MoonTools.Bonk/Bonk/SweepTest/SweepTest.cs

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using System;
using System.Numerics;
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using MoonTools.Structs;
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namespace MoonTools.Bonk
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{
public static class SweepTest
{
/// <summary>
/// Performs a sweep test on and against rectangles. Returns the position 1 pixel before overlap occurs.
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/// </summary>
/// <typeparam name="T"></typeparam>
/// <param name="spatialHash">A spatial hash.</param>
/// <param name="rectangle"></param>
/// <param name="transform">A transform by which to transform the IHasAABB2D.</param>
/// <param name="ray">Given in world-space.</param>
/// <returns></returns>
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public static SweepResult<T> Test<T>(SpatialHash2D<T> spatialHash, Rectangle rectangle, Transform2D transform, Vector2 ray) where T : IEquatable<T>
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{
var transformedAABB = rectangle.TransformedAABB(transform);
var sweepBox = SweepBox(transformedAABB, ray);
var shortestDistance = float.MaxValue;
var nearestID = default(T);
Rectangle? nearestRectangle = null;
Transform2D? nearestTransform = null;
foreach (var (id, shape, shapeTransform) in spatialHash.Retrieve(sweepBox))
{
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Rectangle otherRectangle;
Transform2D otherTransform;
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AABB2D otherTransformedAABB;
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if (shape is Rectangle)
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{
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otherRectangle = (Rectangle)shape;
otherTransformedAABB = shape.TransformedAABB(shapeTransform);
otherTransform = shapeTransform;
}
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else if (shape is MultiShape2D multiShape && multiShape.IsSingleShape<Rectangle>())
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{
Transform2D rectangleOffset;
(otherRectangle, rectangleOffset) = multiShape.ShapeTransformPair<Rectangle>();
otherTransform = shapeTransform.Compose(rectangleOffset);
otherTransformedAABB = shape.TransformedAABB(otherTransform);
}
else
{
continue;
}
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float xInvEntry, yInvEntry;
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if (ray.X > 0)
{
xInvEntry = otherTransformedAABB.Left - (transformedAABB.Right);
}
else
{
xInvEntry = (otherTransformedAABB.Right) - transformedAABB.Left;
}
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if (ray.Y > 0)
{
yInvEntry = otherTransformedAABB.Top - (transformedAABB.Bottom);
}
else
{
yInvEntry = (otherTransformedAABB.Bottom) - transformedAABB.Top;
}
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float xEntry, yEntry;
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if (ray.X == 0)
{
xEntry = float.MinValue;
}
else
{
xEntry = xInvEntry / ray.X;
}
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if (ray.Y == 0)
{
yEntry = float.MinValue;
}
else
{
yEntry = yInvEntry / ray.Y;
}
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var entryTime = Math.Max(xEntry, yEntry);
if (entryTime >= 0 && entryTime <= 1)
{
if (entryTime < shortestDistance)
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{
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shortestDistance = entryTime;
nearestID = id;
nearestRectangle = otherRectangle;
nearestTransform = shapeTransform;
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}
}
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}
if (nearestRectangle.HasValue)
{
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var overlapPosition = ray * shortestDistance;
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var correctionX = -Math.Sign(ray.X);
var correctionY = -Math.Sign(ray.Y);
return new SweepResult<T>(true, new Position2D((int)overlapPosition.X + correctionX, (int)overlapPosition.Y + correctionY), nearestID);
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}
else
{
return SweepResult<T>.False;
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}
}
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public static SweepResult<T> Test<T>(SpatialHash2D<T> spatialHash, Point point, Transform2D transform, Vector2 ray) where T : IEquatable<T>
{
return Test(spatialHash, new Rectangle(0, 0, 0, 0), transform, ray);
}
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private static AABB2D SweepBox(AABB2D aabb, Vector2 ray)
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{
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return new AABB2D(
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Math.Min(aabb.Min.X, aabb.Min.X + ray.X),
Math.Min(aabb.Min.Y, aabb.Min.Y + ray.Y),
Math.Max(aabb.Max.X, aabb.Max.X + ray.X),
Math.Max(aabb.Max.Y, aabb.Max.Y + ray.Y)
);
}
}
}