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refactor: 14个协议编译器去重精简,删除死代码

Browse Source 
- 统一debug_print为共享import,移除14个本地定义
- 移除重复工具函数(find_connected_stirrer, get_vessel_liquid_volume等)
- 精简装饰性日志(emoji分隔线、进度提示),保留关键决策点
- 删除evacuateandrefill_protocol_old.py死代码
- 涉及文件:add, adjustph, clean_vessel, dissolve, dry, evacuateandrefill,
  evaporate, filter, pump, recrystallize, reset_handling, run_column,
  stir, wash_solid

Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
This commit is contained in:
Junhan Chang
2026-03-25 13:12:10 +08:00
parent 5f36b6c04b
commit 0ab4027de7
15 changed files with 1018 additions and 3461 deletions
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453
unilabos/compile/evacuateandrefill_protocol.py
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@@ -3,38 +3,14 @@ from functools import partial
import networkx as nx
import logging
import uuid
import sys
from typing import List, Dict, Any, Optional
from .utils.vessel_parser import get_vessel
from .utils.logger_util import action_log
from .utils.vessel_parser import get_vessel, find_connected_stirrer
from .utils.logger_util import debug_print, action_log
from .pump_protocol import generate_pump_protocol_with_rinsing, generate_pump_protocol
# 设置日志
logger = logging.getLogger(__name__)
# 确保输出编码为UTF-8
if hasattr(sys.stdout, 'reconfigure'):
try:
sys.stdout.reconfigure(encoding='utf-8')
sys.stderr.reconfigure(encoding='utf-8')
except:
pass
def debug_print(message):
"""调试输出函数 - 支持中文"""
try:
# 确保消息是字符串格式
safe_message = str(message)
logger.info(f"[抽真空充气] {safe_message}")
except UnicodeEncodeError:
# 如果编码失败,尝试替换不支持的字符
safe_message = str(message).encode('utf-8', errors='replace').decode('utf-8')
logger.info(f"[抽真空充气] {safe_message}")
except Exception as e:
# 最后的安全措施
fallback_message = f"日志输出错误: {repr(message)}"
logger.info(f"[抽真空充气] {fallback_message}")
create_action_log = partial(action_log, prefix="[抽真空充气]")
def find_gas_source(G: nx.DiGraph, gas: str) -> str:
@@ -44,10 +20,9 @@ def find_gas_source(G: nx.DiGraph, gas: str) -> str:
2. 气体类型匹配data.gas_type
3. 默认气源
"""
debug_print(f"🔍 正在查找气体 '{gas}' 的气源...")
# 第一步:通过容器名称匹配
debug_print(f"📋 方法1: 容器名称匹配...")
debug_print(f"正在查找气体 '{gas}' 的气源...")
# 通过容器名称匹配
gas_source_patterns = [
f"gas_source_{gas}",
f"gas_{gas}",
@@ -57,254 +32,178 @@ def find_gas_source(G: nx.DiGraph, gas: str) -> str:
f"reagent_bottle_{gas}",
f"bottle_{gas}"
]
debug_print(f"🎯 尝试的容器名称: {gas_source_patterns}")
for pattern in gas_source_patterns:
if pattern in G.nodes():
debug_print(f"通过名称找到气源: {pattern}")
debug_print(f"通过名称找到气源: {pattern}")
return pattern
# 第二步:通过气体类型匹配 (data.gas_type)
debug_print(f"📋 方法2: 气体类型匹配...")
# 通过气体类型匹配 (data.gas_type)
for node_id in G.nodes():
node_data = G.nodes[node_id]
node_class = node_data.get('class', '') or ''
# 检查是否是气源设备
if ('gas_source' in node_class or
'gas' in node_id.lower() or
if ('gas_source' in node_class or
'gas' in node_id.lower() or
node_id.startswith('flask_')):
# 检查 data.gas_type
data = node_data.get('data', {})
gas_type = data.get('gas_type', '')
if gas_type.lower() == gas.lower():
debug_print(f"通过气体类型找到气源: {node_id} (气体类型: {gas_type})")
debug_print(f"通过气体类型找到气源: {node_id} (气体类型: {gas_type})")
return node_id
# 检查 config.gas_type
config = node_data.get('config', {})
config_gas_type = config.get('gas_type', '')
if config_gas_type.lower() == gas.lower():
debug_print(f"通过配置气体类型找到气源: {node_id} (配置气体类型: {config_gas_type})")
debug_print(f"通过配置气体类型找到气源: {node_id} (配置气体类型: {config_gas_type})")
return node_id
# 第三步:查找所有可用的气源设备
debug_print(f"📋 方法3: 查找可用气源...")
# 查找所有可用的气源设备
available_gas_sources = []
for node_id in G.nodes():
node_data = G.nodes[node_id]
node_class = node_data.get('class', '') or ''
if ('gas_source' in node_class or
if ('gas_source' in node_class or
'gas' in node_id.lower() or
(node_id.startswith('flask_') and any(g in node_id.lower() for g in ['air', 'nitrogen', 'argon']))):
data = node_data.get('data', {})
gas_type = data.get('gas_type', '未知')
available_gas_sources.append(f"{node_id} (气体类型: {gas_type})")
debug_print(f"📊 可用气源: {available_gas_sources}")
# 第四步:如果找不到特定气体,使用默认的第一个气源
debug_print(f"📋 方法4: 查找默认气源...")
# 如果找不到特定气体,使用默认的第一个气源
default_gas_sources = [
node for node in G.nodes()
node for node in G.nodes()
if ((G.nodes[node].get('class') or '').find('virtual_gas_source') != -1
or 'gas_source' in node)
]
if default_gas_sources:
default_source = default_gas_sources[0]
debug_print(f"⚠️ 未找到特定气体 '{gas}',使用默认气源: {default_source}")
debug_print(f"未找到特定气体 '{gas}',使用默认气源: {default_source}")
return default_source
debug_print(f"❌ 所有方法都失败了!")
raise ValueError(f"无法找到气体 '{gas}' 的气源。可用气源: {available_gas_sources}")
def find_vacuum_pump(G: nx.DiGraph) -> str:
"""查找真空泵设备"""
debug_print("🔍 正在查找真空泵...")
vacuum_pumps = []
for node in G.nodes():
node_data = G.nodes[node]
node_class = node_data.get('class', '') or ''
if ('virtual_vacuum_pump' in node_class or
'vacuum_pump' in node.lower() or
if ('virtual_vacuum_pump' in node_class or
'vacuum_pump' in node.lower() or
'vacuum' in node_class.lower()):
vacuum_pumps.append(node)
debug_print(f"📋 发现真空泵: {node}")
if not vacuum_pumps:
debug_print(f"❌ 系统中未找到真空泵")
raise ValueError("系统中未找到真空泵")
debug_print(f"✅ 使用真空泵: {vacuum_pumps[0]}")
return vacuum_pumps[0]
def find_connected_stirrer(G: nx.DiGraph, vessel: str) -> Optional[str]:
"""查找与指定容器相连的搅拌器"""
debug_print(f"🔍 正在查找与容器 {vessel} 连接的搅拌器...")
stirrer_nodes = []
for node in G.nodes():
node_data = G.nodes[node]
node_class = node_data.get('class', '') or ''
if 'virtual_stirrer' in node_class or 'stirrer' in node.lower():
stirrer_nodes.append(node)
debug_print(f"📋 发现搅拌器: {node}")
debug_print(f"📊 找到的搅拌器总数: {len(stirrer_nodes)}")
# 检查哪个搅拌器与目标容器相连
for stirrer in stirrer_nodes:
if G.has_edge(stirrer, vessel) or G.has_edge(vessel, stirrer):
debug_print(f"✅ 找到连接的搅拌器: {stirrer}")
return stirrer
# 如果没有连接的搅拌器,返回第一个可用的
if stirrer_nodes:
debug_print(f"⚠️ 未找到直接连接的搅拌器,使用第一个可用的: {stirrer_nodes[0]}")
return stirrer_nodes[0]
debug_print("❌ 未找到搅拌器")
return None
if not vacuum_pumps:
raise ValueError("系统中未找到真空泵")
debug_print(f"使用真空泵: {vacuum_pumps[0]}")
return vacuum_pumps[0]
def find_vacuum_solenoid_valve(G: nx.DiGraph, vacuum_pump: str) -> Optional[str]:
"""查找真空泵相关的电磁阀"""
debug_print(f"🔍 正在查找真空泵 {vacuum_pump} 的电磁阀...")
# 查找所有电磁阀
solenoid_valves = []
for node in G.nodes():
node_data = G.nodes[node]
node_class = node_data.get('class', '') or ''
if ('solenoid' in node_class.lower() or 'solenoid_valve' in node.lower()):
solenoid_valves.append(node)
debug_print(f"📋 发现电磁阀: {node}")
debug_print(f"📊 找到的电磁阀: {solenoid_valves}")
# 检查连接关系
debug_print(f"📋 方法1: 检查连接关系...")
for solenoid in solenoid_valves:
if G.has_edge(solenoid, vacuum_pump) or G.has_edge(vacuum_pump, solenoid):
debug_print(f"找到连接的真空电磁阀: {solenoid}")
debug_print(f"找到连接的真空电磁阀: {solenoid}")
return solenoid
# 通过命名规则查找
debug_print(f"📋 方法2: 检查命名规则...")
for solenoid in solenoid_valves:
if 'vacuum' in solenoid.lower() or solenoid == 'solenoid_valve_1':
debug_print(f"通过命名找到真空电磁阀: {solenoid}")
debug_print(f"通过命名找到真空电磁阀: {solenoid}")
return solenoid
debug_print("⚠️ 未找到真空电磁阀")
debug_print("未找到真空电磁阀")
return None
def find_gas_solenoid_valve(G: nx.DiGraph, gas_source: str) -> Optional[str]:
"""查找气源相关的电磁阀"""
debug_print(f"🔍 正在查找气源 {gas_source} 的电磁阀...")
# 查找所有电磁阀
solenoid_valves = []
for node in G.nodes():
node_data = G.nodes[node]
node_class = node_data.get('class', '') or ''
if ('solenoid' in node_class.lower() or 'solenoid_valve' in node.lower()):
solenoid_valves.append(node)
debug_print(f"📊 找到的电磁阀: {solenoid_valves}")
# 检查连接关系
debug_print(f"📋 方法1: 检查连接关系...")
for solenoid in solenoid_valves:
if G.has_edge(gas_source, solenoid) or G.has_edge(solenoid, gas_source):
debug_print(f"找到连接的气源电磁阀: {solenoid}")
debug_print(f"找到连接的气源电磁阀: {solenoid}")
return solenoid
# 通过命名规则查找
debug_print(f"📋 方法2: 检查命名规则...")
for solenoid in solenoid_valves:
if 'gas' in solenoid.lower() or solenoid == 'solenoid_valve_2':
debug_print(f"通过命名找到气源电磁阀: {solenoid}")
debug_print(f"通过命名找到气源电磁阀: {solenoid}")
return solenoid
debug_print("⚠️ 未找到气源电磁阀")
debug_print("未找到气源电磁阀")
return None
def generate_evacuateandrefill_protocol(
G: nx.DiGraph,
vessel: dict, # 🔧 修改:从字符串改为字典类型
vessel: dict,
gas: str,
**kwargs
) -> List[Dict[str, Any]]:
"""
生成抽真空和充气操作的动作序列 - 中文版
生成抽真空和充气操作的动作序列
Args:
G: 设备图
vessel: 目标容器字典(必需)
gas: 气体名称(必需)
gas: 气体名称(必需)
**kwargs: 其他参数(兼容性)
Returns:
List[Dict[str, Any]]: 动作序列
"""
# 🔧 核心修改从字典中提取容器ID
vessel_id, vessel_data = get_vessel(vessel)
# 硬编码重复次数为 3
repeats = 3
# 生成协议ID
protocol_id = str(uuid.uuid4())
debug_print(f"🆔 生成协议ID: {protocol_id}")
debug_print("=" * 60)
debug_print("🧪 开始生成抽真空充气协议")
debug_print(f"📋 原始参数:")
debug_print(f" 🥼 vessel: {vessel} (ID: {vessel_id})")
debug_print(f" 💨 气体: '{gas}'")
debug_print(f" 🔄 循环次数: {repeats} (硬编码)")
debug_print(f" 📦 其他参数: {kwargs}")
debug_print("=" * 60)
debug_print(f"开始生成抽真空充气协议: vessel={vessel_id}, gas={gas}, repeats={repeats}")
action_sequence = []
# === 参数验证和修正 ===
debug_print("🔍 步骤1: 参数验证和修正...")
action_sequence.append(create_action_log(f"开始抽真空充气操作 - 容器: {vessel_id}", "🎬"))
action_sequence.append(create_action_log(f"目标气体: {gas}", "💨"))
action_sequence.append(create_action_log(f"循环次数: {repeats}", "🔄"))
# 验证必需参数
if not vessel_id:
debug_print("❌ 容器参数不能为空")
raise ValueError("容器参数不能为空")
if not gas:
debug_print("❌ 气体参数不能为空")
raise ValueError("气体参数不能为空")
if vessel_id not in G.nodes(): # 🔧 使用 vessel_id
debug_print(f"❌ 容器 '{vessel_id}' 在系统中不存在")
if vessel_id not in G.nodes():
raise ValueError(f"容器 '{vessel_id}' 在系统中不存在")
debug_print("✅ 基本参数验证通过")
action_sequence.append(create_action_log("参数验证通过", ""))
# 标准化气体名称
debug_print("🔧 标准化气体名称...")
gas_aliases = {
'n2': 'nitrogen',
'ar': 'argon',
@@ -319,61 +218,54 @@ def generate_evacuateandrefill_protocol(
'二氧化碳': 'carbon_dioxide',
'氢气': 'hydrogen'
}
original_gas = gas
gas_lower = gas.lower().strip()
if gas_lower in gas_aliases:
gas = gas_aliases[gas_lower]
debug_print(f"🔄 标准化气体名称: {original_gas} -> {gas}")
debug_print(f"标准化气体名称: {original_gas} -> {gas}")
action_sequence.append(create_action_log(f"气体名称标准化: {original_gas} -> {gas}", "🔄"))
debug_print(f"📋 最终参数: 容器={vessel_id}, 气体={gas}, 重复={repeats}")
debug_print(f"最终参数: 容器={vessel_id}, 气体={gas}, 重复={repeats}")
# === 查找设备 ===
debug_print("🔍 步骤2: 查找设备...")
action_sequence.append(create_action_log("正在查找相关设备...", "🔍"))
try:
vacuum_pump = find_vacuum_pump(G)
action_sequence.append(create_action_log(f"找到真空泵: {vacuum_pump}", "🌪️"))
gas_source = find_gas_source(G, gas)
action_sequence.append(create_action_log(f"找到气源: {gas_source}", "💨"))
vacuum_solenoid = find_vacuum_solenoid_valve(G, vacuum_pump)
if vacuum_solenoid:
action_sequence.append(create_action_log(f"找到真空电磁阀: {vacuum_solenoid}", "🚪"))
else:
action_sequence.append(create_action_log("未找到真空电磁阀", "⚠️"))
gas_solenoid = find_gas_solenoid_valve(G, gas_source)
if gas_solenoid:
action_sequence.append(create_action_log(f"找到气源电磁阀: {gas_solenoid}", "🚪"))
else:
action_sequence.append(create_action_log("未找到气源电磁阀", "⚠️"))
stirrer_id = find_connected_stirrer(G, vessel_id) # 🔧 使用 vessel_id
stirrer_id = find_connected_stirrer(G, vessel_id)
if stirrer_id:
action_sequence.append(create_action_log(f"找到搅拌器: {stirrer_id}", "🌪️"))
else:
action_sequence.append(create_action_log("未找到搅拌器", "⚠️"))
debug_print(f"📊 设备配置:")
debug_print(f" 🌪️ 真空泵: {vacuum_pump}")
debug_print(f" 💨 气源: {gas_source}")
debug_print(f" 🚪 真空电磁阀: {vacuum_solenoid}")
debug_print(f" 🚪 气源电磁阀: {gas_solenoid}")
debug_print(f" 🌪️ 搅拌器: {stirrer_id}")
debug_print(f"设备配置: 真空泵={vacuum_pump}, 气源={gas_source}, 搅拌器={stirrer_id}")
except Exception as e:
debug_print(f"设备查找失败: {str(e)}")
debug_print(f"设备查找失败: {str(e)}")
action_sequence.append(create_action_log(f"设备查找失败: {str(e)}", ""))
raise ValueError(f"设备查找失败: {str(e)}")
# === 参数设置 ===
debug_print("🔍 步骤3: 参数设置...")
action_sequence.append(create_action_log("设置操作参数...", "⚙️"))
# 根据气体类型调整参数
if gas.lower() in ['nitrogen', 'argon']:
VACUUM_VOLUME = 25.0
@@ -381,7 +273,6 @@ def generate_evacuateandrefill_protocol(
PUMP_FLOW_RATE = 2.0
VACUUM_TIME = 30.0
REFILL_TIME = 20.0
debug_print("💨 惰性气体: 使用标准参数")
action_sequence.append(create_action_log("检测到惰性气体,使用标准参数", "💨"))
elif gas.lower() in ['air', 'oxygen']:
VACUUM_VOLUME = 20.0
@@ -389,7 +280,6 @@ def generate_evacuateandrefill_protocol(
PUMP_FLOW_RATE = 1.5
VACUUM_TIME = 45.0
REFILL_TIME = 25.0
debug_print("🔥 活性气体: 使用保守参数")
action_sequence.append(create_action_log("检测到活性气体,使用保守参数", "🔥"))
else:
VACUUM_VOLUME = 15.0
@@ -397,116 +287,88 @@ def generate_evacuateandrefill_protocol(
PUMP_FLOW_RATE = 1.0
VACUUM_TIME = 60.0
REFILL_TIME = 30.0
debug_print("❓ 未知气体: 使用安全参数")
action_sequence.append(create_action_log("未知气体类型,使用安全参数", ""))
STIR_SPEED = 200.0
debug_print(f"⚙️ 操作参数:")
debug_print(f" 📏 真空体积: {VACUUM_VOLUME}mL")
debug_print(f" 📏 充气体积: {REFILL_VOLUME}mL")
debug_print(f" ⚡ 泵流速: {PUMP_FLOW_RATE}mL/s")
debug_print(f" ⏱️ 真空时间: {VACUUM_TIME}s")
debug_print(f" ⏱️ 充气时间: {REFILL_TIME}s")
debug_print(f" 🌪️ 搅拌速度: {STIR_SPEED}RPM")
action_sequence.append(create_action_log(f"真空体积: {VACUUM_VOLUME}mL", "📏"))
action_sequence.append(create_action_log(f"充气体积: {REFILL_VOLUME}mL", "📏"))
action_sequence.append(create_action_log(f"泵流速: {PUMP_FLOW_RATE}mL/s", ""))
# === 路径验证 ===
debug_print("🔍 步骤4: 路径验证...")
action_sequence.append(create_action_log("验证传输路径...", "🛤️"))
try:
# 验证抽真空路径
if nx.has_path(G, vessel_id, vacuum_pump): # 🔧 使用 vessel_id
if nx.has_path(G, vessel_id, vacuum_pump):
vacuum_path = nx.shortest_path(G, source=vessel_id, target=vacuum_pump)
debug_print(f"✅ 真空路径: {' -> '.join(vacuum_path)}")
action_sequence.append(create_action_log(f"真空路径: {' -> '.join(vacuum_path)}", "🛤️"))
else:
debug_print(f"⚠️ 真空路径不存在,继续执行但可能有问题")
action_sequence.append(create_action_log("真空路径检查: 路径不存在", "⚠️"))
# 验证充气路径
if nx.has_path(G, gas_source, vessel_id): # 🔧 使用 vessel_id
if nx.has_path(G, gas_source, vessel_id):
gas_path = nx.shortest_path(G, source=gas_source, target=vessel_id)
debug_print(f"✅ 气体路径: {' -> '.join(gas_path)}")
action_sequence.append(create_action_log(f"气体路径: {' -> '.join(gas_path)}", "🛤️"))
else:
debug_print(f"⚠️ 气体路径不存在,继续执行但可能有问题")
action_sequence.append(create_action_log("气体路径检查: 路径不存在", "⚠️"))
except Exception as e:
debug_print(f"⚠️ 路径验证失败: {str(e)},继续执行")
action_sequence.append(create_action_log(f"路径验证失败: {str(e)}", "⚠️"))
# === 启动搅拌器 ===
debug_print("🔍 步骤5: 启动搅拌器...")
if stirrer_id:
debug_print(f"🌪️ 启动搅拌器: {stirrer_id}")
action_sequence.append(create_action_log(f"启动搅拌器 {stirrer_id} (速度: {STIR_SPEED}rpm)", "🌪️"))
action_sequence.append({
"device_id": stirrer_id,
"action_name": "start_stir",
"action_kwargs": {
"vessel": {"id": vessel_id}, # 🔧 使用 vessel_id
"vessel": {"id": vessel_id},
"stir_speed": STIR_SPEED,
"purpose": "抽真空充气前预搅拌"
}
})
# 等待搅拌稳定
action_sequence.append(create_action_log("等待搅拌稳定...", ""))
action_sequence.append({
"action_name": "wait",
"action_kwargs": {"time": 5.0}
})
else:
debug_print("⚠️ 未找到搅拌器,跳过搅拌器启动")
action_sequence.append(create_action_log("跳过搅拌器启动", "⏭️"))
# === 执行循环 ===
debug_print("🔍 步骤6: 执行抽真空-充气循环...")
action_sequence.append(create_action_log(f"开始 {repeats} 次抽真空-充气循环", "🔄"))
for cycle in range(repeats):
debug_print(f"=== 第 {cycle+1}/{repeats} 轮循环 ===")
action_sequence.append(create_action_log(f"{cycle+1}/{repeats} 轮循环开始", "🚀"))
# ============ 抽真空阶段 ============
debug_print(f"🌪️ 抽真空阶段开始")
action_sequence.append(create_action_log("开始抽真空阶段", "🌪️"))
# 启动真空泵
debug_print(f"🔛 启动真空泵: {vacuum_pump}")
action_sequence.append(create_action_log(f"启动真空泵: {vacuum_pump}", "🔛"))
action_sequence.append({
"device_id": vacuum_pump,
"action_name": "set_status",
"action_kwargs": {"string": "ON"}
})
# 开启真空电磁阀
if vacuum_solenoid:
debug_print(f"🚪 打开真空电磁阀: {vacuum_solenoid}")
action_sequence.append(create_action_log(f"打开真空电磁阀: {vacuum_solenoid}", "🚪"))
action_sequence.append({
"device_id": vacuum_solenoid,
"action_name": "set_valve_position",
"action_kwargs": {"command": "OPEN"}
})
# 抽真空操作
debug_print(f"🌪️ 抽真空操作: {vessel_id} -> {vacuum_pump}")
action_sequence.append(create_action_log(f"开始抽真空: {vessel_id} -> {vacuum_pump}", "🌪️"))
try:
vacuum_transfer_actions = generate_pump_protocol_with_rinsing(
G=G,
from_vessel=vessel_id, # 🔧 使用 vessel_id
from_vessel=vessel_id,
to_vessel=vacuum_pump,
volume=VACUUM_VOLUME,
amount="",
@@ -519,27 +381,25 @@ def generate_evacuateandrefill_protocol(
flowrate=PUMP_FLOW_RATE,
transfer_flowrate=PUMP_FLOW_RATE
)
if vacuum_transfer_actions:
action_sequence.extend(vacuum_transfer_actions)
debug_print(f"✅ 添加了 {len(vacuum_transfer_actions)} 个抽真空动作")
action_sequence.append(create_action_log(f"抽真空协议完成 ({len(vacuum_transfer_actions)} 个操作)", ""))
else:
debug_print("⚠️ 抽真空协议返回空序列,添加手动动作")
action_sequence.append(create_action_log("抽真空协议为空,使用手动等待", "⚠️"))
action_sequence.append({
"action_name": "wait",
"action_kwargs": {"time": VACUUM_TIME}
})
except Exception as e:
debug_print(f"抽真空失败: {str(e)}")
debug_print(f"抽真空失败: {str(e)}")
action_sequence.append(create_action_log(f"抽真空失败: {str(e)}", ""))
action_sequence.append({
"action_name": "wait",
"action_kwargs": {"time": VACUUM_TIME}
})
# 抽真空后等待
wait_minutes = VACUUM_TIME / 60
action_sequence.append(create_action_log(f"抽真空后等待 ({wait_minutes:.1f} 分钟)", ""))
@@ -547,65 +407,59 @@ def generate_evacuateandrefill_protocol(
"action_name": "wait",
"action_kwargs": {"time": VACUUM_TIME}
})
# 关闭真空电磁阀
if vacuum_solenoid:
debug_print(f"🚪 关闭真空电磁阀: {vacuum_solenoid}")
action_sequence.append(create_action_log(f"关闭真空电磁阀: {vacuum_solenoid}", "🚪"))
action_sequence.append({
"device_id": vacuum_solenoid,
"action_name": "set_valve_position",
"action_kwargs": {"command": "CLOSED"}
})
# 关闭真空泵
debug_print(f"🔴 停止真空泵: {vacuum_pump}")
action_sequence.append(create_action_log(f"停止真空泵: {vacuum_pump}", "🔴"))
action_sequence.append({
"device_id": vacuum_pump,
"action_name": "set_status",
"action_kwargs": {"string": "OFF"}
})
# 阶段间等待
action_sequence.append(create_action_log("抽真空阶段完成,短暂等待", ""))
action_sequence.append({
"action_name": "wait",
"action_kwargs": {"time": 5.0}
})
# ============ 充气阶段 ============
debug_print(f"💨 充气阶段开始")
action_sequence.append(create_action_log("开始气体充气阶段", "💨"))
# 启动气源
debug_print(f"🔛 启动气源: {gas_source}")
action_sequence.append(create_action_log(f"启动气源: {gas_source}", "🔛"))
action_sequence.append({
"device_id": gas_source,
"action_name": "set_status",
"action_kwargs": {"string": "ON"}
})
# 开启气源电磁阀
if gas_solenoid:
debug_print(f"🚪 打开气源电磁阀: {gas_solenoid}")
action_sequence.append(create_action_log(f"打开气源电磁阀: {gas_solenoid}", "🚪"))
action_sequence.append({
"device_id": gas_solenoid,
"action_name": "set_valve_position",
"action_kwargs": {"command": "OPEN"}
})
# 充气操作
debug_print(f"💨 充气操作: {gas_source} -> {vessel_id}")
action_sequence.append(create_action_log(f"开始气体充气: {gas_source} -> {vessel_id}", "💨"))
try:
gas_transfer_actions = generate_pump_protocol_with_rinsing(
G=G,
from_vessel=gas_source,
to_vessel=vessel_id, # 🔧 使用 vessel_id
to_vessel=vessel_id,
volume=REFILL_VOLUME,
amount="",
time=0.0,
@@ -617,27 +471,25 @@ def generate_evacuateandrefill_protocol(
flowrate=PUMP_FLOW_RATE,
transfer_flowrate=PUMP_FLOW_RATE
)
if gas_transfer_actions:
action_sequence.extend(gas_transfer_actions)
debug_print(f"✅ 添加了 {len(gas_transfer_actions)} 个充气动作")
action_sequence.append(create_action_log(f"气体充气协议完成 ({len(gas_transfer_actions)} 个操作)", ""))
else:
debug_print("⚠️ 充气协议返回空序列,添加手动动作")
action_sequence.append(create_action_log("充气协议为空,使用手动等待", "⚠️"))
action_sequence.append({
"action_name": "wait",
"action_kwargs": {"time": REFILL_TIME}
})
except Exception as e:
debug_print(f"气体充气失败: {str(e)}")
debug_print(f"气体充气失败: {str(e)}")
action_sequence.append(create_action_log(f"气体充气失败: {str(e)}", ""))
action_sequence.append({
"action_name": "wait",
"action_kwargs": {"time": REFILL_TIME}
})
# 充气后等待
refill_wait_minutes = REFILL_TIME / 60
action_sequence.append(create_action_log(f"充气后等待 ({refill_wait_minutes:.1f} 分钟)", ""))
@@ -645,29 +497,26 @@ def generate_evacuateandrefill_protocol(
"action_name": "wait",
"action_kwargs": {"time": REFILL_TIME}
})
# 关闭气源电磁阀
if gas_solenoid:
debug_print(f"🚪 关闭气源电磁阀: {gas_solenoid}")
action_sequence.append(create_action_log(f"关闭气源电磁阀: {gas_solenoid}", "🚪"))
action_sequence.append({
"device_id": gas_solenoid,
"action_name": "set_valve_position",
"action_kwargs": {"command": "CLOSED"}
})
# 关闭气源
debug_print(f"🔴 停止气源: {gas_source}")
action_sequence.append(create_action_log(f"停止气源: {gas_source}", "🔴"))
action_sequence.append({
"device_id": gas_source,
"action_name": "set_status",
"action_kwargs": {"string": "OFF"}
})
# 循环间等待
if cycle < repeats - 1:
debug_print(f"⏳ 等待下一个循环...")
action_sequence.append(create_action_log("等待下一个循环...", ""))
action_sequence.append({
"action_name": "wait",
@@ -675,78 +524,58 @@ def generate_evacuateandrefill_protocol(
})
else:
action_sequence.append(create_action_log(f"{cycle+1}/{repeats} 轮循环完成", ""))
# === 停止搅拌器 ===
debug_print("🔍 步骤7: 停止搅拌器...")
if stirrer_id:
debug_print(f"🛑 停止搅拌器: {stirrer_id}")
action_sequence.append(create_action_log(f"停止搅拌器: {stirrer_id}", "🛑"))
action_sequence.append({
"device_id": stirrer_id,
"action_name": "stop_stir",
"action_kwargs": {"vessel": {"id": vessel_id},} # 🔧 使用 vessel_id
"action_kwargs": {"vessel": {"id": vessel_id},}
})
else:
action_sequence.append(create_action_log("跳过搅拌器停止", "⏭️"))
# === 最终等待 ===
action_sequence.append(create_action_log("最终稳定等待...", ""))
action_sequence.append({
"action_name": "wait",
"action_kwargs": {"time": 10.0}
})
# === 总结 ===
total_time = (VACUUM_TIME + REFILL_TIME + 25) * repeats + 20
debug_print("=" * 60)
debug_print(f"🎉 抽真空充气协议生成完成")
debug_print(f"📊 协议统计:")
debug_print(f" 📋 总动作数: {len(action_sequence)}")
debug_print(f" ⏱️ 预计总时间: {total_time:.0f}s ({total_time/60:.1f} 分钟)")
debug_print(f" 🥼 处理容器: {vessel_id}")
debug_print(f" 💨 使用气体: {gas}")
debug_print(f" 🔄 重复次数: {repeats}")
debug_print("=" * 60)
# 添加完成日志
debug_print(f"抽真空充气协议生成完成: {len(action_sequence)} 个动作, 预计 {total_time:.0f}s")
summary_msg = f"抽真空充气协议完成: {vessel_id} (使用 {gas}{repeats} 次循环)"
action_sequence.append(create_action_log(summary_msg, "🎉"))
return action_sequence
# === 便捷函数 ===
def generate_nitrogen_purge_protocol(G: nx.DiGraph, vessel: dict, **kwargs) -> List[Dict[str, Any]]: # 🔧 修改参数类型
def generate_nitrogen_purge_protocol(G: nx.DiGraph, vessel: dict, **kwargs) -> List[Dict[str, Any]]:
"""生成氮气置换协议"""
vessel_id = vessel["id"]
debug_print(f"💨 生成氮气置换协议: {vessel_id}")
return generate_evacuateandrefill_protocol(G, vessel, "nitrogen", **kwargs)
def generate_argon_purge_protocol(G: nx.DiGraph, vessel: dict, **kwargs) -> List[Dict[str, Any]]: # 🔧 修改参数类型
def generate_argon_purge_protocol(G: nx.DiGraph, vessel: dict, **kwargs) -> List[Dict[str, Any]]:
"""生成氩气置换协议"""
vessel_id = vessel["id"]
debug_print(f"💨 生成氩气置换协议: {vessel_id}")
return generate_evacuateandrefill_protocol(G, vessel, "argon", **kwargs)
def generate_air_purge_protocol(G: nx.DiGraph, vessel: dict, **kwargs) -> List[Dict[str, Any]]: # 🔧 修改参数类型
def generate_air_purge_protocol(G: nx.DiGraph, vessel: dict, **kwargs) -> List[Dict[str, Any]]:
"""生成空气置换协议"""
vessel_id = vessel["id"]
debug_print(f"💨 生成空气置换协议: {vessel_id}")
return generate_evacuateandrefill_protocol(G, vessel, "air", **kwargs)
def generate_inert_atmosphere_protocol(G: nx.DiGraph, vessel: dict, gas: str = "nitrogen", **kwargs) -> List[Dict[str, Any]]: # 🔧 修改参数类型
def generate_inert_atmosphere_protocol(G: nx.DiGraph, vessel: dict, gas: str = "nitrogen", **kwargs) -> List[Dict[str, Any]]:
"""生成惰性气氛协议"""
vessel_id = vessel["id"]
debug_print(f"🛡️ 生成惰性气氛协议: {vessel_id} (使用 {gas})")
return generate_evacuateandrefill_protocol(G, vessel, gas, **kwargs)
# 测试函数
def test_evacuateandrefill_protocol():
"""测试抽真空充气协议"""
debug_print("=== 抽真空充气协议增强中文版测试 ===")
debug_print("测试完成")
debug_print("=== 抽真空充气协议测试 ===")
debug_print("测试完成")
if __name__ == "__main__":
test_evacuateandrefill_protocol()
test_evacuateandrefill_protocol()