name}, 类型: {str_action_type}") self.lab_logger().trace(f"发布动作: {action_name}, 类型: {str_action_type}")
def _setup_decorated_subscribers(self): def _setup_decorated_subscribers(self):

7
unilabos/ros/nodes/presets/camera.py
View File

@@ -4,7 +4,14 @@ import cv2
from sensor_msgs.msg import Image from sensor_msgs.msg import Image
from cv_bridge import CvBridge from cv_bridge import CvBridge
from unilabos.ros.nodes.base_device_node import BaseROS2DeviceNode, DeviceNodeResourceTracker from unilabos.ros.nodes.base_device_node import BaseROS2DeviceNode, DeviceNodeResourceTracker
from unilabos.registry.decorators import device
@device(
id="camera",
category=["camera"],
description="""VideoPublisher摄像头设备节点用于实时视频采集和流媒体发布。该设备通过OpenCV连接本地摄像头如USB摄像头、内置摄像头等定时采集视频帧并将其转换为ROS2的sensor_msgs/Image消息格式发布到视频话题。主要用于实验室自动化系统中的视觉监控、图像分析、实时观察等应用场景。支持可配置的摄像头索引、发布频率等参数。""",
)
class VideoPublisher(BaseROS2DeviceNode): class VideoPublisher(BaseROS2DeviceNode):
def __init__(self, device_id='video_publisher', registry_name="", device_uuid='', camera_index=0, period: float = 0.1, resource_tracker: DeviceNodeResourceTracker = None): def __init__(self, device_id='video_publisher', registry_name="", device_uuid='', camera_index=0, period: float = 0.1, resource_tracker: DeviceNodeResourceTracker = None):
# 初始化BaseROS2DeviceNode使用自身作为driver_instance # 初始化BaseROS2DeviceNode使用自身作为driver_instance

236
unilabos/ros/nodes/presets/host_node.py
View File

@@ -12,6 +12,7 @@ from geometry_msgs.msg import Point
from rclpy.action import ActionClient, get_action_server_names_and_types_by_node from rclpy.action import ActionClient, get_action_server_names_and_types_by_node
from rclpy.service import Service from rclpy.service import Service
from typing_extensions import TypedDict from typing_extensions import TypedDict
from unilabos_msgs.action import EmptyIn, StrSingleInput, ResourceCreateFromOuterEasy, ResourceCreateFromOuter
from unilabos_msgs.msg import Resource # type: ignore from unilabos_msgs.msg import Resource # type: ignore
from unilabos_msgs.srv import ( from unilabos_msgs.srv import (
ResourceAdd, ResourceAdd,
@@ -23,6 +24,7 @@ from unilabos_msgs.srv import (
from unilabos_msgs.srv._serial_command import SerialCommand_Request, SerialCommand_Response from unilabos_msgs.srv._serial_command import SerialCommand_Request, SerialCommand_Response
from unique_identifier_msgs.msg import UUID from unique_identifier_msgs.msg import UUID
from unilabos.registry.decorators import device
from unilabos.registry.placeholder_type import ResourceSlot, DeviceSlot from unilabos.registry.placeholder_type import ResourceSlot, DeviceSlot
from unilabos.registry.registry import lab_registry from unilabos.registry.registry import lab_registry
from unilabos.resources.container import RegularContainer from unilabos.resources.container import RegularContainer
@@ -30,6 +32,7 @@ from unilabos.resources.graphio import initialize_resource
from unilabos.resources.registry import add_schema from unilabos.resources.registry import add_schema
from unilabos.resources.resource_tracker import ( from unilabos.resources.resource_tracker import (
ResourceDict, ResourceDict,
ResourceDictType,
ResourceDictInstance, ResourceDictInstance,
ResourceTreeSet, ResourceTreeSet,
ResourceTreeInstance, ResourceTreeInstance,
@@ -86,6 +89,7 @@ class TestLatencyReturn(TypedDict):
status: str status: str
@device(id="host_node", category=[], description="Host Node", icon="icon_device.webp")
class HostNode(BaseROS2DeviceNode): class HostNode(BaseROS2DeviceNode):
""" """
主机节点类,负责管理设备、资源和控制器 主机节点类,负责管理设备、资源和控制器
@@ -274,44 +278,42 @@ class HostNode(BaseROS2DeviceNode):
self._action_clients: Dict[str, ActionClient] = { # 为了方便了解实际的数据类型host的默认写好 self._action_clients: Dict[str, ActionClient] = { # 为了方便了解实际的数据类型host的默认写好
"/devices/host_node/create_resource": ActionClient( "/devices/host_node/create_resource": ActionClient(
self, self,
lab_registry.ResourceCreateFromOuterEasy, ResourceCreateFromOuterEasy,
"/devices/host_node/create_resource", "/devices/host_node/create_resource",
callback_group=self.callback_group, callback_group=self.callback_group,
), ),
"/devices/host_node/create_resource_detailed": ActionClient( "/devices/host_node/create_resource_detailed": ActionClient(
self, self,
lab_registry.ResourceCreateFromOuter, ResourceCreateFromOuter,
"/devices/host_node/create_resource_detailed", "/devices/host_node/create_resource_detailed",
callback_group=self.callback_group, callback_group=self.callback_group,
), ),
"/devices/host_node/test_latency": ActionClient( "/devices/host_node/test_latency": ActionClient(
self, self,
lab_registry.EmptyIn, EmptyIn,
"/devices/host_node/test_latency", "/devices/host_node/test_latency",
callback_group=self.callback_group, callback_group=self.callback_group,
), ),
"/devices/host_node/test_resource": ActionClient( "/devices/host_node/test_resource": ActionClient(
self, self,
lab_registry.EmptyIn, EmptyIn,
"/devices/host_node/test_resource", "/devices/host_node/test_resource",
callback_group=self.callback_group, callback_group=self.callback_group,
), ),
"/devices/host_node/_execute_driver_command": ActionClient( "/devices/host_node/_execute_driver_command": ActionClient(
self, self,
lab_registry.StrSingleInput, StrSingleInput,
"/devices/host_node/_execute_driver_command", "/devices/host_node/_execute_driver_command",
callback_group=self.callback_group, callback_group=self.callback_group,
), ),
"/devices/host_node/_execute_driver_command_async": ActionClient( "/devices/host_node/_execute_driver_command_async": ActionClient(
self, self,
lab_registry.StrSingleInput, StrSingleInput,
"/devices/host_node/_execute_driver_command_async", "/devices/host_node/_execute_driver_command_async",
callback_group=self.callback_group, callback_group=self.callback_group,
), ),
} # 用来存储多个ActionClient实例 } # 用来存储多个ActionClient实例
self._action_value_mappings: Dict[str, Dict] = ( self._action_value_mappings: Dict[str, Dict] = {} # device_id -> action_value_mappings(本地+远程设备统一存储)
{}
) # device_id -> action_value_mappings(本地+远程设备统一存储)
self._slave_registry_configs: Dict[str, Dict] = {} # registry_name -> registry_config(含action_value_mappings) self._slave_registry_configs: Dict[str, Dict] = {} # registry_name -> registry_config(含action_value_mappings)
self._goals: Dict[str, Any] = {} # 用来存储多个目标的状态 self._goals: Dict[str, Any] = {} # 用来存储多个目标的状态
self._online_devices: Set[str] = {f"{self.namespace}/{device_id}"} # 用于跟踪在线设备 self._online_devices: Set[str] = {f"{self.namespace}/{device_id}"} # 用于跟踪在线设备
@@ -329,10 +331,18 @@ class HostNode(BaseROS2DeviceNode):
self._discover_devices() self._discover_devices()
# 初始化所有本机设备节点,多一次过滤,防止重复初始化 # 初始化所有本机设备节点,多一次过滤,防止重复初始化
local_machine = BasicConfig.machine_name
for device_config in devices_config.root_nodes: for device_config in devices_config.root_nodes:
device_id = device_config.res_content.id device_id = device_config.res_content.id
if device_config.res_content.type != "device": if device_config.res_content.type != "device":
continue continue
dev_machine = device_config.res_content.machine_name
if dev_machine and local_machine and dev_machine != local_machine:
self.lab_logger().info(
f"[Host Node] Device {device_id} belongs to machine '{dev_machine}', "
f"local is '{local_machine}', skipping initialization."
)
continue
if device_id not in self.devices_names: if device_id not in self.devices_names:
self.initialize_device(device_id, device_config) self.initialize_device(device_id, device_config)
else: else:
@@ -658,7 +668,12 @@ class HostNode(BaseROS2DeviceNode):
action_id = f"/devices/{device_id}/{action_name}" action_id = f"/devices/{device_id}/{action_name}"
if action_id not in self._action_clients: if action_id not in self._action_clients:
action_type = action_value_mapping["type"] action_type = action_value_mapping["type"]
try:
self._action_clients[action_id] = ActionClient(self, action_type, action_id) self._action_clients[action_id] = ActionClient(self, action_type, action_id)
except Exception as e:
self.lab_logger().error(
f"创建ActionClient失败Device: {device_id}, Action Name: {action_name}, Action Type: {action_type}, Error: {e}")
continue
self.lab_logger().trace( self.lab_logger().trace(
f"[Host Node] Created ActionClient (Local): {action_id}" f"[Host Node] Created ActionClient (Local): {action_id}"
) # 子设备再创建用的是Discover发现的 ) # 子设备再创建用的是Discover发现的
@@ -1258,9 +1273,9 @@ class HostNode(BaseROS2DeviceNode):
# 用 registry_name 索引已存储的 registry_config,获取 action_value_mappings # 用 registry_name 索引已存储的 registry_config,获取 action_value_mappings
if registry_name and registry_name in self._slave_registry_configs: if registry_name and registry_name in self._slave_registry_configs:
action_mappings = self._slave_registry_configs[registry_name].get( action_mappings = (
"class", {} self._slave_registry_configs[registry_name].get("class", {}).get("action_value_mappings", {})
).get("action_value_mappings", {}) )
if action_mappings: if action_mappings:
self._action_value_mappings[edge_device_id] = action_mappings self._action_value_mappings[edge_device_id] = action_mappings
self.lab_logger().info( self.lab_logger().info(
@@ -1280,14 +1295,19 @@ class HostNode(BaseROS2DeviceNode):
# 解析 devices_config,建立 device_id -> action_value_mappings 映射 # 解析 devices_config,建立 device_id -> action_value_mappings 映射
if devices_config: if devices_config:
machine_name = info["machine_name"]
# Stamp machine_name on each device dict before parsing
for device_tree in devices_config: for device_tree in devices_config:
for device_dict in device_tree: for device_dict in device_tree:
device_dict["machine_name"] = machine_name
device_id = device_dict.get("id", "") device_id = device_dict.get("id", "")
class_name = device_dict.get("class", "") class_name = device_dict.get("class", "")
if device_id and class_name and class_name in self._slave_registry_configs: if device_id and class_name and class_name in self._slave_registry_configs:
action_mappings = self._slave_registry_configs[class_name].get( action_mappings = (
"class", {} self._slave_registry_configs[class_name]
).get("action_value_mappings", {}) .get("class", {})
.get("action_value_mappings", {})
)
if action_mappings: if action_mappings:
self._action_value_mappings[device_id] = action_mappings self._action_value_mappings[device_id] = action_mappings
self.lab_logger().info( self.lab_logger().info(
@@ -1295,6 +1315,18 @@ class HostNode(BaseROS2DeviceNode):
f"for remote device {device_id} (class: {class_name})" f"for remote device {device_id} (class: {class_name})"
) )
# Merge slave devices_config into self.devices_config tree
try:
slave_tree_set = ResourceTreeSet.load(devices_config) # slave一定是根节点的tree
for tree in slave_tree_set.trees:
self.devices_config.trees.append(tree)
self.lab_logger().info(
f"[Host Node] Merged {len(slave_tree_set.trees)} slave device trees "
f"(machine: {machine_name}) into devices_config"
)
except Exception as e:
self.lab_logger().error(f"[Host Node] Failed to merge slave devices_config: {e}")
self.lab_logger().debug(f"[Host Node] Node info update: {info}") self.lab_logger().debug(f"[Host Node] Node info update: {info}")
response.response = "OK" response.response = "OK"
except Exception as e: except Exception as e:
@@ -1703,3 +1735,177 @@ class HostNode(BaseROS2DeviceNode):
self.lab_logger().error(f"[Host Node-Resource] Error notifying resource tree update: {str(e)}") self.lab_logger().error(f"[Host Node-Resource] Error notifying resource tree update: {str(e)}")
self.lab_logger().error(traceback.format_exc()) self.lab_logger().error(traceback.format_exc())
return False return False
# ------------------------------------------------------------------
# Device lifecycle (add / remove) — pure forwarder
# ------------------------------------------------------------------
def notify_device_manage(self, target_node_id: str, action: str, config: ResourceDictType) -> bool:
"""Forward an add/remove device command to the target node via ROS2 SerialCommand.
The HostNode does NOT interpret the command; it simply resolves the
target namespace and forwards the request to ``s2c_device_manage``.
If *target_node_id* equals the HostNode's own device_id (i.e. the
command targets the host itself), we call our local ``create_device``
/ ``destroy_device`` directly instead of going through ROS2.
"""
try:
# If the target is the host itself, handle locally
device_id = config["id"]
if target_node_id == self.device_id:
if action == "add":
return self.create_device(device_id, config).get("success", False)
elif action == "remove":
return self.destroy_device(device_id).get("success", False)
if target_node_id not in self.devices_names:
self.lab_logger().error(
f"[Host Node-DeviceMgr] Target {target_node_id} not found in devices_names"
)
return False
namespace = self.devices_names[target_node_id]
device_key = f"{namespace}/{target_node_id}"
if device_key not in self._online_devices:
self.lab_logger().error(f"[Host Node-DeviceMgr] Target {device_key} is offline")
return False
srv_address = f"/srv{namespace}/s2c_device_manage"
self.lab_logger().info(
f"[Host Node-DeviceMgr] Forwarding {action}_device to {target_node_id} ({srv_address})"
)
sclient = self.create_client(SerialCommand, srv_address)
if not sclient.wait_for_service(timeout_sec=5.0):
self.lab_logger().error(f"[Host Node-DeviceMgr] Service {srv_address} not available")
return False
request = SerialCommand.Request()
request.command = json.dumps({"action": action, "data": config}, ensure_ascii=False)
future = sclient.call_async(request)
timeout = 30.0
start_time = time.time()
while not future.done():
if time.time() - start_time > timeout:
self.lab_logger().error(
f"[Host Node-DeviceMgr] Timeout waiting for {action}_device on {target_node_id}"
)
return False
time.sleep(0.05)
response = future.result()
self.lab_logger().info(
f"[Host Node-DeviceMgr] {action}_device on {target_node_id} completed"
)
return True
except Exception as e:
self.lab_logger().error(f"[Host Node-DeviceMgr] Error: {e}")
self.lab_logger().error(traceback.format_exc())
return False
def create_device(self, device_id: str, config: ResourceDictType) -> dict:
"""Dynamically create a root-level device on the host."""
if not device_id:
return {"success": False, "error": "device_id required"}
if device_id in self.devices_names:
return {"success": False, "error": f"Device {device_id} already exists"}
try:
config.setdefault("id", device_id)
config.setdefault("type", "device")
config.setdefault("machine_name", BasicConfig.machine_name or "本地")
res_dict = ResourceDictInstance.get_resource_instance_from_dict(config)
self.initialize_device(device_id, res_dict)
if device_id not in self.devices_names:
return {"success": False, "error": f"initialize_device failed for {device_id}"}
# Add to config tree (devices_config)
tree = ResourceTreeInstance(res_dict)
self.devices_config.trees.append(tree)
# Add to resource tracker so s2c_resource_tree can find it
try:
for plr_resource in ResourceTreeSet([tree]).to_plr_resources():
self._resource_tracker.add_resource(plr_resource)
except Exception as ex:
self.lab_logger().warning(f"[Host Node-DeviceMgr] PLR resource registration skipped: {ex}")
self.lab_logger().info(f"[Host Node-DeviceMgr] Device {device_id} created successfully")
return {"success": True, "device_id": device_id}
except Exception as e:
self.lab_logger().error(f"[Host Node-DeviceMgr] Failed to create {device_id}: {e}")
self.lab_logger().error(traceback.format_exc())
return {"success": False, "error": str(e)}
def destroy_device(self, device_id: str) -> dict:
"""Remove a root-level device from the host."""
if not device_id:
return {"success": False, "error": "device_id required"}
if device_id not in self.devices_names:
return {"success": False, "error": f"Device {device_id} not found"}
if device_id == self.device_id:
return {"success": False, "error": "Cannot destroy host_node itself"}
try:
namespace = self.devices_names[device_id]
device_key = f"{namespace}/{device_id}"
# Remove action clients
action_prefix = f"/devices/{device_id}/"
to_remove = [k for k in self._action_clients if k.startswith(action_prefix)]
for k in to_remove:
try:
self._action_clients[k].destroy()
except Exception:
pass
del self._action_clients[k]
# Remove from config tree (devices_config)
self.devices_config.trees = [
t for t in self.devices_config.trees
if t.root_node.res_content.id != device_id
]
# Remove from resource tracker
try:
tracked = self._resource_tracker.uuid_to_resources.copy()
for uid, res in tracked.items():
res_id = res.get("id") if isinstance(res, dict) else getattr(res, "name", None)
if res_id == device_id:
self._resource_tracker.remove_resource(res)
except Exception as ex:
self.lab_logger().warning(f"[Host Node-DeviceMgr] Resource tracker cleanup: {ex}")
# Clean internal state
self._online_devices.discard(device_key)
self.devices_names.pop(device_id, None)
self.device_machine_names.pop(device_id, None)
self._action_value_mappings.pop(device_id, None)
# Destroy the ROS2 node of the device
instance = self.devices_instances.pop(device_id, None)
if instance is not None:
try:
# noinspection PyProtectedMember
ros_node = getattr(instance, "_ros_node", None)
if ros_node is not None:
ros_node.destroy_node()
except Exception as e:
self.lab_logger().warning(f"[Host Node-DeviceMgr] Error destroying ROS node for {device_id}: {e}")
self.lab_logger().info(f"[Host Node-DeviceMgr] Device {device_id} destroyed")
return {"success": True, "device_id": device_id}
except Exception as e:
self.lab_logger().error(f"[Host Node-DeviceMgr] Failed to destroy {device_id}: {e}")
self.lab_logger().error(traceback.format_exc())
return {"success": False, "error": str(e)}

99
unilabos/ros/nodes/presets/workstation.py
View File

@@ -20,7 +20,7 @@ from unilabos.ros.msgs.message_converter import (
convert_from_ros_msg_with_mapping, convert_from_ros_msg_with_mapping,
) )
from unilabos.ros.nodes.base_device_node import BaseROS2DeviceNode, DeviceNodeResourceTracker, ROS2DeviceNode from unilabos.ros.nodes.base_device_node import BaseROS2DeviceNode, DeviceNodeResourceTracker, ROS2DeviceNode
from unilabos.resources.resource_tracker import ResourceTreeSet, ResourceDictInstance from unilabos.resources.resource_tracker import ResourceDictType, ResourceTreeSet, ResourceDictInstance
from unilabos.utils.type_check import get_result_info_str from unilabos.utils.type_check import get_result_info_str
if TYPE_CHECKING: if TYPE_CHECKING:
@@ -177,6 +177,103 @@ class ROS2WorkstationNode(BaseROS2DeviceNode):
self.lab_logger().trace(f"为子设备 {device_id} 创建动作客户端: {action_name}") self.lab_logger().trace(f"为子设备 {device_id} 创建动作客户端: {action_name}")
return d return d
def create_device(self, device_id: str, config: ResourceDictType) -> dict:
"""Dynamically add a sub-device to this workstation."""
if not device_id:
return {"success": False, "error": "device_id required"}
if device_id in self.sub_devices:
return {"success": False, "error": f"Sub-device {device_id} already exists"}
try:
from unilabos.config.config import BasicConfig
config.setdefault("id", device_id)
config.setdefault("type", "device")
config.setdefault("machine_name", BasicConfig.machine_name or "本地")
res_dict = ResourceDictInstance.get_resource_instance_from_dict(config)
d = self.initialize_device(device_id, res_dict)
if d is None:
return {"success": False, "error": f"initialize_device returned None for {device_id}"}
# Add to children config list
self.children.append(res_dict)
# Add to resource tracker
try:
from unilabos.resources.resource_tracker import ResourceTreeInstance
tree = ResourceTreeInstance(res_dict)
for plr_resource in ResourceTreeSet([tree]).to_plr_resources():
self.resource_tracker.add_resource(plr_resource)
except Exception as ex:
self.lab_logger().warning(f"[Workstation-DeviceMgr] PLR resource registration skipped: {ex}")
self.lab_logger().info(f"[Workstation-DeviceMgr] Sub-device {device_id} created")
return {"success": True, "device_id": device_id}
except Exception as e:
self.lab_logger().error(f"[Workstation-DeviceMgr] Failed to create {device_id}: {e}")
self.lab_logger().error(traceback.format_exc())
return {"success": False, "error": str(e)}
def destroy_device(self, device_id: str) -> dict:
"""Dynamically remove a sub-device from this workstation."""
if not device_id:
return {"success": False, "error": "device_id required"}
if device_id not in self.sub_devices:
return {"success": False, "error": f"Sub-device {device_id} not found"}
try:
# Remove from children config list
self.children = [
c for c in self.children
if c.res_content.id != device_id
]
# Remove from resource tracker
try:
tracked = self.resource_tracker.uuid_to_resources.copy()
for uid, res in tracked.items():
res_id = res.get("id") if isinstance(res, dict) else getattr(res, "name", None)
if res_id == device_id:
self.resource_tracker.remove_resource(res)
except Exception as ex:
self.lab_logger().warning(f"[Workstation-DeviceMgr] Resource tracker cleanup: {ex}")
# Remove action clients for this sub-device
action_prefix = f"/devices/{device_id}/"
to_remove = [k for k in self._action_clients if k.startswith(action_prefix)]
for k in to_remove:
try:
self._action_clients[k].destroy()
except Exception:
pass
del self._action_clients[k]
# Destroy the ROS2 node
instance = self.sub_devices.pop(device_id, None)
if instance is not None:
ros_node = getattr(instance, "ros_node_instance", None)
if ros_node is not None:
try:
ros_node.destroy_node()
except Exception as e:
self.lab_logger().warning(
f"[Workstation-DeviceMgr] Error destroying ROS node for {device_id}: {e}"
)
# Remove from communication map if present
self.communication_node_id_to_instance.pop(device_id, None)
self.lab_logger().info(f"[Workstation-DeviceMgr] Sub-device {device_id} destroyed")
return {"success": True, "device_id": device_id}
except Exception as e:
self.lab_logger().error(f"[Workstation-DeviceMgr] Failed to destroy {device_id}: {e}")
self.lab_logger().error(traceback.format_exc())
return {"success": False, "error": str(e)}
def create_ros_action_server(self, action_name, action_value_mapping): def create_ros_action_server(self, action_name, action_value_mapping):
"""创建ROS动作服务器""" """创建ROS动作服务器"""
if action_name not in self.protocol_names: if action_name not in self.protocol_names:

200
unilabos/utils/decorator.py
View File

@@ -19,74 +19,6 @@ def singleton(cls):
return get_instance return get_instance
def topic_config(
period: Optional[float] = None,
print_publish: Optional[bool] = None,
qos: Optional[int] = None,
) -> Callable[[F], F]:
"""
Topic发布配置装饰器
用于装饰 get_{attr_name} 方法或 @property控制对应属性的ROS topic发布行为。
Args:
period: 发布周期。None 表示使用默认值 5.0
print_publish: 是否打印发布日志。None 表示使用节点默认配置
qos: QoS深度配置。None 表示使用默认值 10
Example:
class MyDriver:
# 方式1: 装饰 get_{attr_name} 方法
@topic_config(period=1.0, print_publish=False, qos=5)
def get_temperature(self):
return self._temperature
# 方式2: 与 @property 连用topic_config 放在下面)
@property
@topic_config(period=0.1)
def position(self):
return self._position
Note:
与 @property 连用时,@topic_config 必须放在 @property 下面,
这样装饰器执行顺序为:先 topic_config 添加配置,再 property 包装。
"""
def decorator(func: F) -> F:
@wraps(func)
def wrapper(*args, **kwargs):
return func(*args, **kwargs)
# 在函数上附加配置属性 (type: ignore 用于动态属性)
wrapper._topic_period = period # type: ignore[attr-defined]
wrapper._topic_print_publish = print_publish # type: ignore[attr-defined]
wrapper._topic_qos = qos # type: ignore[attr-defined]
wrapper._has_topic_config = True # type: ignore[attr-defined]
return wrapper # type: ignore[return-value]
return decorator
def get_topic_config(func) -> dict:
"""
获取函数上的topic配置
Args:
func: 被装饰的函数
Returns:
包含 period, print_publish, qos 的配置字典
"""
if hasattr(func, "_has_topic_config") and getattr(func, "_has_topic_config", False):
return {
"period": getattr(func, "_topic_period", None),
"print_publish": getattr(func, "_topic_print_publish", None),
"qos": getattr(func, "_topic_qos", None),
}
return {}
def subscribe( def subscribe(
topic: str, topic: str,
msg_type: Optional[type] = None, msg_type: Optional[type] = None,
@@ -104,24 +36,6 @@ def subscribe(
- {namespace}: 完整命名空间 (如 "/devices/pump_1") - {namespace}: 完整命名空间 (如 "/devices/pump_1")
msg_type: ROS 消息类型。如果为 None需要在回调函数的类型注解中指定 msg_type: ROS 消息类型。如果为 None需要在回调函数的类型注解中指定
qos: QoS 深度配置,默认为 10 qos: QoS 深度配置,默认为 10
Example:
from std_msgs.msg import String, Float64
class MyDriver:
@subscribe(topic="/devices/{device_id}/set_speed", msg_type=Float64)
def on_speed_update(self, msg: Float64):
self._speed = msg.data
print(f"Speed updated to: {self._speed}")
@subscribe(topic="{namespace}/command")
def on_command(self, msg: String):
# msg_type 可从类型注解推断
self.execute_command(msg.data)
Note:
- 回调方法的第一个参数是 self第二个参数是收到的 ROS 消息
- topic 中的占位符会在创建订阅时被实际值替换
""" """
def decorator(func: F) -> F: def decorator(func: F) -> F:
@@ -129,7 +43,6 @@ def subscribe(
def wrapper(*args, **kwargs): def wrapper(*args, **kwargs):
return func(*args, **kwargs) return func(*args, **kwargs)
# 在函数上附加订阅配置
wrapper._subscribe_topic = topic # type: ignore[attr-defined] wrapper._subscribe_topic = topic # type: ignore[attr-defined]
wrapper._subscribe_msg_type = msg_type # type: ignore[attr-defined] wrapper._subscribe_msg_type = msg_type # type: ignore[attr-defined]
wrapper._subscribe_qos = qos # type: ignore[attr-defined] wrapper._subscribe_qos = qos # type: ignore[attr-defined]
@@ -141,15 +54,7 @@ def subscribe(
def get_subscribe_config(func) -> dict: def get_subscribe_config(func) -> dict:
""" """获取函数上的订阅配置 (topic, msg_type, qos)"""
获取函数上的订阅配置
Args:
func: 被装饰的函数
Returns:
包含 topic, msg_type, qos 的配置字典
"""
if hasattr(func, "_has_subscribe") and getattr(func, "_has_subscribe", False): if hasattr(func, "_has_subscribe") and getattr(func, "_has_subscribe", False):
return { return {
"topic": getattr(func, "_subscribe_topic", None), "topic": getattr(func, "_subscribe_topic", None),
@@ -163,9 +68,6 @@ def get_all_subscriptions(instance) -> list:
""" """
扫描实例的所有方法,获取带有 @subscribe 装饰器的方法及其配置 扫描实例的所有方法,获取带有 @subscribe 装饰器的方法及其配置
Args:
instance: 要扫描的实例
Returns: Returns:
包含 (method_name, method, config) 元组的列表 包含 (method_name, method, config) 元组的列表
""" """
@@ -184,92 +86,14 @@ def get_all_subscriptions(instance) -> list:
return subscriptions return subscriptions
def always_free(func: F) -> F: # ---------------------------------------------------------------------------
""" # 向后兼容重导出 -- 已迁移到 unilabos.registry.decorators
标记动作为永久闲置(不受busy队列限制)的装饰器 # ---------------------------------------------------------------------------
from unilabos.registry.decorators import ( # noqa: E402, F401
被此装饰器标记的 action 方法,在执行时不会受到设备级别的排队限制, topic_config,
任何时候请求都可以立即执行。适用于查询类、状态读取类等轻量级操作。 get_topic_config,
always_free,
Example: is_always_free,
class MyDriver: not_action,
@always_free is_not_action,
def query_status(self, param: str): )
# 这个动作可以随时执行,不需要排队
return self._status
def transfer(self, volume: float):
# 这个动作会按正常排队逻辑执行
pass
Note:
- 可以与其他装饰器组合使用,@always_free 应放在最外层
- 仅影响 WebSocket 调度层的 busy/free 判断,不影响 ROS2 层
"""
@wraps(func)
def wrapper(*args, **kwargs):
return func(*args, **kwargs)
wrapper._is_always_free = True # type: ignore[attr-defined]
return wrapper # type: ignore[return-value]
def is_always_free(func) -> bool:
"""
检查函数是否被标记为永久闲置
Args:
func: 被检查的函数
Returns:
如果函数被 @always_free 装饰则返回 True否则返回 False
"""
return getattr(func, "_is_always_free", False)
def not_action(func: F) -> F:
"""
标记方法为非动作的装饰器
用于装饰 driver 类中的方法,使其在 complete_registry 时不被识别为动作。
适用于辅助方法、内部工具方法等不应暴露为设备动作的公共方法。
Example:
class MyDriver:
@not_action
def helper_method(self):
# 这个方法不会被注册为动作
pass
def actual_action(self, param: str):
# 这个方法会被注册为动作
self.helper_method()
Note:
- 可以与其他装饰器组合使用,@not_action 应放在最外层
- 仅影响 complete_registry 的动作识别,不影响方法的正常调用
"""
@wraps(func)
def wrapper(*args, **kwargs):
return func(*args, **kwargs)
# 在函数上附加标记
wrapper._is_not_action = True # type: ignore[attr-defined]
return wrapper # type: ignore[return-value]
def is_not_action(func) -> bool:
"""
检查函数是否被标记为非动作
Args:
func: 被检查的函数
Returns:
如果函数被 @not_action 装饰则返回 True否则返回 False
"""
return getattr(func, "_is_not_action", False)

3
unilabos/utils/environment_check.py
View File

@@ -22,6 +22,7 @@ class EnvironmentChecker:
# "pymodbus.framer.FramerType": "pymodbus==3.9.2", # "pymodbus.framer.FramerType": "pymodbus==3.9.2",
"websockets": "websockets", "websockets": "websockets",
"msgcenterpy": "msgcenterpy", "msgcenterpy": "msgcenterpy",
"orjson": "orjson",
"opentrons_shared_data": "opentrons_shared_data", "opentrons_shared_data": "opentrons_shared_data",
"typing_extensions": "typing_extensions", "typing_extensions": "typing_extensions",
"crcmod": "crcmod-plus", "crcmod": "crcmod-plus",
@@ -32,7 +33,7 @@ class EnvironmentChecker:
# 包版本要求(包名: 最低版本) # 包版本要求(包名: 最低版本)
self.version_requirements = { self.version_requirements = {
"msgcenterpy": "0.1.5", # msgcenterpy 最低版本要求 "msgcenterpy": "0.1.7", # msgcenterpy 最低版本要求
} }
self.missing_packages = [] self.missing_packages = []

12
unilabos/utils/import_manager.py
View File

@@ -29,7 +29,7 @@ from ast import Constant
from unilabos.resources.resource_tracker import PARAM_SAMPLE_UUIDS from unilabos.resources.resource_tracker import PARAM_SAMPLE_UUIDS
from unilabos.utils import logger from unilabos.utils import logger
from unilabos.utils.decorator import is_not_action, is_always_free from unilabos.registry.decorators import is_not_action, is_always_free
class ImportManager: class ImportManager:
@@ -481,9 +481,15 @@ class ImportManager:
return False return False
def _is_always_free_method(self, node: ast.FunctionDef) -> bool: def _is_always_free_method(self, node: ast.FunctionDef) -> bool:
"""检查是否是@always_free装饰的方法""" """检查是否是@always_free装饰的方法,或 @action(always_free=True) 装饰的方法"""
for decorator in node.decorator_list: for decorator in node.decorator_list:
if isinstance(decorator, ast.Name) and decorator.id == "always_free": # 检查 @action(always_free=True)
if isinstance(decorator, ast.Call):
func = decorator.func
if isinstance(func, ast.Name) and func.id == "action":
for keyword in decorator.keywords:
if keyword.arg == "always_free":
if isinstance(keyword.value, Constant) and keyword.value.value is True:
return True return True
return False return False

1
unilabos/utils/log.py
View File

@@ -217,7 +217,6 @@ def configure_logger(loglevel=None, working_dir=None):
return log_filepath return log_filepath
# 配置日志系统 # 配置日志系统
configure_logger() configure_logger()

3
unilabos/utils/requirements.txt
View File

@@ -1,7 +1,8 @@
networkx networkx
typing_extensions typing_extensions
websockets websockets
msgcenterpy>=0.1.5 msgcenterpy>=0.1.7
orjson>=3.11
opentrons_shared_data opentrons_shared_data
pint pint
fastapi fastapi