"""ActiveAgentCounter — 并发控制 + 冷却机制

v2.1：per (agent, session) 粒度。三层控制：
  - per session key: max_per_session（同 session 不能并发 spawn）
  - per agent: max_concurrent_sessions（同 agent 最多 N 个不同 session）
  - global: max_global（全局总并发上限）

asyncio Semaphore 实现。
延迟创建 Semaphore（兼容 Python 3.9 无 event loop 时的构造）。
"""

from __future__ import annotations

import asyncio
import logging
import time
from typing import Dict, Optional

logger = logging.getLogger("moziplus-v2.counter")


class ActiveAgentCounter:
    """异步并发计数器 + 冷却机制（v2.1: per session 粒度）"""

    def __init__(self, max_global: int = 5, max_per_session: int = 1,
                 max_concurrent_sessions: int = 3,
                 default_cooldown_seconds: float = 120.0,
                 # 向后兼容旧配置
                 max_per_agent: Optional[int] = None):
        self._max_global = max_global
        self._max_per_session = max_per_session
        self._max_concurrent_sessions = max_concurrent_sessions
        self._default_cooldown_seconds = default_cooldown_seconds

        # 如果调用方传了旧的 max_per_agent，映射到 max_per_session
        if max_per_agent is not None and max_per_session == 1:
            self._max_per_session = max_per_agent

        self._global_sem: Optional[asyncio.Semaphore] = None
        self._per_key: Dict[str, asyncio.Semaphore] = {}
        # key → 引用计数（同一个 key 理论上只有 0 或 1）
        self._active_keys: Dict[str, int] = {}
        # agent_id → 活跃 session 数
        self._agent_active: Dict[str, int] = {}
        self._global_active: int = 0
        # 冷却机制（per agent）
        self._cooldown_until: Dict[str, float] = {}

    @staticmethod
    def _make_key(agent_id: str, session_id: str) -> str:
        return f"{agent_id}:{session_id}"

    def _get_global_sem(self) -> asyncio.Semaphore:
        if self._global_sem is None:
            self._global_sem = asyncio.Semaphore(self._max_global)
        return self._global_sem

    def _get_key_sem(self, key: str) -> asyncio.Semaphore:
        if key not in self._per_key:
            self._per_key[key] = asyncio.Semaphore(self._max_per_session)
        return self._per_key[key]

    def is_cooling_down(self, agent_id: str) -> bool:
        """检查 agent 是否在冷却期"""
        until = self._cooldown_until.get(agent_id)
        if until and time.time() < until:
            return True
        self._cooldown_until.pop(agent_id, None)
        return False

    def set_cooldown(self, agent_id: str,
                     seconds: Optional[float] = None) -> None:
        """设置冷却期（默认 120 秒）"""
        cd = seconds if seconds is not None else self._default_cooldown_seconds
        self._cooldown_until[agent_id] = time.time() + cd
        logger.info("Cooldown set for %s: %.0fs (until %.0f)",
                    agent_id, cd, self._cooldown_until[agent_id])

    async def can_acquire(self, agent_id: str,
                          session_id: str = "main") -> bool:
        """三层检查：cooldown → global → per agent → per session key"""
        if self.is_cooling_down(agent_id):
            return False
        if self._global_active >= self._max_global:
            return False
        if self._agent_active.get(
                agent_id, 0) >= self._max_concurrent_sessions:
            return False
        key = self._make_key(agent_id, session_id)
        if self._active_keys.get(key, 0) >= self._max_per_session:
            return False
        return True

    async def acquire(self, agent_id: str, session_id: str = "main") -> bool:
        """占用 per-session key + per-agent 计数 + global semaphore"""
        if not await self.can_acquire(agent_id, session_id):
            return False

        key = self._make_key(agent_id, session_id)
        await self._get_global_sem().acquire()
        await self._get_key_sem(key).acquire()

        self._global_active += 1
        self._active_keys[key] = self._active_keys.get(key, 0) + 1
        self._agent_active[agent_id] = self._agent_active.get(agent_id, 0) + 1
        return True

    def release(self, agent_id: str, session_id: str = "main") -> None:
        """释放 per-session key + per-agent 计数 + global semaphore"""
        key = self._make_key(agent_id, session_id)

        if key in self._per_key:
            self._per_key[key].release()
            # 如果 key 不再活跃，清理 semaphore
            if self._active_keys.get(key, 0) <= 1:
                del self._per_key[key]

        if self._global_sem:
            self._global_sem.release()
        self._global_active = max(0, self._global_active - 1)

        if key in self._active_keys:
            self._active_keys[key] = max(0, self._active_keys[key] - 1)
            if self._active_keys[key] == 0:
                del self._active_keys[key]

        if agent_id in self._agent_active:
            self._agent_active[agent_id] = max(
                0, self._agent_active[agent_id] - 1)
            if self._agent_active[agent_id] == 0:
                del self._agent_active[agent_id]

    @property
    def global_active(self) -> int:
        return self._global_active

    @property
    def max_global(self) -> int:
        return self._max_global

    @property
    def active_agents(self) -> Dict[str, int]:
        """返回 per agent 的活跃 session 数"""
        return dict(self._agent_active)

    def is_near_limit(self, margin: int = 1) -> bool:
        """全局活跃数是否接近上限"""
        return self._global_active >= self._max_global - margin