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fix:实例化 normal_chat,支持不同子聊天拥有不同参数,修复各种问题

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SengokuCola
2025-04-23 15:30:31 +08:00
parent ca2bbc9c85
commit b4054544c4
13 changed files with 1486 additions and 1207 deletions
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src/heart_flow/heartflow.py
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@@ -1,883 +1,116 @@
from src.heart_flow.sub_heartflow import SubHeartflow, ChattingObservation, ChatState
from src.plugins.moods.moods import MoodManager
from src.heart_flow.sub_heartflow import SubHeartflow
from src.plugins.models.utils_model import LLMRequest
from src.config.config import global_config
from src.plugins.schedule.schedule_generator import bot_schedule
from src.plugins.utils.prompt_builder import Prompt, global_prompt_manager
import asyncio
from src.common.logger import get_module_logger, LogConfig, HEARTFLOW_STYLE_CONFIG # 修改
from src.individuality.individuality import Individuality
import time
import random
from typing import Dict, Any, Optional, TYPE_CHECKING
import traceback
import enum
import os # 新增
import json # 新增
from src.plugins.chat.chat_stream import chat_manager # 新增
# --- Add imports for merged dependencies ---
from src.common.logger import get_module_logger, LogConfig, HEARTFLOW_STYLE_CONFIG
from typing import Any, Optional
from src.plugins.heartFC_chat.heartFC_generator import ResponseGenerator
from src.do_tool.tool_use import ToolUser
from src.plugins.chat.emoji_manager import emoji_manager # Module instance
from src.plugins.person_info.relationship_manager import relationship_manager # Module instance
# --- End imports ---
from src.heart_flow.mai_state_manager import MaiStateInfo, MaiStateManager
from src.heart_flow.subheartflow_manager import SubHeartflowManager
from src.heart_flow.mind import Mind
from src.heart_flow.interest_logger import InterestLogger # Import InterestLogger
from src.heart_flow.background_tasks import BackgroundTaskManager # Import BackgroundTaskManager
# --- End import ---
heartflow_config = LogConfig(
# 使用海马体专用样式
console_format=HEARTFLOW_STYLE_CONFIG["console_format"],
file_format=HEARTFLOW_STYLE_CONFIG["file_format"],
)
logger = get_module_logger("heartflow", config=heartflow_config)
# Type hinting for circular dependency
if TYPE_CHECKING:
from src.heart_flow.sub_heartflow import SubHeartflow, ChatState # Keep SubHeartflow here too
# from src.plugins.heartFC_chat.heartFC_controler import HeartFCController # No longer needed
# Task Intervals (should be in BackgroundTaskManager or config)
CLEANUP_INTERVAL_SECONDS = 1200
STATE_UPDATE_INTERVAL_SECONDS = 30
def init_prompt():
prompt = ""
prompt += "你刚刚在做的事情是:{schedule_info}\n"
prompt += "{personality_info}\n"
prompt += "你想起来{related_memory_info}"
prompt += "刚刚你的主要想法是{current_thinking_info}"
prompt += "你还有一些小想法,因为你在参加不同的群聊天,这是你正在做的事情:{sub_flows_info}\n"
prompt += "你现在{mood_info}"
prompt += "现在你接下去继续思考,产生新的想法,但是要基于原有的主要想法,不要分点输出,"
prompt += "输出连贯的内心独白,不要太长,但是记得结合上述的消息,关注新内容:"
Prompt(prompt, "thinking_prompt")
prompt = ""
prompt += "{personality_info}\n"
prompt += "现在{bot_name}的想法是:{current_mind}\n"
prompt += "现在{bot_name}在qq群里进行聊天聊天的话题如下{minds_str}\n"
prompt += "你现在{mood_info}\n"
prompt += """现在请你总结这些聊天内容,注意关注聊天内容对原有的想法的影响,输出连贯的内心独白
不要太长,但是记得结合上述的消息,要记得你的人设,关注新内容:"""
Prompt(prompt, "mind_summary_prompt")
# --- 新增:从 interest.py 移动过来的常量 ---
LOG_DIRECTORY = "logs/interest"
HISTORY_LOG_FILENAME = "interest_history.log"
CLEANUP_INTERVAL_SECONDS = 1200 # 清理任务运行间隔 (例如20分钟) - 保持与 interest.py 一致
INACTIVE_THRESHOLD_SECONDS = 1200 # 不活跃时间阈值 (例如20分钟) - 保持与 interest.py 一致
LOG_INTERVAL_SECONDS = 3 # 日志记录间隔 (例如3秒) - 保持与 interest.py 一致
# --- 结束新增常量 ---
# --- 新增:状态更新常量 ---
STATE_UPDATE_INTERVAL_SECONDS = 30 # 状态更新检查间隔(秒)
FIVE_MINUTES = 1 * 60
FIFTEEN_MINUTES = 5 * 60
TWENTY_MINUTES = 10 * 60
# --- 结束新增常量 ---
# 新增 ChatStatus 枚举
class MaiState(enum.Enum):
"""
聊天状态:
OFFLINE: 不在线:回复概率极低,不会进行任何聊天
PEEKING: 看一眼手机:回复概率较低,会进行一些普通聊天
NORMAL_CHAT: 正常聊天:回复概率较高,会进行一些普通聊天和少量的专注聊天
FOCUSED_CHAT: 专注聊天:回复概率极高,会进行专注聊天和少量的普通聊天
"""
OFFLINE = "不在线"
PEEKING = "看一眼手机"
NORMAL_CHAT = "正常聊天"
FOCUSED_CHAT = "专注聊天"
def get_normal_chat_max_num(self):
if self == MaiState.OFFLINE:
return 0
elif self == MaiState.PEEKING:
return 1
elif self == MaiState.NORMAL_CHAT:
return 3
elif self == MaiState.FOCUSED_CHAT:
return 2
def get_focused_chat_max_num(self):
if self == MaiState.OFFLINE:
return 0
elif self == MaiState.PEEKING:
return 0
elif self == MaiState.NORMAL_CHAT:
return 1
elif self == MaiState.FOCUSED_CHAT:
return 2
class MaiStateInfo:
def __init__(self):
# 使用枚举类型初始化状态,默认为正常聊天
self.mai_status: MaiState = MaiState.OFFLINE
self.mai_status_history = [] # 历史状态,包含 状态,最后时间
self.last_status_change_time: float = time.time() # 新增:状态最后改变时间
self.last_5min_check_time: float = time.time() # 新增上次5分钟规则检查时间
self.normal_chatting = []
self.focused_chatting = []
self.mood_manager = MoodManager()
self.mood = self.mood_manager.get_prompt()
# 新增更新聊天状态的方法
def update_mai_status(self, new_status: MaiState):
"""更新聊天状态"""
if isinstance(new_status, MaiState) and new_status != self.mai_status: # 只有状态实际改变时才更新
self.mai_status = new_status
current_time = time.time()
self.last_status_change_time = current_time # 更新状态改变时间
self.last_5min_check_time = current_time # 重置5分钟检查计时器
# 将新状态和时间戳添加到历史记录
self.mai_status_history.append((new_status, current_time))
logger.info(f"麦麦状态更新为: {self.mai_status.value}")
elif not isinstance(new_status, MaiState):
logger.warning(f"尝试设置无效的麦麦状态: {new_status}")
# else: # 状态未改变,不处理
# pass
# Thresholds (should be in SubHeartflowManager or config)
INACTIVE_THRESHOLD_SECONDS = 1200
# --- End Constants --- #
class Heartflow:
"""主心流协调器,负责初始化并协调各个子系统:
- 状态管理 (MaiState)
- 子心流管理 (SubHeartflow)
- 思考过程 (Mind)
- 日志记录 (InterestLogger)
- 后台任务 (BackgroundTaskManager)
"""
def __init__(self):
self.current_mind = "你什么也没想"
self.past_mind = []
self.current_state: MaiStateInfo = MaiStateInfo()
# 核心状态
self.current_mind = "什么也没想" # 当前主心流想法
self.past_mind = [] # 历史想法记录
# 状态管理相关
self.current_state: MaiStateInfo = MaiStateInfo() # 当前状态信息
self.mai_state_manager: MaiStateManager = MaiStateManager() # 状态决策管理器
# 子心流管理
self.subheartflow_manager: SubHeartflowManager = SubHeartflowManager() # 子心流管理器
# LLM模型配置
self.llm_model = LLMRequest(
model=global_config.llm_heartflow, temperature=0.6, max_tokens=1000, request_type="heart_flow"
)
self._subheartflows: Dict[Any, "SubHeartflow"] = {} # Update type hint
# 外部依赖模块
self.gpt_instance = ResponseGenerator() # 响应生成器
self.tool_user_instance = ToolUser() # 工具使用模块
self.relationship_manager_instance = relationship_manager # 关系管理模块
# --- Dependencies moved from HeartFCController ---
self.gpt_instance = ResponseGenerator()
self.mood_manager = (
MoodManager.get_instance()
) # Note: MaiStateInfo also has one, consider consolidating later if needed
self.tool_user_instance = ToolUser()
self.emoji_manager_instance = emoji_manager # Module instance
self.relationship_manager_instance = relationship_manager # Module instance
# --- End moved dependencies ---
# 子系统初始化
self.mind: Mind = Mind(self.subheartflow_manager, self.llm_model) # 思考管理器
self.interest_logger: InterestLogger = InterestLogger(self.subheartflow_manager) # 兴趣日志记录器
# --- Background Task Management ---
self._history_log_file_path = os.path.join(LOG_DIRECTORY, HISTORY_LOG_FILENAME)
self._ensure_log_directory() # 初始化时确保目录存在
self._cleanup_task: Optional[asyncio.Task] = None
self._logging_task: Optional[asyncio.Task] = None
self._state_update_task: Optional[asyncio.Task] = None # 新增:状态更新任务
# 注意:衰减任务 (_decay_task) 不再需要,衰减在 SubHeartflow 的 InterestChatting 内部处理
# --- End moved dependencies ---
def _ensure_log_directory(self): # 新增方法 (从 InterestManager 移动)
"""确保日志目录存在"""
# 移除 try-except 块,根据用户要求
os.makedirs(LOG_DIRECTORY, exist_ok=True)
logger.info(f"Log directory '{LOG_DIRECTORY}' ensured.")
# except OSError as e:
# logger.error(f"Error creating log directory '{LOG_DIRECTORY}': {e}")
async def _periodic_cleanup_task(
self, interval_seconds: int, max_age_seconds: int
): # 新增方法 (从 InterestManager 移动和修改)
"""后台清理任务的异步函数"""
while True:
await asyncio.sleep(interval_seconds)
logger.info(f"[Heartflow] 运行定期清理 (间隔: {interval_seconds}秒)...")
self.cleanup_inactive_subheartflows(max_age_seconds=max_age_seconds) # 调用 Heartflow 自己的清理方法
async def _periodic_log_task(self, interval_seconds: int): # 新增方法 (从 InterestManager 移动和修改)
"""后台日志记录任务的异步函数 (记录所有子心流的兴趣历史数据)"""
while True:
await asyncio.sleep(interval_seconds)
try:
current_timestamp = time.time()
all_interest_states = await self.get_all_interest_states() # 获取所有子心流的兴趣状态
# 以追加模式打开历史日志文件
# 移除 try-except IO 块,根据用户要求
with open(self._history_log_file_path, "a", encoding="utf-8") as f:
count = 0
# 创建 items 快照以安全迭代
items_snapshot = list(all_interest_states.items())
for stream_id, state in items_snapshot:
# 从 chat_manager 获取 group_name
group_name = stream_id # 默认值
try:
chat_stream = chat_manager.get_stream(stream_id)
if chat_stream and chat_stream.group_info:
group_name = chat_stream.group_info.group_name
elif chat_stream and not chat_stream.group_info: # 处理私聊
group_name = (
f"私聊_{chat_stream.user_info.user_nickname}"
if chat_stream.user_info
else stream_id
)
except Exception:
# 不记录警告,避免刷屏,使用默认 stream_id 即可
# logger.warning(f"Could not get group name for stream_id {stream_id}: {e}")
pass # 静默处理
log_entry = {
"timestamp": round(current_timestamp, 2),
"stream_id": stream_id,
"interest_level": state.get("interest_level", 0.0), # 使用 get 获取,提供默认值
"group_name": group_name,
"reply_probability": state.get("current_reply_probability", 0.0), # 使用 get 获取
"is_above_threshold": state.get("is_above_threshold", False), # 使用 get 获取
}
# 将每个条目作为单独的 JSON 行写入
f.write(json.dumps(log_entry, ensure_ascii=False) + "\n")
count += 1
# logger.debug(f"[Heartflow] Successfully appended {count} interest history entries to {self._history_log_file_path}")
# except IOError as e:
# logger.error(f"[Heartflow] Error writing interest history log to {self._history_log_file_path}: {e}")
except Exception as e: # 保留对其他异常的捕获
logger.error(f"[Heartflow] Unexpected error during periodic history logging: {e}")
logger.error(traceback.format_exc()) # 记录 traceback
async def _periodic_state_update_task(self):
"""定期检查并更新 Mai 状态"""
while True:
await asyncio.sleep(STATE_UPDATE_INTERVAL_SECONDS)
try:
current_time = time.time()
# 获取更新前的状态
previous_status = self.current_state.mai_status
current_status = self.current_state.mai_status # 保持此行以进行后续逻辑
time_in_current_status = current_time - self.current_state.last_status_change_time
time_since_last_5min_check = current_time - self.current_state.last_5min_check_time
next_state = None # 预设下一状态为 None
# --- 状态转换逻辑 (保持不变) ---
# 1. 通用规则每5分钟检查 (对于非 OFFLINE 状态)
if time_since_last_5min_check >= FIVE_MINUTES:
self.current_state.last_5min_check_time = current_time # 重置5分钟检查计时器无论是否切换
if current_status != MaiState.OFFLINE:
if random.random() < 0.10: # 10% 概率切换到 OFFLINE
logger.debug(f"[Heartflow State] 触发5分钟规则{current_status.value} 切换到 OFFLINE")
next_state = MaiState.OFFLINE # 设置 next_state 而不是直接更新
# self.current_state.update_mai_status(MaiState.OFFLINE)
# continue # 状态已改变,进入下一轮循环
# 2. 状态持续时间规则 (仅在未被5分钟规则覆盖时执行)
if next_state is None: # 仅当5分钟规则未触发切换时检查持续时间
if current_status == MaiState.OFFLINE:
# OFFLINE 状态下检查是否已持续5分钟
if time_in_current_status >= FIVE_MINUTES:
weights = [35, 35, 30]
choices_list = [MaiState.PEEKING, MaiState.NORMAL_CHAT, MaiState.OFFLINE]
next_state_candidate = random.choices(choices_list, weights=weights, k=1)[0]
if next_state_candidate != MaiState.OFFLINE:
next_state = next_state_candidate
logger.debug(f"[Heartflow State] OFFLINE 持续时间达到,切换到 {next_state.value}")
else:
# 保持 OFFLINE重置计时器以开始新的5分钟计时
logger.debug("[Heartflow State] OFFLINE 持续时间达到,保持 OFFLINE重置计时器")
self.current_state.last_status_change_time = current_time
self.current_state.last_5min_check_time = current_time # 保持一致
# 显式将 next_state 设为 OFFLINE 以便后续处理
next_state = MaiState.OFFLINE
elif current_status == MaiState.PEEKING:
if time_in_current_status >= FIVE_MINUTES: # PEEKING 最多持续 5 分钟
weights = [50, 30, 20]
choices_list = [MaiState.OFFLINE, MaiState.NORMAL_CHAT, MaiState.FOCUSED_CHAT]
next_state = random.choices(choices_list, weights=weights, k=1)[0]
logger.debug(f"[Heartflow State] PEEKING 持续时间达到,切换到 {next_state.value}")
elif current_status == MaiState.NORMAL_CHAT:
if time_in_current_status >= FIFTEEN_MINUTES: # NORMAL_CHAT 最多持续 15 分钟
weights = [50, 50]
choices_list = [MaiState.OFFLINE, MaiState.FOCUSED_CHAT]
next_state = random.choices(choices_list, weights=weights, k=1)[0]
logger.debug(f"[Heartflow State] NORMAL_CHAT 持续时间达到,切换到 {next_state.value}")
elif current_status == MaiState.FOCUSED_CHAT:
if time_in_current_status >= TWENTY_MINUTES: # FOCUSED_CHAT 最多持续 20 分钟
weights = [80, 20]
choices_list = [MaiState.OFFLINE, MaiState.NORMAL_CHAT]
next_state = random.choices(choices_list, weights=weights, k=1)[0]
logger.debug(f"[Heartflow State] FOCUSED_CHAT 持续时间达到,切换到 {next_state.value}")
# --- 状态转换逻辑结束 ---
# --- 更新状态并执行相关操作 --- #
if next_state is not None:
# 检查状态是否真的改变了
if next_state != previous_status:
logger.info(f"[Heartflow] 准备从 {previous_status.value} 转换状态到 {next_state.value}")
self.current_state.update_mai_status(next_state)
# 在状态改变后,强制执行子心流数量限制 (保持)
await self._enforce_subheartflow_limits(next_state)
# --- 新增逻辑:根据状态转换调整子心流 --- #
if previous_status == MaiState.OFFLINE and next_state != MaiState.OFFLINE:
logger.info("[Heartflow] 主状态从 OFFLINE 激活,尝试激活子心流到 CHAT 状态。")
await self._activate_random_subflows_to_chat(next_state)
elif next_state == MaiState.OFFLINE and previous_status != MaiState.OFFLINE:
logger.info("[Heartflow] 主状态变为 OFFLINE停用所有子心流活动。")
await self._deactivate_all_subflows_on_offline()
# --- 结束新增逻辑 --- #
elif next_state == MaiState.OFFLINE and previous_status == MaiState.OFFLINE:
# 如果决定保持 OFFLINE 状态(例如,因为随机选择或持续时间规则),并且之前已经是 OFFLINE
# 确保计时器被重置 (这在上面的持续时间规则中已处理,但为了清晰再次确认)
if time_in_current_status >= FIVE_MINUTES:
# 确保计时器已在上面重置,这里无需操作,只记录日志
logger.debug("[Heartflow State] 保持 OFFLINE 状态,计时器已重置。")
pass # 无需状态转换,也无需调用激活/停用逻辑
# --- 如果没有确定 next_state (即没有触发任何切换规则) --- #
# logger.debug(f"[Heartflow State] 状态未改变,保持 {current_status.value}") # 减少日志噪音
# --- Integrated Interest Evaluation Logic (formerly in Controller loop) ---
if self.current_state.mai_status != MaiState.OFFLINE:
try:
# Use snapshot for safe iteration
subflows_snapshot = list(self._subheartflows.values())
evaluated_count = 0
promoted_count = 0
for sub_hf in subflows_snapshot:
# Double-check if subflow still exists and is in CHAT state
if sub_hf.subheartflow_id in self._subheartflows and sub_hf.chat_state.chat_status == ChatState.CHAT:
evaluated_count += 1
if await sub_hf.should_evaluate_reply():
stream_name = chat_manager.get_stream_name(sub_hf.subheartflow_id) or sub_hf.subheartflow_id
log_prefix = f"[{stream_name}]"
logger.info(f"{log_prefix} 兴趣概率触发,尝试将状态从 CHAT 提升到 FOCUSED")
# set_chat_state handles limit checks and HeartFChatting creation internally
await sub_hf.set_chat_state(ChatState.FOCUSED)
# Check if state actually changed (set_chat_state might block due to limits)
if sub_hf.chat_state.chat_status == ChatState.FOCUSED:
promoted_count += 1
# else: # No need to log every non-trigger event
# logger.trace(f"[{sub_hf.subheartflow_id}] In CHAT state, but should_evaluate_reply returned False.")
if evaluated_count > 0:
logger.debug(
f"[Heartflow Interest Eval] Evaluated {evaluated_count} CHAT flows. Promoted {promoted_count} to FOCUSED."
)
except Exception as e:
logger.error(f"[Heartflow] 兴趣评估任务出错: {e}")
logger.error(traceback.format_exc())
# --- End Integrated Interest Evaluation ---
except Exception as e:
logger.error(f"[Heartflow] 状态更新任务出错: {e}")
logger.error(traceback.format_exc())
logger.info(f"当前状态:{self.current_state.mai_status.value}")
async def get_all_interest_states(self) -> Dict[str, Dict]: # <-- Make async
"""获取所有活跃子心流的当前兴趣状态"""
states = {}
# 创建副本以避免在迭代时修改字典
items_snapshot = list(self._subheartflows.items()) # Make a copy for safe iteration
tasks = []
results = {}
# Create tasks to get state concurrently
for stream_id, subheartflow in items_snapshot:
# Ensure subheartflow still exists before creating task
if stream_id in self._subheartflows:
tasks.append(asyncio.create_task(subheartflow.get_interest_state(), name=f"get_state_{stream_id}"))
else:
logger.warning(f"[Heartflow] Subheartflow {stream_id} disappeared before getting state.")
# Wait for all tasks to complete
if tasks:
done, pending = await asyncio.wait(tasks, timeout=5.0) # Add a timeout
if pending:
logger.warning(f"[Heartflow] Getting interest states timed out for {len(pending)} tasks.")
for task in pending:
task.cancel()
for task in done:
stream_id = task.get_name().split("_")[-1] # Extract stream_id from task name
try:
result = task.result()
results[stream_id] = result
except asyncio.CancelledError:
logger.warning(f"[Heartflow] Task to get interest state for {stream_id} was cancelled (timeout).")
except Exception as e:
logger.warning(f"[Heartflow] Error getting interest state for subheartflow {stream_id}: {e}")
return results
def cleanup_inactive_subheartflows(self, max_age_seconds=INACTIVE_THRESHOLD_SECONDS): # 修改此方法以使用兴趣时间
"""
清理长时间不活跃的子心流记录 (基于兴趣交互时间)
max_age_seconds: 超过此时间未通过兴趣系统交互的将被清理
"""
current_time = time.time()
keys_to_remove = []
_initial_count = len(self._subheartflows)
# 创建副本以避免在迭代时修改字典
items_snapshot = list(self._subheartflows.items())
for subheartflow_id, subheartflow in items_snapshot:
should_remove = False
reason = ""
# 检查 InterestChatting 的最后交互时间
last_interaction = subheartflow.interest_chatting.last_interaction_time
if max_age_seconds is not None and (current_time - last_interaction) > max_age_seconds:
should_remove = True
reason = (
f"interest inactive time ({current_time - last_interaction:.0f}s) > max age ({max_age_seconds}s)"
)
if should_remove:
keys_to_remove.append(subheartflow_id)
stream_name = chat_manager.get_stream_name(subheartflow_id) or subheartflow_id # 获取流名称
logger.debug(f"[Heartflow] Marking stream {stream_name} for removal. Reason: {reason}")
# 标记子心流让其后台任务停止 (如果其后台任务还在运行)
subheartflow.should_stop = True
if keys_to_remove:
logger.info(f"[Heartflow] 清理识别到 {len(keys_to_remove)} 个不活跃的流。")
for key in keys_to_remove:
if key in self._subheartflows:
# 尝试取消子心流的后台任务
task_to_cancel = self._subheartflows[key].task
if task_to_cancel and not task_to_cancel.done():
task_to_cancel.cancel()
logger.debug(f"[Heartflow] Cancelled background task for subheartflow {key}")
# 从字典中删除
del self._subheartflows[key]
stream_name = chat_manager.get_stream_name(key) or key # 获取流名称
logger.debug(f"[Heartflow] 移除了流: {stream_name}")
final_count = len(self._subheartflows) # 直接获取当前长度
logger.info(f"[Heartflow] 清理完成。移除了 {len(keys_to_remove)} 个流。当前数量: {final_count}")
else:
# logger.info(f"[Heartflow] 清理完成。没有流符合移除条件。当前数量: {initial_count}") # 减少日志噪音
pass
async def heartflow_start_working(self):
# 启动清理任务 (使用新的 periodic_cleanup_task)
if self._cleanup_task is None or self._cleanup_task.done():
self._cleanup_task = asyncio.create_task(
self._periodic_cleanup_task(
interval_seconds=CLEANUP_INTERVAL_SECONDS,
max_age_seconds=INACTIVE_THRESHOLD_SECONDS,
)
)
logger.info(
f"[Heartflow] 已创建定期清理任务。间隔: {CLEANUP_INTERVAL_SECONDS}s, 不活跃阈值: {INACTIVE_THRESHOLD_SECONDS}s"
)
else:
logger.warning("[Heartflow] 跳过创建清理任务: 任务已在运行或存在。")
# 启动日志任务 (使用新的 periodic_log_task)
if self._logging_task is None or self._logging_task.done():
self._logging_task = asyncio.create_task(self._periodic_log_task(interval_seconds=LOG_INTERVAL_SECONDS))
logger.info(f"[Heartflow] 已创建定期日志任务。间隔: {LOG_INTERVAL_SECONDS}s")
else:
logger.warning("[Heartflow] 跳过创建日志任务: 任务已在运行或存在。")
# 新增:启动状态更新任务
if self._state_update_task is None or self._state_update_task.done():
self._state_update_task = asyncio.create_task(self._periodic_state_update_task())
logger.info(f"[Heartflow] 已创建定期状态更新任务。间隔: {STATE_UPDATE_INTERVAL_SECONDS}s")
else:
logger.warning("[Heartflow] 跳过创建状态更新任务: 任务已在运行或存在。")
# --- 新增:在启动时根据初始状态激活子心流 ---
if self.current_state.mai_status != MaiState.OFFLINE:
logger.info(f"[Heartflow] 初始状态为 {self.current_state.mai_status.value},执行初始子心流激活检查。")
# 使用 create_task 确保它不会阻塞 heartflow_start_working 的完成
# 传递当前状态给激活函数,以便它知道激活的限制
asyncio.create_task(self._activate_random_subflows_to_chat(self.current_state.mai_status))
# --- 结束新增逻辑 ---
@staticmethod
async def _update_current_state():
print("TODO")
async def do_a_thinking(self):
# logger.debug("麦麦大脑袋转起来了")
# 开始构建prompt
prompt_personality = ""
# person
individuality = Individuality.get_instance()
personality_core = individuality.personality.personality_core
prompt_personality += personality_core
personality_sides = individuality.personality.personality_sides
# 检查列表是否为空
if personality_sides:
random.shuffle(personality_sides)
prompt_personality += f",{personality_sides[0]}"
identity_detail = individuality.identity.identity_detail
# 检查列表是否为空
if identity_detail:
random.shuffle(identity_detail)
prompt_personality += f",{identity_detail[0]}"
personality_info = prompt_personality
current_thinking_info = self.current_mind
mood_info = self.current_state.mood
related_memory_info = "memory" # TODO: 替换为实际的记忆获取逻辑
try:
sub_flows_info = await self.get_all_subheartflows_minds_summary() # 修改为调用汇总方法
except Exception as e:
logger.error(f"[Heartflow] 获取子心流想法汇总失败: {e}")
logger.error(traceback.format_exc())
sub_flows_info = "(获取子心流想法时出错)" # 提供默认值
schedule_info = bot_schedule.get_current_num_task(num=4, time_info=True)
prompt = (await global_prompt_manager.get_prompt_async("thinking_prompt")).format(
schedule_info=schedule_info, # 使用关键字参数确保正确格式化
personality_info=personality_info,
related_memory_info=related_memory_info,
current_thinking_info=current_thinking_info,
sub_flows_info=sub_flows_info,
mood_info=mood_info,
# 后台任务管理器 (整合所有定时任务)
self.background_task_manager: BackgroundTaskManager = BackgroundTaskManager(
mai_state_info=self.current_state,
mai_state_manager=self.mai_state_manager,
subheartflow_manager=self.subheartflow_manager,
interest_logger=self.interest_logger,
update_interval=STATE_UPDATE_INTERVAL_SECONDS,
cleanup_interval=CLEANUP_INTERVAL_SECONDS,
log_interval=3, # Example: Using value directly, ideally get from config
inactive_threshold=INACTIVE_THRESHOLD_SECONDS,
)
try:
response, reasoning_content = await self.llm_model.generate_response_async(prompt)
if not response:
logger.warning("[Heartflow] 内心独白 LLM 返回空结果。")
response = "(暂时没什么想法...)" # 提供默认想法
self.update_current_mind(response) # 更新主心流想法
logger.info(f"麦麦的总体脑内状态:{self.current_mind}")
# 更新所有子心流的主心流信息
items_snapshot = list(self._subheartflows.items()) # 创建快照
for _, subheartflow in items_snapshot:
subheartflow.main_heartflow_info = response
except Exception as e:
logger.error(f"[Heartflow] 内心独白获取失败: {e}")
logger.error(traceback.format_exc())
# 此处不返回,允许程序继续执行,但主心流想法未更新
def update_current_mind(self, response):
self.past_mind.append(self.current_mind)
self.current_mind = response
async def get_all_subheartflows_minds_summary(self): # 重命名并修改
"""获取所有子心流的当前想法,并进行汇总"""
sub_minds_list = []
# 创建快照
items_snapshot = list(self._subheartflows.items())
for _, subheartflow in items_snapshot:
sub_minds_list.append(subheartflow.current_mind)
if not sub_minds_list:
return "(当前没有活跃的子心流想法)"
minds_str = "\n".join([f"- {mind}" for mind in sub_minds_list]) # 格式化为列表
# 调用 LLM 进行汇总
return await self.minds_summary(minds_str)
async def minds_summary(self, minds_str):
"""使用 LLM 汇总子心流的想法字符串"""
# 开始构建prompt
prompt_personality = ""
individuality = Individuality.get_instance()
prompt_personality += individuality.personality.personality_core
if individuality.personality.personality_sides:
prompt_personality += f",{random.choice(individuality.personality.personality_sides)}" # 随机选一个
if individuality.identity.identity_detail:
prompt_personality += f",{random.choice(individuality.identity.identity_detail)}" # 随机选一个
personality_info = prompt_personality
mood_info = self.current_state.mood
bot_name = global_config.BOT_NICKNAME # 使用全局配置中的机器人昵称
prompt = (await global_prompt_manager.get_prompt_async("mind_summary_prompt")).format(
personality_info=personality_info, # 使用关键字参数
bot_name=bot_name,
current_mind=self.current_mind,
minds_str=minds_str,
mood_info=mood_info,
)
try:
response, reasoning_content = await self.llm_model.generate_response_async(prompt)
if not response:
logger.warning("[Heartflow] 想法汇总 LLM 返回空结果。")
return "(想法汇总失败...)"
return response
except Exception as e:
logger.error(f"[Heartflow] 想法汇总失败: {e}")
logger.error(traceback.format_exc())
return "(想法汇总时发生错误...)"
# --- Add helper method to count subflows by state --- #
def count_subflows_by_state(self, target_state: "ChatState") -> int:
"""Counts the number of subheartflows currently in the specified state."""
count = 0
# Use items() directly for read-only iteration if thread safety isn't a major concern here
# Or create snapshot if modification during iteration is possible elsewhere
items_snapshot = list(self._subheartflows.items())
for _, flow in items_snapshot:
# Check if flow still exists in the main dict in case it was removed concurrently
if flow.subheartflow_id in self._subheartflows and flow.chat_state.chat_status == target_state:
count += 1
return count
# --- End helper method --- #
async def create_subheartflow(self, subheartflow_id: Any) -> Optional["SubHeartflow"]:
"""
获取或创建一个新的SubHeartflow实例。
创建本身不受限因为初始状态是ABSENT。
限制将在状态转换时检查。
"""
"""获取或创建一个新的SubHeartflow实例 - 委托给 SubHeartflowManager"""
return await self.subheartflow_manager.create_or_get_subheartflow(subheartflow_id, self.current_state)
existing_subheartflow = self._subheartflows.get(subheartflow_id)
if existing_subheartflow:
return existing_subheartflow
# logger.info(f"[Heartflow] 尝试创建新的 subheartflow: {subheartflow_id}")
try:
subheartflow = SubHeartflow(subheartflow_id, self)
# 创建并初始化观察对象
observation = ChattingObservation(subheartflow_id)
await observation.initialize()
subheartflow.add_observation(observation)
# 创建并存储后台任务 (SubHeartflow 自己的后台任务)
subheartflow.task = asyncio.create_task(subheartflow.subheartflow_start_working())
logger.debug(f"[Heartflow] 为 {subheartflow_id} 创建后台任务成功,添加 observation 成功")
# 添加到管理字典
self._subheartflows[subheartflow_id] = subheartflow
logger.info(f"[Heartflow] 添加 subheartflow {subheartflow_id} 成功")
return subheartflow
except Exception as e:
logger.error(f"[Heartflow] 创建 subheartflow {subheartflow_id} 失败: {e}")
logger.error(traceback.format_exc())
return None
def get_subheartflow(self, observe_chat_id: Any) -> Optional["SubHeartflow"]:
def get_subheartflow(self, subheartflow_id: Any) -> Optional["SubHeartflow"]:
"""获取指定ID的SubHeartflow实例"""
return self._subheartflows.get(observe_chat_id)
return self.subheartflow_manager.get_subheartflow(subheartflow_id)
def get_all_subheartflows_streams_ids(self) -> list[Any]:
"""获取当前所有活跃的子心流的 ID 列表"""
return list(self._subheartflows.keys())
"""获取当前所有活跃的子心流的 ID 列表 - 委托给 SubHeartflowManager"""
return self.subheartflow_manager.get_all_subheartflows_ids()
async def _stop_subheartflow(self, subheartflow_id: Any, reason: str):
"""停止并移除指定的子心流,确保 HeartFChatting 被关闭"""
if subheartflow_id in self._subheartflows:
subheartflow = self._subheartflows[subheartflow_id]
stream_name = chat_manager.get_stream_name(subheartflow_id) or subheartflow_id
logger.info(f"[Heartflow Limits] 停止子心流 {stream_name}. 原因: {reason}")
async def heartflow_start_working(self):
"""启动后台任务"""
await self.background_task_manager.start_tasks()
logger.info("[Heartflow] 后台任务已启动")
# --- 新增:在取消任务和删除前,先设置状态为 ABSENT 以关闭 HeartFChatting ---
try:
if subheartflow.chat_state.chat_status != ChatState.ABSENT:
logger.debug(f"[Heartflow Limits] 将子心流 {stream_name} 状态设置为 ABSENT 以确保资源释放...")
await subheartflow.set_chat_state(ChatState.ABSENT) # 调用异步方法
else:
logger.debug(f"[Heartflow Limits] 子心流 {stream_name} 已经是 ABSENT 状态。")
except Exception as e:
logger.error(f"[Heartflow Limits] 在停止子心流 {stream_name} 时设置状态为 ABSENT 出错: {e}")
# 即使出错,仍继续尝试停止任务和移除
# --- 结束新增逻辑 ---
async def stop_working(self):
"""停止所有任务和子心流"""
logger.info("[Heartflow] 正在停止任务和子心流...")
await self.background_task_manager.stop_tasks()
await self.subheartflow_manager.deactivate_all_subflows()
logger.info("[Heartflow] 所有任务和子心流已停止")
# 标记停止并取消任务
subheartflow.should_stop = True
task_to_cancel = subheartflow.task
if task_to_cancel and not task_to_cancel.done():
task_to_cancel.cancel()
logger.debug(f"[Heartflow Limits] 已取消子心流 {stream_name} 的后台任务")
# TODO: Ensure controller.stop_heartFC_chat is called if needed
# This is now handled by subheartflow.set_chat_state(ChatState.ABSENT) called in _stop_subheartflow
# from src.plugins.heartFC_chat.heartFC_controler import HeartFCController # Local import to avoid cycle
# controller = HeartFCController.get_instance()
# if controller and controller.is_heartFC_chat_active(subheartflow_id):
# await controller.stop_heartFC_chat(subheartflow_id)
# 从字典移除
del self._subheartflows[subheartflow_id]
logger.debug(f"[Heartflow Limits] 已移除子心流: {stream_name}")
return True
return False
async def _enforce_subheartflow_limits(self, current_mai_state: MaiState):
"""根据当前的 MaiState 强制执行 SubHeartflow 数量限制"""
normal_limit = current_mai_state.get_normal_chat_max_num()
focused_limit = current_mai_state.get_focused_chat_max_num()
logger.debug(
f"[Heartflow Limits] 执行限制检查。当前状态: {current_mai_state.value}, Normal上限: {normal_limit}, Focused上限: {focused_limit}"
async def do_a_thinking(self):
"""执行一次主心流思考过程"""
schedule_info = bot_schedule.get_current_num_task(num=4, time_info=True)
new_mind = await self.mind.do_a_thinking(
current_main_mind=self.current_mind, mai_state_info=self.current_state, schedule_info=schedule_info
)
# 分类并统计当前 subheartflows
normal_flows = []
focused_flows = []
other_flows = [] # e.g., ABSENT
# 创建快照以安全迭代
items_snapshot = list(self._subheartflows.items())
for flow_id, flow in items_snapshot:
# 确保 flow 实例仍然存在 (避免在迭代期间被其他任务移除)
if flow_id not in self._subheartflows:
continue
if flow.chat_state.chat_status == ChatState.CHAT:
normal_flows.append((flow_id, flow.last_active_time))
elif flow.chat_state.chat_status == ChatState.FOCUSED:
focused_flows.append((flow_id, flow.last_active_time))
else:
other_flows.append((flow_id, flow.last_active_time))
logger.debug(
f"[Heartflow Limits] 当前计数 - Normal: {len(normal_flows)}, Focused: {len(focused_flows)}, Other: {len(other_flows)}"
)
stopped_count = 0
# 检查 Normal (CHAT) 限制
if len(normal_flows) > normal_limit:
excess_count = len(normal_flows) - normal_limit
logger.info(f"[Heartflow Limits] 检测到 Normal (CHAT) 状态超额 {excess_count} 个。上限: {normal_limit}")
# 按 last_active_time 升序排序 (最不活跃的在前)
normal_flows.sort(key=lambda item: item[1])
# 停止最不活跃的超额部分
for i in range(excess_count):
flow_id_to_stop = normal_flows[i][0]
if await self._stop_subheartflow(
flow_id_to_stop, f"Normal (CHAT) 状态超出上限 ({normal_limit}),停止最不活跃的实例"
):
stopped_count += 1
# 重新获取 focused_flows 列表,因为上面的停止操作可能已经改变了状态或移除了实例
focused_flows = []
items_snapshot_after_normal = list(self._subheartflows.items())
for flow_id, flow in items_snapshot_after_normal:
if flow_id not in self._subheartflows:
continue # Double check
if flow.chat_state.chat_status == ChatState.FOCUSED:
focused_flows.append((flow_id, flow.last_active_time))
# 检查 Focused (FOCUSED) 限制
if len(focused_flows) > focused_limit:
excess_count = len(focused_flows) - focused_limit
logger.info(
f"[Heartflow Limits] 检测到 Focused (FOCUSED) 状态超额 {excess_count} 个。上限: {focused_limit}"
)
# 按 last_active_time 升序排序
focused_flows.sort(key=lambda item: item[1])
# 停止最不活跃的超额部分
for i in range(excess_count):
flow_id_to_stop = focused_flows[i][0]
if await self._stop_subheartflow(
flow_id_to_stop, f"Focused (FOCUSED) 状态超出上限 ({focused_limit}),停止最不活跃的实例"
):
stopped_count += 1
if stopped_count > 0:
logger.info(
f"[Heartflow Limits] 限制执行完成,共停止了 {stopped_count} 个子心流。当前总数: {len(self._subheartflows)}"
)
else:
logger.debug(f"[Heartflow Limits] 限制检查完成,无需停止子心流。当前总数: {len(self._subheartflows)}")
# --- 新增方法 --- #
async def _activate_random_subflows_to_chat(self, new_mai_state: MaiState):
"""当主状态从 OFFLINE 激活时,随机选择子心流进入 CHAT 状态"""
limit = new_mai_state.get_normal_chat_max_num()
if limit <= 0:
logger.info("[Heartflow Activate] 当前状态不允许 CHAT 子心流,跳过激活。")
return
# 使用快照进行迭代
all_flows_snapshot = list(self._subheartflows.values())
absent_flows = [
flow
for flow in all_flows_snapshot
if flow.subheartflow_id in self._subheartflows and flow.chat_state.chat_status == ChatState.ABSENT
]
num_to_activate = min(limit, len(absent_flows))
if num_to_activate <= 0:
logger.info(f"[Heartflow Activate] 没有处于 ABSENT 状态的子心流可供激活至 CHAT (上限: {limit})。")
return
logger.info(
f"[Heartflow Activate] 将随机选择 {num_to_activate} 个 (上限 {limit}) ABSENT 子心流激活至 CHAT 状态。"
)
selected_flows = random.sample(absent_flows, num_to_activate)
activated_count = 0
for flow in selected_flows:
# 再次检查 flow 是否仍然存在且状态为 ABSENT (以防并发修改)
if (
flow.subheartflow_id in self._subheartflows
and self._subheartflows[flow.subheartflow_id].chat_state.chat_status == ChatState.ABSENT
):
stream_name = chat_manager.get_stream_name(flow.subheartflow_id) or flow.subheartflow_id
logger.debug(f"[Heartflow Activate] 正在将子心流 {stream_name} 状态设置为 CHAT。")
# 调用 set_chat_state它内部会处理日志记录
await flow.set_chat_state(ChatState.CHAT)
activated_count += 1
else:
stream_name = chat_manager.get_stream_name(flow.subheartflow_id) or flow.subheartflow_id
logger.warning(f"[Heartflow Activate] 跳过激活子心流 {stream_name},因为它不再存在或状态已改变。")
logger.info(f"[Heartflow Activate] 完成激活,成功将 {activated_count} 个子心流设置为 CHAT 状态。")
async def _deactivate_all_subflows_on_offline(self):
"""当主状态变为 OFFLINE 时,停止所有子心流的活动并设置为 ABSENT"""
logger.info("[Heartflow Deactivate] 开始停用所有子心流...")
try:
# 使用 ID 快照进行迭代
flow_ids_snapshot = list(self._subheartflows.keys())
deactivated_count = 0
for flow_id in flow_ids_snapshot:
subflow = self._subheartflows.get(flow_id)
if not subflow:
continue # Subflow 可能在迭代过程中被清理
stream_name = chat_manager.get_stream_name(flow_id) or flow_id
try:
# 设置状态为 ABSENT
if subflow.chat_state.chat_status != ChatState.ABSENT:
logger.debug(f"[Heartflow Deactivate] 正在将子心流 {stream_name} 状态设置为 ABSENT。")
# 调用 set_chat_state它会处理日志和状态更新
subflow.set_chat_state(ChatState.ABSENT)
deactivated_count += 1
else:
# 如果已经是 ABSENT则无需再次设置但记录一下检查
logger.trace(f"[Heartflow Deactivate] 子心流 {stream_name} 已处于 ABSENT 状态。")
except Exception as e:
logger.error(f"[Heartflow Deactivate] 停用子心流 {stream_name} 时出错: {e}")
logger.error(traceback.format_exc())
logger.info(
f"[Heartflow Deactivate] 完成停用,共将 {deactivated_count} 个子心流设置为 ABSENT 状态 (不包括已是 ABSENT 的)。"
)
except Exception as e:
logger.error(f"[Heartflow Deactivate] 停用所有子心流时出错: {e}")
logger.error(traceback.format_exc())
self.past_mind.append(self.current_mind)
self.current_mind = new_mind
logger.info(f"麦麦的总体脑内状态更新为:{self.current_mind[:100]}...")
self.mind.update_subflows_with_main_mind(new_mind)
init_prompt()
# 创建一个全局的管理器实例
heartflow = Heartflow()