from dataclasses import dataclass, field from module.base.timer import Timer @dataclass class Waypoint: # Position to goto, (x, y) position: tuple # Position diff < threshold is considered as arrived # `threshold` is used first if it is set threshold: int = None # If `threshold` is not set, `waypoint_threshold` and `endpoint_threshold` are used waypoint_threshold: int = 10 endpoint_threshold: int = 3 # Max move speed, 'run_2x', 'straight_run', 'run', 'walk' # See MapControl._goto() for details of each speed level speed: str = 'run' # Min move speed, 'run' or 'walk' min_speed: str = 'walk' # Lock joystick direction on the way to this waypoint, -180~180 lock_direction: int = None # Trigger handle_combat_interact() if position diff < radius # Usually to use 7 if interact is required, 0 for no interact interact_radius: int = 0 """ The following attributes are only be used if this waypoint is the end point of goto() """ # True to enable endpoint optimizations, character will smoothly approach target position # False to stop all controls at arrive end_opt: bool = True # Set rotation after arrive, 0~360 end_rotation: int = None end_rotation_threshold: int = 15 """ Walk """ # A list of expected events, e.g. ['enemy', 'item'] # - "enemy", finished any combat # - "item", destroyed any destructive objects # - "interact", have map interact option (interact is not handled) # - callable, A function that returns bool, True represents stop # Or empty list [] for just walking expected_end: list = field(default_factory=lambda: []) # If triggered any expected event, consider arrive and stop walking early_stop: bool = True # Confirm timer if arrived but didn't trigger any expected event unexpected_confirm: Timer = field(default_factory=lambda: Timer(3, count=15)) def __str__(self): return f'Waypoint({self.position})' __repr__ = __str__ def run_2x(self) -> "Waypoint": """ Product a Waypoint object with overridden "speed", see Waypoint class for args. """ self.speed = 'run_2x' return self def straight_run(self) -> "Waypoint": self.speed = 'straight_run' return self def run(self) -> "Waypoint": self.speed = 'run' return self def walk(self) -> "Waypoint": self.speed = 'walk' return self def set_threshold(self, threshold) -> "Waypoint": self.threshold = threshold return self def get_threshold(self, end): """ Args: end: True if this is an end point Returns: int """ if self.threshold is not None: return self.threshold if end: return self.endpoint_threshold else: return self.waypoint_threshold @staticmethod def expected_to_str(results: list) -> list[str]: return [result.__name__ if callable(result) else str(result) for result in results] def match_results(self, results) -> list[str]: """ Args: results: Returns: list[str]: A list if matched results """ if not results and not self.expected_end: return [] results = set(self.expected_to_str(results)) expected_end = set(self.expected_to_str(self.expected_end)) same = results.intersection(expected_end) return list(same) def ensure_waypoint(point) -> Waypoint: """ Args: point: Position (x, y) or Waypoint object Returns: Waypoint: """ if isinstance(point, Waypoint): return point return Waypoint(point) def ensure_waypoints(points) -> list[Waypoint]: if not isinstance(points, (list, tuple)): points = [points] return [ensure_waypoint(point) for point in points]