89 lines
2.7 KiB
Python
89 lines
2.7 KiB
Python
from dataclasses import dataclass
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from typing import Generator
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from abc import ABC, abstractmethod
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import pygame as pg
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from transform import Transform
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@dataclass
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class Face:
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begin: pg.Vector2
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end: pg.Vector2
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@property
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def normal(self) -> pg.Vector2:
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return (self.end-self.begin).rotate(-90).normalize()
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@dataclass
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class ColliderContact:
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__slots__ = ["points", "normal", "penetration"]
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points: list[pg.Vector2]
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normal: pg.Vector2
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penetration: float
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@dataclass(frozen=True)
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class PolygonalHull:
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_vertices: list[pg.Vector2]
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def get_vertex_at_index(self, key: int) -> pg.Vector2:
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return self._vertices[key]
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def get_face_at_index(self, key: int) -> Face:
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return Face(self._vertices[key], self._vertices[(key + 1) % len(self._vertices)])
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def vertices(self) -> Generator[pg.Vector2, None, None]:
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for v in self._vertices:
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yield v
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def faces(self) -> Generator[Face, None, None]:
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for i in range(len(self._vertices)):
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yield self.get_face_at_index(i)
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def project(self, axis: pg.Vector2) -> tuple[float, float]:
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projections = [v.dot(axis) for v in self._vertices]
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return (min(projections), max(projections))
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class BaseCollider(ABC):
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@abstractmethod
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def moment_of_inertia(self, mass: float) -> float:
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pass
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class ConvexCollider(BaseCollider):
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@abstractmethod
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def hull(self, transform: Transform) -> PolygonalHull:
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pass
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@dataclass
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class CircleCollider(BaseCollider):
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radius: float
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def moment_of_inertia(self, mass: float) -> float:
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return 0.5 * self.radius ** 2 * mass
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@dataclass
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class RectCollider(ConvexCollider):
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dimensions: tuple[float, float]
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@property
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def width(self):
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return self.dimensions[0]
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@property
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def height(self):
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return self.dimensions[1]
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def hull(self, transform: Transform) -> PolygonalHull:
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return PolygonalHull([
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transform.global_position - pg.Vector2(self.width / 2.0, self.height / 2.0).rotate(transform.global_degrees) * transform.global_scale,
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transform.global_position - pg.Vector2(-self.width / 2.0, self.height / 2.0).rotate(transform.global_degrees) * transform.global_scale,
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transform.global_position - pg.Vector2(-self.width / 2.0, -self.height / 2.0).rotate(transform.global_degrees) * transform.global_scale,
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transform.global_position - pg.Vector2(self.width / 2.0, -self.height / 2.0).rotate(transform.global_degrees) * transform.global_scale
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])
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def moment_of_inertia(self, mass: float) -> float:
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return (1.0 / 12.0) * mass * (self.width ** 2 + self.height ** 2) |