# this uses the base model because the color is an extra attribute from typing import Optional, Union import numpy as np from pydantic import BaseModel, Field, PrivateAttr, field_validator from .objects import FilterConfig __all__ = ["ZoneConfig"] class ZoneConfig(BaseModel): filters: dict[str, FilterConfig] = Field( default_factory=dict, title="Zone filters." ) coordinates: Union[str, list[str]] = Field( title="Coordinates polygon for the defined zone." ) inertia: int = Field( default=3, title="Number of consecutive frames required for object to be considered present in the zone.", gt=0, ) loitering_time: int = Field( default=0, ge=0, title="Number of seconds that an object must loiter to be considered in the zone.", ) objects: Union[str, list[str]] = Field( default_factory=list, title="List of objects that can trigger the zone.", ) _color: Optional[tuple[int, int, int]] = PrivateAttr() _contour: np.ndarray = PrivateAttr() @property def color(self) -> tuple[int, int, int]: return self._color @property def contour(self) -> np.ndarray: return self._contour @field_validator("objects", mode="before") @classmethod def validate_objects(cls, v): if isinstance(v, str) and "," not in v: return [v] return v def __init__(self, **config): super().__init__(**config) self._color = config.get("color", (0, 0, 0)) self._contour = config.get("contour", np.array([])) def generate_contour(self, frame_shape: tuple[int, int]): coordinates = self.coordinates # masks and zones are saved as relative coordinates # we know if any points are > 1 then it is using the # old native resolution coordinates if isinstance(coordinates, list): explicit = any(p.split(",")[0] > "1.0" for p in coordinates) try: self._contour = np.array( [ ( [int(p.split(",")[0]), int(p.split(",")[1])] if explicit else [ int(float(p.split(",")[0]) * frame_shape[1]), int(float(p.split(",")[1]) * frame_shape[0]), ] ) for p in coordinates ] ) except ValueError: raise ValueError( f"Invalid coordinates found in configuration file. Coordinates must be relative (between 0-1): {coordinates}" ) if explicit: self.coordinates = ",".join( [ f'{round(int(p.split(",")[0]) / frame_shape[1], 3)},{round(int(p.split(",")[1]) / frame_shape[0], 3)}' for p in coordinates ] ) elif isinstance(coordinates, str): points = coordinates.split(",") explicit = any(p > "1.0" for p in points) try: self._contour = np.array( [ ( [int(points[i]), int(points[i + 1])] if explicit else [ int(float(points[i]) * frame_shape[1]), int(float(points[i + 1]) * frame_shape[0]), ] ) for i in range(0, len(points), 2) ] ) except ValueError: raise ValueError( f"Invalid coordinates found in configuration file. Coordinates must be relative (between 0-1): {coordinates}" ) if explicit: self.coordinates = ",".join( [ f"{round(int(points[i]) / frame_shape[1], 3)},{round(int(points[i + 1]) / frame_shape[0], 3)}" for i in range(0, len(points), 2) ] ) else: self._contour = np.array([])