Security_AI_integrated/inference/rules/algorithms.py

import os
import sys
from datetime import datetime, timedelta
from typing import Any, Dict, List, Optional, Tuple

import cv2
import numpy as np

sys.path.insert(0, os.path.dirname(os.path.dirname(os.path.abspath(__file__))))

from sort import Sort


class LeavePostAlgorithm:
    def __init__(
        self,
        threshold_sec: int = 360,
        confirm_sec: int = 30,
        return_sec: int = 5,
        working_hours: Optional[List[Dict]] = None,
    ):
        self.threshold_sec = threshold_sec
        self.confirm_sec = confirm_sec
        self.return_sec = return_sec
        self.working_hours = working_hours or []

        self.track_states: Dict[str, Dict[str, Any]] = {}
        self.tracker = Sort(max_age=10, min_hits=2, iou_threshold=0.3)

        self.alert_cooldowns: Dict[str, datetime] = {}
        self.cooldown_seconds = 300

    def is_in_working_hours(self, dt: Optional[datetime] = None) -> bool:
        if not self.working_hours:
            return True

        dt = dt or datetime.now()
        current_minutes = dt.hour * 60 + dt.minute

        for period in self.working_hours:
            start_minutes = period["start"][0] * 60 + period["start"][1]
            end_minutes = period["end"][0] * 60 + period["end"][1]
            if start_minutes <= current_minutes < end_minutes:
                return True

        return False

    def process(
        self,
        camera_id: str,
        tracks: List[Dict],
        current_time: Optional[datetime] = None,
    ) -> List[Dict]:
        if not self.is_in_working_hours(current_time):
            return []

        if not tracks:
            return []

        detections = []
        for track in tracks:
            bbox = track.get("bbox", [])
            if len(bbox) >= 4:
                detections.append(bbox + [track.get("conf", 0.0)])

        if not detections:
            return []

        detections = np.array(detections)
        tracked = self.tracker.update(detections)

        alerts = []
        current_time = current_time or datetime.now()

        for track_data in tracked:
            x1, y1, x2, y2, track_id = track_data
            track_id = str(int(track_id))

            if track_id not in self.track_states:
                self.track_states[track_id] = {
                    "first_seen": current_time,
                    "last_seen": current_time,
                    "off_duty_start": None,
                    "alerted": False,
                    "last_position": (x1, y1, x2, y2),
                }

            state = self.track_states[track_id]
            state["last_seen"] = current_time
            state["last_position"] = (x1, y1, x2, y2)

            if state["off_duty_start"] is None:
                off_duty_duration = (current_time - state["first_seen"]).total_seconds()
                if off_duty_duration > self.confirm_sec:
                    state["off_duty_start"] = current_time
            else:
                elapsed = (current_time - state["off_duty_start"]).total_seconds()
                if elapsed > self.threshold_sec:
                    if not state["alerted"]:
                        cooldown_key = f"{camera_id}_{track_id}"
                        now = datetime.now()
                        if cooldown_key not in self.alert_cooldowns or (
                            now - self.alert_cooldowns[cooldown_key]
                        ).total_seconds() > self.cooldown_seconds:
                            alerts.append({
                                "track_id": track_id,
                                "bbox": [x1, y1, x2, y2],
                                "off_duty_duration": elapsed,
                                "alert_type": "leave_post",
                                "message": f"离岗超过 {int(elapsed / 60)} 分钟",
                            })
                            state["alerted"] = True
                            self.alert_cooldowns[cooldown_key] = now
                else:
                    if elapsed < self.return_sec:
                        state["off_duty_start"] = None
                        state["alerted"] = False

        cleanup_time = current_time - timedelta(minutes=5)
        for track_id, state in list(self.track_states.items()):
            if state["last_seen"] < cleanup_time:
                del self.track_states[track_id]

        return alerts

    def reset(self):
        self.track_states.clear()
        self.alert_cooldowns.clear()

    def get_state(self, track_id: str) -> Optional[Dict[str, Any]]:
        return self.track_states.get(track_id)


class IntrusionAlgorithm:
    def __init__(
        self,
        check_interval_sec: float = 1.0,
        direction_sensitive: bool = False,
    ):
        self.check_interval_sec = check_interval_sec
        self.direction_sensitive = direction_sensitive

        self.last_check_times: Dict[str, float] = {}
        self.tracker = Sort(max_age=5, min_hits=1, iou_threshold=0.3)

        self.alert_cooldowns: Dict[str, datetime] = {}
        self.cooldown_seconds = 300

    def process(
        self,
        camera_id: str,
        tracks: List[Dict],
        current_time: Optional[datetime] = None,
    ) -> List[Dict]:
        if not tracks:
            return []

        detections = []
        for track in tracks:
            bbox = track.get("bbox", [])
            if len(bbox) >= 4:
                detections.append(bbox + [track.get("conf", 0.0)])

        if not detections:
            return []

        current_ts = current_time.timestamp() if current_time else datetime.now().timestamp()

        if camera_id in self.last_check_times:
            if current_ts - self.last_check_times[camera_id] < self.check_interval_sec:
                return []
        self.last_check_times[camera_id] = current_ts

        detections = np.array(detections)
        tracked = self.tracker.update(detections)

        alerts = []
        now = datetime.now()

        for track_data in tracked:
            x1, y1, x2, y2, track_id = track_data
            cooldown_key = f"{camera_id}_{int(track_id)}"

            if cooldown_key not in self.alert_cooldowns or (
                now - self.alert_cooldowns[cooldown_key]
            ).total_seconds() > self.cooldown_seconds:
                alerts.append({
                    "track_id": str(int(track_id)),
                    "bbox": [x1, y1, x2, y2],
                    "alert_type": "intrusion",
                    "confidence": track_data[4] if len(track_data) > 4 else 0.0,
                    "message": "检测到周界入侵",
                })
                self.alert_cooldowns[cooldown_key] = now

        return alerts

    def reset(self):
        self.last_check_times.clear()
        self.alert_cooldowns.clear()


class AlgorithmManager:
    def __init__(self, working_hours: Optional[List[Dict]] = None):
        self.algorithms: Dict[str, Dict[str, Any]] = {}
        self.working_hours = working_hours or []

        self.default_params = {
            "leave_post": {
                "threshold_sec": 360,
                "confirm_sec": 30,
                "return_sec": 5,
            },
            "intrusion": {
                "check_interval_sec": 1.0,
                "direction_sensitive": False,
            },
        }

    def register_algorithm(
        self,
        roi_id: str,
        algorithm_type: str,
        params: Optional[Dict[str, Any]] = None,
    ):
        if roi_id in self.algorithms:
            if algorithm_type in self.algorithms[roi_id]:
                return

        if roi_id not in self.algorithms:
            self.algorithms[roi_id] = {}

        algo_params = self.default_params.get(algorithm_type, {})
        if params:
            algo_params.update(params)

        if algorithm_type == "leave_post":
            self.algorithms[roi_id]["leave_post"] = LeavePostAlgorithm(
                threshold_sec=algo_params.get("threshold_sec", 360),
                confirm_sec=algo_params.get("confirm_sec", 30),
                return_sec=algo_params.get("return_sec", 5),
                working_hours=self.working_hours,
            )
        elif algorithm_type == "intrusion":
            self.algorithms[roi_id]["intrusion"] = IntrusionAlgorithm(
                check_interval_sec=algo_params.get("check_interval_sec", 1.0),
                direction_sensitive=algo_params.get("direction_sensitive", False),
            )

    def process(
        self,
        roi_id: str,
        camera_id: str,
        algorithm_type: str,
        tracks: List[Dict],
        current_time: Optional[datetime] = None,
    ) -> List[Dict]:
        algo = self.algorithms.get(roi_id, {}).get(algorithm_type)
        if algo is None:
            return []
        return algo.process(camera_id, tracks, current_time)

    def update_roi_params(
        self,
        roi_id: str,
        algorithm_type: str,
        params: Dict[str, Any],
    ):
        if roi_id in self.algorithms and algorithm_type in self.algorithms[roi_id]:
            algo = self.algorithms[roi_id][algorithm_type]
            for key, value in params.items():
                if hasattr(algo, key):
                    setattr(algo, key, value)

    def reset_algorithm(self, roi_id: str, algorithm_type: Optional[str] = None):
        if roi_id not in self.algorithms:
            return

        if algorithm_type:
            if algorithm_type in self.algorithms[roi_id]:
                self.algorithms[roi_id][algorithm_type].reset()
        else:
            for algo in self.algorithms[roi_id].values():
                algo.reset()

    def reset_all(self):
        for roi_algorithms in self.algorithms.values():
            for algo in roi_algorithms.values():
                algo.reset()

    def remove_roi(self, roi_id: str):
        if roi_id in self.algorithms:
            self.reset_algorithm(roi_id)
            del self.algorithms[roi_id]

    def get_status(self, roi_id: str) -> Dict[str, Any]:
        status = {}
        if roi_id in self.algorithms:
            for algo_type, algo in self.algorithms[roi_id].items():
                status[algo_type] = {
                    "track_count": len(getattr(algo, "track_states", {})),
                }
        return status