41 lines
1.6 KiB
Python
41 lines
1.6 KiB
Python
from __future__ import annotations
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from typing import List, Tuple
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import numpy as np # type: ignore
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import tcod
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from actions import Action
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from components.base_component import BaseComponent
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class BaseAI(Action, BaseComponent):
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def get_path_to(self, dest_x: int, dest_y: int) -> List[Tuple[int, int]]:
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"""Compute and return a path to the target position.
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IF there is no valid path then returns an empty list.
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"""
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# Copy the walkable array.
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cost = np.array(self.entity.gamemap.tiles["walkable"], dtype=np.int8)
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for entity in self.entity.gamemap.entities:
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# Check that an entity blocks movement and the cost isn't zero (blocking.)
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if entity.blocks_movement and cost[entity.x, entity.y]:
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# Add to the cost of a blocked position.
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# A lower number means more enemies will crowd behind each other in
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# hallways. A higher number means enemies will take longer paths in
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# order to surround the player.
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cost[entity.x, entity.y] += 10
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# Create a graph from the cost array and pass that graph to a new pathfinder.
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graph = tcod.path.SimpleGraph(cost, cardinal=2, diagonal=3)
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pathfinder = tcod.path.Pathfinder(graph)
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pathfinder.add_root((self.entity.x, self.entity.y)) # Start position
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# Compute the path to the destination and remove the starting point.
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path: List[List[int]] = pathfinder.path_to((dest_x, dest_y))[1:].tolist()
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# Convert from List[List[int]] to List[Tuple[int, int]].
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return [(index[0], index[1]) for index in path]
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