docs(physics2d): Primitives
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@ -4,16 +4,47 @@ using Syntriax.Engine.Core;
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namespace Syntriax.Engine.Physics2D.Primitives;
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/// <summary>
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/// Represents an Axis-Aligned Bounding Box (AABB) in 2D space.
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/// </summary>
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/// <param name="lowerBoundary">The lower boundary of the <see cref="AABB"/>.</param>
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/// <param name="upperBoundary">The upper boundary of the <see cref="AABB"/>.</param>
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/// <remarks>
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/// Initializes a new instance of the <see cref="AABB"/> struct with the specified lower and upper boundaries.
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/// </remarks>
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[System.Diagnostics.DebuggerDisplay("LowerBoundary: {LowerBoundary.ToString(), nq}, UpperBoundary: {UpperBoundary.ToString(), nq}")]
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public readonly struct AABB(Vector2D LowerBoundary, Vector2D UpperBoundary)
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public readonly struct AABB(Vector2D lowerBoundary, Vector2D upperBoundary)
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{
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public readonly Vector2D LowerBoundary { get; init; } = LowerBoundary;
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public readonly Vector2D UpperBoundary { get; init; } = UpperBoundary;
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/// <summary>
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/// The lower boundary of the <see cref="AABB"/>.
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/// </summary>
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public readonly Vector2D LowerBoundary = lowerBoundary;
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/// <summary>
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/// The upper boundary of the <see cref="AABB"/>.
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/// </summary>
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public readonly Vector2D UpperBoundary = upperBoundary;
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/// <summary>
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/// Gets the center point of the <see cref="AABB"/>.
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/// </summary>
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public readonly Vector2D Center => (LowerBoundary + UpperBoundary) * .5f;
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/// <summary>
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/// Gets the size of the <see cref="AABB"/>.
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/// </summary>
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public readonly Vector2D Size => LowerBoundary.FromTo(UpperBoundary).Abs();
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/// <summary>
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/// Gets half the size of the <see cref="AABB"/>.
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/// </summary>
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public readonly Vector2D SizeHalf => Size * .5f;
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/// <summary>
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/// Creates an <see cref="AABB"/> from a collection of <see cref="Vector2D"/>s.
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/// </summary>
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/// <param name="vectors">The collection of <see cref="Vector2D"/>s.</param>
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/// <returns>An <see cref="AABB"/> that bounds all the <see cref="Vector2D"/>s.</returns>
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public static AABB FromVectors(IEnumerable<Vector2D> vectors)
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{
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int counter = 0;
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@ -34,13 +65,33 @@ public readonly struct AABB(Vector2D LowerBoundary, Vector2D UpperBoundary)
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return new(lowerBoundary, upperBoundary);
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}
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/// <summary>
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/// Checks if two <see cref="AABB"/>s are approximately equal.
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/// </summary>
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/// <param name="left">The first <see cref="AABB"/>.</param>
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/// <param name="right">The second <see cref="AABB"/>.</param>
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/// <returns><see cref="true"/> if the <see cref="AABB"/>s are approximately equal; otherwise, <see cref="false"/>.</returns>
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public static bool ApproximatelyEquals(AABB left, AABB right)
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=> left.LowerBoundary.ApproximatelyEquals(right.LowerBoundary) && left.UpperBoundary.ApproximatelyEquals(right.UpperBoundary);
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}
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/// <summary>
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/// Provides extension methods for the <see cref="AABB"/> struct.
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/// </summary>
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public static class AABBExtensions
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{
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/// <summary>
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/// Converts a collection of <see cref="Vector2D"/>s to an <see cref="AABB"/>.
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/// </summary>
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/// <param name="vectors">The collection of <see cref="Vector2D"/>s.</param>
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/// <returns>An <see cref="AABB"/> that bounds all the <see cref="Vector2D"/>s.</returns>
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public static AABB ToAABB(this IEnumerable<Vector2D> vectors) => AABB.FromVectors(vectors);
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/// <summary>
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/// Checks if two <see cref="AABB"/>s are approximately equal.
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/// </summary>
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/// <param name="left">The first <see cref="AABB"/>.</param>
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/// <param name="right">The second <see cref="AABB"/>.</param>
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/// <returns><see cref="true"/> if the <see cref="AABB"/>s are approximately equal; otherwise, <see cref="false"/>.</returns>
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public static bool ApproximatelyEquals(this AABB left, AABB right) => AABB.ApproximatelyEquals(left, right);
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}
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@ -1,47 +1,115 @@
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using System.Diagnostics;
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using Syntriax.Engine.Core;
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using Syntriax.Engine.Core.Abstract;
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namespace Syntriax.Engine.Physics2D.Primitives;
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[System.Diagnostics.DebuggerDisplay("Center: {Center.ToString(), nq}, Radius: {Radius}")]
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public readonly struct Circle(Vector2D Center, float Radius)
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/// <summary>
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/// Represents a 2D circle.
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/// </summary>
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/// <param name="center">The center of the circle.</param>
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/// <param name="radius">The radius of the circle.</param>
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/// <remarks>
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/// Initializes a new instance of the Circle struct with the specified center and radius.
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/// </remarks>
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[DebuggerDisplay("Center: {Center.ToString(),nq}, Radius: {Radius}")]
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public readonly struct Circle(Vector2D center, float radius)
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{
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public static readonly Circle UnitCircle = new(Vector2D.Zero, 1f);
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/// <summary>
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/// The center of the circle.
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/// </summary>
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public readonly Vector2D Center = center;
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public readonly Vector2D Center { get; init; } = Center;
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public readonly float Radius { get; init; } = Radius;
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/// <summary>
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/// The radius of the <see cref="Circle"/>.
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/// </summary>
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public readonly float Radius = radius;
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/// <summary>
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/// Gets the squared radius of the <see cref="Circle"/>.
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/// </summary>
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public readonly float RadiusSquared => Radius * Radius;
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/// <summary>
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/// Gets the diameter of the <see cref="Circle"/>.
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/// </summary>
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public readonly float Diameter => 2f * Radius;
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/// <summary>
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/// A predefined unit <see cref="Circle"/> with a center at the origin and a radius of 1.
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/// </summary>
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public static readonly Circle UnitCircle = new(Vector2D.Zero, 1f);
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/// <summary>
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/// Sets the center of the <see cref="Circle"/>.
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/// </summary>
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public static Circle SetCenter(Circle circle, Vector2D center) => new(center, circle.Radius);
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/// <summary>
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/// Sets the radius of the <see cref="Circle"/>.
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/// </summary>
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public static Circle SetRadius(Circle circle, float radius) => new(circle.Center, radius);
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/// <summary>
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/// Displaces the <see cref="Circle"/> by the specified <see cref="Vector2D"/>.
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/// </summary>
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public static Circle Displace(Circle circle, Vector2D displaceVector) => new(circle.Center + displaceVector, circle.Radius);
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/// <summary>
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/// Projects the <see cref="Circle"/> onto the specified <see cref="Vector2D"/>.
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/// </summary>
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public static Projection Project(Circle circle, Vector2D projectionVector)
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{
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float projectedCenter = circle.Center.Dot(projectionVector);
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return new(projectedCenter - circle.Radius, projectedCenter + circle.Radius);
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}
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/// <summary>
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/// Transforms the <see cref="Circle"/> by the specified <see cref="ITransform"/>.
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/// </summary>
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public static Circle TransformCircle(ITransform transform, Circle circle)
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=> new(transform.TransformVector2D(circle.Center), circle.Radius * transform.Scale.Magnitude);
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/// <summary>
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/// Checks if two <see cref="Circle"/>s are approximately equal.
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/// </summary>
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public static bool ApproximatelyEquals(Circle left, Circle right)
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=> left.Center.ApproximatelyEquals(right.Center) && left.Radius.ApproximatelyEquals(right.Radius);
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}
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/// <summary>
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/// Provides extension methods for the <see cref="Circle"/> struct.
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/// </summary>
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public static class CircleExtensions
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{
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/// <summary>
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/// Sets the center of the <see cref="Circle"/>.
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/// </summary>
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public static Circle SetCenter(this Circle circle, Vector2D center) => Circle.SetCenter(circle, center);
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/// <summary>
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/// Sets the radius of the <see cref="Circle"/>.
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/// </summary>
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public static Circle SetRadius(this Circle circle, float radius) => Circle.SetRadius(circle, radius);
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/// <summary>
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/// Moves the <see cref="Circle"/> by the specified <see cref="Vector2D"/>.
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/// </summary>
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public static Circle Displace(this Circle circle, Vector2D displaceVector) => Circle.Displace(circle, displaceVector);
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/// <summary>
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/// Projects the <see cref="Circle"/> onto the specified <see cref="Vector2D"/>.
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/// </summary>
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public static Projection ToProjection(this Circle circle, Vector2D projectionVector) => Circle.Project(circle, projectionVector);
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/// <summary>
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/// Transforms the <see cref="Circle"/> by the specified <see cref="ITransform"/>.
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/// </summary>
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public static Circle TransformCircle(this ITransform transform, Circle circle) => Circle.TransformCircle(transform, circle);
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/// <summary>
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/// Checks if two <see cref="Circle"/>s are approximately equal.
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/// </summary>
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public static bool ApproximatelyEquals(this Circle left, Circle right) => Circle.ApproximatelyEquals(left, right);
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}
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@ -1,22 +1,54 @@
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using System;
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using System.Collections.Generic;
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using System.Diagnostics.CodeAnalysis;
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using Syntriax.Engine.Core;
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namespace Syntriax.Engine.Physics2D.Primitives;
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/// <summary>
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/// Represents a 2D line segment defined by two endpoints.
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/// </summary>
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/// <remarks>
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/// Initializes a new instance of the Line struct with the specified endpoints.
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/// </remarks>
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/// <param name="from">The starting point of the <see cref="Line"/> segment.</param>
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/// <param name="to">The ending point of the <see cref="Line"/> segment.</param>
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[System.Diagnostics.DebuggerDisplay("From: {From.ToString(),nq}, To: {To.ToString(),nq}, Direction: {Direction.ToString(),nq}, Length: {Length}")]
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public readonly struct Line(Vector2D From, Vector2D To)
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public readonly struct Line(Vector2D from, Vector2D to)
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{
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public readonly Vector2D From { get; init; } = From;
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public readonly Vector2D To { get; init; } = To;
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/// <summary>
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/// The starting point of the <see cref="Line"/> segment.
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/// </summary>
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public readonly Vector2D From = from;
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/// <summary>
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/// The ending point of the <see cref="Line"/> segment.
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/// </summary>
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public readonly Vector2D To = to;
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/// <summary>
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/// The reversed <see cref="Line"/> segment.
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/// </summary>
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public readonly Line Reversed => new(To, From);
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/// <summary>
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/// The normalized direction <see cref="Vector2D"/> of the <see cref="Line"/> segment.
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/// </summary>
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public readonly Vector2D Direction => From.FromTo(To).Normalize();
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/// <summary>
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/// The length of the <see cref="Line"/> segment.
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/// </summary>
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public readonly float Length => From.FromTo(To).Length();
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/// <summary>
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/// The squared length of the <see cref="Line"/> segment.
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/// </summary>
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public readonly float LengthSquared => From.FromTo(To).LengthSquared();
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/// <summary>
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/// The equation of the <see cref="Line"/> defined by this <see cref="Line"/> segment.
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/// </summary>
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public static LineEquation GetLineEquation(Line line)
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{
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Vector2D slopeVector = line.From.FromTo(line.To);
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return new LineEquation(slope, yOffset);
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}
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/// <summary>
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/// Determines whether the specified <see cref="Vector2D"/> lies on the <see cref="Line"/>.
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/// </summary>
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public static bool Intersects(Line line, Vector2D point)
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=> LineEquation.Resolve(GetLineEquation(line), point.X).ApproximatelyEquals(point.Y);
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/// <summary>
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/// Calculates the parameter 't' representing the point's position on the <see cref="Line"/> segment.
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/// </summary>
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public static float GetT(Line line, Vector2D point)
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{
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float fromX = MathF.Abs(line.From.X);
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return t;
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}
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public static bool Exist(Line line, List<Vector2D> vertices)
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/// <summary>
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/// Checks if the <see cref="Line"/> segment intersects with another <see cref="Line"/> segment.
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/// </summary>
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public static bool Intersects(Line left, Line right)
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{
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for (int i = 0; i < vertices.Count - 1; i++)
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{
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Vector2D vertexCurrent = vertices[i];
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Vector2D vertexNext = vertices[i];
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if (line.From == vertexCurrent && line.To == vertexNext) return true;
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if (line.From == vertexNext && line.To == vertexCurrent) return true;
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}
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int o1 = Vector2D.Orientation(left.From, left.To, right.From);
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int o2 = Vector2D.Orientation(left.From, left.To, right.To);
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int o3 = Vector2D.Orientation(right.From, right.To, left.From);
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int o4 = Vector2D.Orientation(right.From, right.To, left.To);
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if (o1 != o2 && o3 != o4)
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return true;
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if (o1 == 0 && OnSegment(left, right.From)) return true;
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if (o2 == 0 && OnSegment(left, right.To)) return true;
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if (o3 == 0 && OnSegment(right, left.From)) return true;
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if (o4 == 0 && OnSegment(right, left.To)) return true;
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Vector2D vertexFirst = vertices[0];
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Vector2D vertexLast = vertices[^1];
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if (line.From == vertexFirst && line.To == vertexLast) return true;
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if (line.From == vertexLast && line.To == vertexFirst) return true;
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return false;
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}
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/// <summary>
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/// Checks if the point lies within the <see cref="Line"/> segment.
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/// </summary>
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public static bool OnSegment(Line line, Vector2D point)
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{
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if (point.X <= MathF.Max(line.From.X, line.To.X) && point.X >= MathF.Min(line.From.X, line.To.X) &&
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point.Y <= MathF.Max(line.From.Y, line.To.Y) && point.Y >= MathF.Min(line.From.Y, line.To.Y))
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return true;
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return false;
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}
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/// <summary>
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/// Determines whether two <see cref="Line"/> segments intersect.
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/// </summary>
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public static bool Intersects(Line left, Line right, [NotNullWhen(returnValue: true)] out Vector2D? point)
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{
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point = null;
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bool result = Intersects(left, right);
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if (result)
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point = IntersectionPoint(left, right);
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return result;
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}
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/// <summary>
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/// Finds the point of intersection between two <see cref="Line"/> segments.
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/// </summary>
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public static Vector2D IntersectionPoint(Line left, Line right)
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=> Vector2D.Lerp(left.From, left.To, IntersectionParameterT(left, right));
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/// <summary>
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/// Calculates the parameter 't' representing the intersection point's position on the <see cref="Line"/> segment.
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/// </summary>
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public static float IntersectionParameterT(Line left, Line right)
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{
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float numerator = (left.From.X - right.From.X) * (right.From.Y - right.To.Y) - (left.From.Y - right.From.Y) * (right.From.X - right.To.X);
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return numerator / denominator;
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}
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/// <summary>
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/// Linearly interpolates between the two endpoints of the <see cref="Line"/> segment using parameter 't'.
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/// </summary>
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public static Vector2D Lerp(Line line, float t)
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=> new Vector2D(
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=> new(
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line.From.X + (line.To.X - line.From.X) * t,
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line.From.Y + (line.To.Y - line.From.Y) * t
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);
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/// <summary>
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/// Calculates the closest point on the <see cref="Line"/> segment to the specified point.
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/// </summary>
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public static Vector2D ClosestPointTo(Line line, Vector2D point)
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{
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// Convert edge points to vectors
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return new Vector2D((float)closestX, (float)closestY);
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}
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public static Vector2D IntersectionPoint(Line left, Line right)
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=> Vector2D.Lerp(left.From, left.To, IntersectionParameterT(left, right));
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public static bool Intersects(Line left, Line right)
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{
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int o1 = Vector2D.Orientation(left.From, left.To, right.From);
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int o2 = Vector2D.Orientation(left.From, left.To, right.To);
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int o3 = Vector2D.Orientation(right.From, right.To, left.From);
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int o4 = Vector2D.Orientation(right.From, right.To, left.To);
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if (o1 != o2 && o3 != o4)
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return true;
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if (o1 == 0 && OnSegment(left, right.From)) return true;
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if (o2 == 0 && OnSegment(left, right.To)) return true;
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if (o3 == 0 && OnSegment(right, left.From)) return true;
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if (o4 == 0 && OnSegment(right, left.To)) return true;
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return false;
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}
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public static bool OnSegment(Line line, Vector2D point)
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{
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if (point.X <= MathF.Max(line.From.X, line.To.X) && point.X >= MathF.Min(line.From.X, line.To.X) &&
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point.Y <= MathF.Max(line.From.Y, line.To.Y) && point.Y >= MathF.Min(line.From.Y, line.To.Y))
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return true;
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return false;
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}
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public static bool Intersects(Line left, Line right, [NotNullWhen(returnValue: true)] out Vector2D? point)
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{
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point = null;
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bool result = Intersects(left, right);
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if (result)
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point = IntersectionPoint(left, right);
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return result;
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}
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/// <summary>
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/// Checks if two <see cref="Line"/> segments are approximately equal.
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/// </summary>
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public static bool ApproximatelyEquals(Line left, Line right)
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=> left.From.ApproximatelyEquals(right.From) && left.To.ApproximatelyEquals(right.To);
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}
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||||
/// <summary>
|
||||
/// Provides extension methods for the Line struct.
|
||||
/// </summary>
|
||||
public static class LineExtensions
|
||||
{
|
||||
/// <summary>
|
||||
/// Checks if two <see cref="Line"/>s are approximately equal.
|
||||
/// </summary>
|
||||
public static bool ApproximatelyEquals(this Line left, Line right) => Line.ApproximatelyEquals(left, right);
|
||||
}
|
||||
|
|
|
@ -2,20 +2,63 @@ using Syntriax.Engine.Core;
|
|||
|
||||
namespace Syntriax.Engine.Physics2D.Primitives;
|
||||
|
||||
/// <summary>
|
||||
/// Represents a line equation in the form y = mx + b.
|
||||
/// </summary>
|
||||
/// <param name="slope">The slope of the line.</param>
|
||||
/// <param name="offsetY">The y-intercept of the line.</param>
|
||||
/// <remarks>
|
||||
/// Initializes a new instance of the <see cref="LineEquation"/> struct with the specified slope and y-intercept.
|
||||
/// </remarks>
|
||||
[System.Diagnostics.DebuggerDisplay("y = {Slope}x + {OffsetY}")]
|
||||
public readonly struct LineEquation(float Slope, float OffsetY)
|
||||
public readonly struct LineEquation(float slope, float offsetY)
|
||||
{
|
||||
public readonly float Slope { get; init; } = Slope;
|
||||
public readonly float OffsetY { get; init; } = OffsetY;
|
||||
/// <summary>
|
||||
/// The slope of the line equation.
|
||||
/// </summary>
|
||||
public readonly float Slope = slope;
|
||||
|
||||
/// <summary>
|
||||
/// The y-intercept of the line equation.
|
||||
/// </summary>
|
||||
public readonly float OffsetY = offsetY;
|
||||
|
||||
/// <summary>
|
||||
/// Resolves the y-coordinate for a given x-coordinate using the line equation.
|
||||
/// </summary>
|
||||
/// <param name="lineEquation">The line equation to resolve.</param>
|
||||
/// <param name="x">The x-coordinate for which to resolve the y-coordinate.</param>
|
||||
/// <returns>The y-coordinate resolved using the line equation.</returns>
|
||||
public static float Resolve(LineEquation lineEquation, float x) => lineEquation.Slope * x + lineEquation.OffsetY; // y = mx + b
|
||||
|
||||
/// <summary>
|
||||
/// Checks if two line equations are approximately equal.
|
||||
/// </summary>
|
||||
/// <param name="left">The first line equation to compare.</param>
|
||||
/// <param name="right">The second line equation to compare.</param>
|
||||
/// <returns>True if the line equations are approximately equal; otherwise, false.</returns>
|
||||
public static bool ApproximatelyEquals(LineEquation left, LineEquation right)
|
||||
=> left.Slope.ApproximatelyEquals(right.Slope) && left.OffsetY.ApproximatelyEquals(right.OffsetY);
|
||||
}
|
||||
|
||||
/// <summary>
|
||||
/// Provides extension methods for the LineEquation struct.
|
||||
/// </summary>
|
||||
public static class LineEquationExtensions
|
||||
{
|
||||
/// <summary>
|
||||
/// Resolves the y-coordinate for a given x-coordinate using the line equation.
|
||||
/// </summary>
|
||||
/// <param name="lineEquation">The line equation to resolve.</param>
|
||||
/// <param name="x">The x-coordinate for which to resolve the y-coordinate.</param>
|
||||
/// <returns>The y-coordinate resolved using the line equation.</returns>
|
||||
public static float Resolve(this LineEquation lineEquation, float x) => LineEquation.Resolve(lineEquation, x);
|
||||
|
||||
/// <summary>
|
||||
/// Checks if two line equations are approximately equal.
|
||||
/// </summary>
|
||||
/// <param name="left">The first line equation to compare.</param>
|
||||
/// <param name="right">The second line equation to compare.</param>
|
||||
/// <returns>True if the line equations are approximately equal; otherwise, false.</returns>
|
||||
public static bool ApproximatelyEquals(this LineEquation left, LineEquation right) => LineEquation.ApproximatelyEquals(left, right);
|
||||
}
|
||||
|
|
|
@ -1,12 +1,41 @@
|
|||
namespace Syntriax.Engine.Physics2D.Primitives;
|
||||
|
||||
/// <summary>
|
||||
/// Represents a range of values along a single axis.
|
||||
/// </summary>
|
||||
/// <param name="min">The minimum value of the projection.</param>
|
||||
/// <param name="max">The maximum value of the projection.</param>
|
||||
/// <remarks>
|
||||
/// Initializes a new instance of the <see cref="Projection"/> struct with the specified minimum and maximum values.
|
||||
/// </remarks>
|
||||
[System.Diagnostics.DebuggerDisplay("Min: {Min}, Max: {Max}")]
|
||||
public readonly struct Projection(float Min, float Max)
|
||||
public readonly struct Projection(float min, float max)
|
||||
{
|
||||
public readonly float Min { get; init; } = Min;
|
||||
public readonly float Max { get; init; } = Max;
|
||||
/// <summary>
|
||||
/// Gets the minimum value of the projection.
|
||||
/// </summary>
|
||||
public readonly float Min = min;
|
||||
|
||||
/// <summary>
|
||||
/// Gets the maximum value of the projection.
|
||||
/// </summary>
|
||||
public readonly float Max = max;
|
||||
|
||||
/// <summary>
|
||||
/// Checks if two projections overlap.
|
||||
/// </summary>
|
||||
/// <param name="left">The first projection to check.</param>
|
||||
/// <param name="right">The second projection to check.</param>
|
||||
/// <returns><see cref="true"/> if the projections overlap; otherwise, <see cref="false"/>.</returns>
|
||||
public static bool Overlaps(Projection left, Projection right) => Overlaps(left, right, out var _);
|
||||
|
||||
/// <summary>
|
||||
/// Checks if two projections overlap and calculates the depth of the overlap.
|
||||
/// </summary>
|
||||
/// <param name="left">The first projection to check.</param>
|
||||
/// <param name="right">The second projection to check.</param>
|
||||
/// <param name="depth">The depth of the overlap, if any.</param>
|
||||
/// <returns><see cref="true"/> if the projections overlap; otherwise, <see cref="false"/>.</returns>
|
||||
public static bool Overlaps(Projection left, Projection right, out float depth)
|
||||
{
|
||||
// TODO Try to improve this
|
||||
|
@ -42,8 +71,26 @@ public readonly struct Projection(float Min, float Max)
|
|||
return false;
|
||||
}
|
||||
}
|
||||
|
||||
/// <summary>
|
||||
/// Provides extension methods for the <see cref="Projection"/> struct.
|
||||
/// </summary>
|
||||
public static class ProjectionExtensions
|
||||
{
|
||||
/// <summary>
|
||||
/// Checks if two projections overlap.
|
||||
/// </summary>
|
||||
/// <param name="left">The first projection to check.</param>
|
||||
/// <param name="right">The second projection to check.</param>
|
||||
/// <returns><see cref="true"/> if the projections overlap; otherwise, <see cref="false"/>.</returns>
|
||||
public static bool Overlaps(this Projection left, Projection right) => Projection.Overlaps(left, right);
|
||||
|
||||
/// <summary>
|
||||
/// Checks if two projections overlap and calculates the depth of the overlap.
|
||||
/// </summary>
|
||||
/// <param name="left">The first projection to check.</param>
|
||||
/// <param name="right">The second projection to check.</param>
|
||||
/// <param name="depth">The depth of the overlap, if any.</param>
|
||||
/// <returns><see cref="true"/> if the projections overlap; otherwise, <see cref="false"/>.</returns>
|
||||
public static bool Overlaps(this Projection left, Projection right, out float depth) => Projection.Overlaps(left, right, out depth);
|
||||
}
|
||||
|
|
|
@ -6,22 +6,55 @@ using Syntriax.Engine.Core.Abstract;
|
|||
|
||||
namespace Syntriax.Engine.Physics2D.Primitives;
|
||||
|
||||
/// <summary>
|
||||
/// Represents a shape defined by a collection of vertices.
|
||||
/// </summary>
|
||||
/// <param name="vertices">The vertices of the shape.</param>
|
||||
/// <remarks>
|
||||
/// Initializes a new instance of the <see cref="Shape"/> struct with the specified vertices.
|
||||
/// </remarks>
|
||||
[System.Diagnostics.DebuggerDisplay("Vertices Count: {Vertices.Count}")]
|
||||
public readonly struct Shape(IList<Vector2D> Vertices) : IEnumerable<Vector2D>
|
||||
public readonly struct Shape(List<Vector2D> vertices) : IEnumerable<Vector2D>
|
||||
{
|
||||
public static readonly Shape Triangle = CreateNgon(3, Vector2D.Up);
|
||||
public static readonly Shape Box = CreateNgon(4, Vector2D.One);
|
||||
public static readonly Shape Pentagon = CreateNgon(5, Vector2D.Up);
|
||||
public static readonly Shape Hexagon = CreateNgon(6, Vector2D.Right);
|
||||
|
||||
public readonly IList<Vector2D> Vertices { get; init; } = Vertices;
|
||||
private readonly List<Vector2D> _verticesList = vertices;
|
||||
|
||||
/// <summary>
|
||||
/// Gets the vertices of the shape.
|
||||
/// </summary>
|
||||
public IReadOnlyList<Vector2D> Vertices => _verticesList;
|
||||
|
||||
/// <summary>
|
||||
/// The vertex at the specified index.
|
||||
/// </summary>
|
||||
/// <param name="index">The zero-based index of the vertex to get or set.</param>
|
||||
/// <returns>The vertex at the specified index.</returns>
|
||||
public Vector2D this[System.Index index] => Vertices[index];
|
||||
|
||||
/// <summary>
|
||||
/// Returns a copy of the current shape.
|
||||
/// </summary>
|
||||
/// <param name="shape">The shape to copy.</param>
|
||||
/// <returns>A copy of the input shape.</returns>
|
||||
public static Shape CreateCopy(Shape shape) => new(new List<Vector2D>(shape.Vertices));
|
||||
|
||||
/// <summary>
|
||||
/// Creates a regular polygon (ngon) with the specified number of vertices.
|
||||
/// </summary>
|
||||
/// <param name="vertexCount">The number of vertices in the polygon.</param>
|
||||
/// <returns>A regular polygon with the specified number of vertices.</returns>
|
||||
public static Shape CreateNgon(int vertexCount) => CreateNgon(vertexCount, Vector2D.Up);
|
||||
|
||||
/// <summary>
|
||||
/// Creates a regular polygon (ngon) with the specified number of vertices and a rotation position.
|
||||
/// </summary>
|
||||
/// <param name="vertexCount">The number of vertices in the polygon.</param>
|
||||
/// <param name="positionToRotate">The position to use for rotation.</param>
|
||||
/// <returns>A regular polygon with the specified number of vertices and rotation position.</returns>
|
||||
public static Shape CreateNgon(int vertexCount, Vector2D positionToRotate)
|
||||
{
|
||||
if (vertexCount < 3)
|
||||
|
@ -37,6 +70,11 @@ public readonly struct Shape(IList<Vector2D> Vertices) : IEnumerable<Vector2D>
|
|||
return new(vertices);
|
||||
}
|
||||
|
||||
/// <summary>
|
||||
/// Gets the super triangle that encloses the given shape.
|
||||
/// </summary>
|
||||
/// <param name="shape">The shape to enclose.</param>
|
||||
/// <returns>The super triangle that encloses the given shape.</returns>
|
||||
public static Triangle GetSuperTriangle(Shape shape)
|
||||
{
|
||||
float minX = float.MaxValue, minY = float.MaxValue;
|
||||
|
@ -63,6 +101,11 @@ public readonly struct Shape(IList<Vector2D> Vertices) : IEnumerable<Vector2D>
|
|||
return new Triangle(p1, p2, p3);
|
||||
}
|
||||
|
||||
/// <summary>
|
||||
/// Gets the lines that form the edges of the shape.
|
||||
/// </summary>
|
||||
/// <param name="shape">The shape to get lines from.</param>
|
||||
/// <param name="lines">The list to populate with lines.</param>
|
||||
public static void GetLines(Shape shape, IList<Line> lines)
|
||||
{
|
||||
lines.Clear();
|
||||
|
@ -71,6 +114,11 @@ public readonly struct Shape(IList<Vector2D> Vertices) : IEnumerable<Vector2D>
|
|||
lines.Add(new(shape.Vertices[^1], shape.Vertices[0]));
|
||||
}
|
||||
|
||||
/// <summary>
|
||||
/// Gets a list of lines that form the edges of the shape.
|
||||
/// </summary>
|
||||
/// <param name="shape">The shape to get lines from.</param>
|
||||
/// <returns>A list of lines that form the edges of the shape.</returns>
|
||||
public static List<Line> GetLines(Shape shape)
|
||||
{
|
||||
List<Line> lines = new(shape.Vertices.Count - 1);
|
||||
|
@ -78,6 +126,12 @@ public readonly struct Shape(IList<Vector2D> Vertices) : IEnumerable<Vector2D>
|
|||
return lines;
|
||||
}
|
||||
|
||||
/// <summary>
|
||||
/// Projects the shape onto a vector.
|
||||
/// </summary>
|
||||
/// <param name="shape">The shape to project.</param>
|
||||
/// <param name="projectionVector">The vector to project onto.</param>
|
||||
/// <param name="list">The list to populate with projected values.</param>
|
||||
public static void Project(Shape shape, Vector2D projectionVector, IList<float> list)
|
||||
{
|
||||
list.Clear();
|
||||
|
@ -87,6 +141,12 @@ public readonly struct Shape(IList<Vector2D> Vertices) : IEnumerable<Vector2D>
|
|||
list.Add(projectionVector.Dot(shape[i]));
|
||||
}
|
||||
|
||||
/// <summary>
|
||||
/// Projects the shape onto a vector.
|
||||
/// </summary>
|
||||
/// <param name="shape">The shape to project.</param>
|
||||
/// <param name="projectionVector">The vector to project onto.</param>
|
||||
/// <returns>The projection of the shape onto the vector.</returns>
|
||||
public static Projection Project(Shape shape, Vector2D projectionVector)
|
||||
{
|
||||
float min = float.MaxValue;
|
||||
|
@ -102,6 +162,12 @@ public readonly struct Shape(IList<Vector2D> Vertices) : IEnumerable<Vector2D>
|
|||
return new(min, max);
|
||||
}
|
||||
|
||||
/// <summary>
|
||||
/// Transforms the shape using the specified transform.
|
||||
/// </summary>
|
||||
/// <param name="shape">The shape to transform.</param>
|
||||
/// <param name="transform">The transform to apply.</param>
|
||||
/// <returns>The transformed shape.</returns>
|
||||
public static Shape TransformShape(Shape shape, ITransform transform)
|
||||
{
|
||||
List<Vector2D> vertices = new(shape.Vertices.Count);
|
||||
|
@ -113,15 +179,27 @@ public readonly struct Shape(IList<Vector2D> Vertices) : IEnumerable<Vector2D>
|
|||
return new Shape(vertices);
|
||||
}
|
||||
|
||||
/// <summary>
|
||||
/// Transforms the shape using the specified transform.
|
||||
/// </summary>
|
||||
/// <param name="from">The shape to transform.</param>
|
||||
/// <param name="transform">The transform to apply.</param>
|
||||
/// <param name="to">The transformed shape.</param>
|
||||
public static void TransformShape(Shape from, ITransform transform, ref Shape to)
|
||||
{
|
||||
to.Vertices.Clear();
|
||||
to._verticesList.Clear();
|
||||
|
||||
int count = from.Vertices.Count;
|
||||
int count = from._verticesList.Count;
|
||||
for (int i = 0; i < count; i++)
|
||||
to.Vertices.Add(transform.TransformVector2D(from[i]));
|
||||
to._verticesList.Add(transform.TransformVector2D(from[i]));
|
||||
}
|
||||
|
||||
/// <summary>
|
||||
/// Determines whether two shapes are approximately equal.
|
||||
/// </summary>
|
||||
/// <param name="left">The first shape to compare.</param>
|
||||
/// <param name="right">The second shape to compare.</param>
|
||||
/// <returns><c>true</c> if the shapes are approximately equal; otherwise, <c>false</c>.</returns>
|
||||
public static bool ApproximatelyEquals(Shape left, Shape right)
|
||||
{
|
||||
if (left.Vertices.Count != right.Vertices.Count)
|
||||
|
@ -134,22 +212,83 @@ public readonly struct Shape(IList<Vector2D> Vertices) : IEnumerable<Vector2D>
|
|||
return true;
|
||||
}
|
||||
|
||||
/// <inheritdoc/>
|
||||
public IEnumerator<Vector2D> GetEnumerator() => Vertices.GetEnumerator();
|
||||
|
||||
/// <inheritdoc/>
|
||||
IEnumerator IEnumerable.GetEnumerator() => Vertices.GetEnumerator();
|
||||
}
|
||||
|
||||
/// <summary>
|
||||
/// Provides extension methods for the <see cref="Shape"/> struct.
|
||||
/// </summary>
|
||||
public static class ShapeExtensions
|
||||
{
|
||||
/// <summary>
|
||||
/// Creates a copy of the shape.
|
||||
/// </summary>
|
||||
/// <param name="shape">The shape to copy.</param>
|
||||
/// <returns>A copy of the input shape.</returns>
|
||||
public static Shape CreateCopy(this Shape shape) => Shape.CreateCopy(shape);
|
||||
|
||||
/// <summary>
|
||||
/// Gets the super triangle that encloses the shape.
|
||||
/// </summary>
|
||||
/// <param name="shape">The shape to enclose.</param>
|
||||
/// <returns>The super triangle that encloses the shape.</returns>
|
||||
public static Triangle ToSuperTriangle(this Shape shape) => Shape.GetSuperTriangle(shape);
|
||||
|
||||
/// <summary>
|
||||
/// Gets the lines that form the edges of the shape.
|
||||
/// </summary>
|
||||
/// <param name="shape">The shape to get lines from.</param>
|
||||
/// <param name="lines">The list to populate with lines.</param>
|
||||
public static void ToLines(this Shape shape, IList<Line> lines) => Shape.GetLines(shape, lines);
|
||||
|
||||
/// <summary>
|
||||
/// Gets a list of lines that form the edges of the shape.
|
||||
/// </summary>
|
||||
/// <param name="shape">The shape to get lines from.</param>
|
||||
/// <returns>A list of lines that form the edges of the shape.</returns>
|
||||
public static List<Line> ToLines(this Shape shape) => Shape.GetLines(shape);
|
||||
|
||||
/// <summary>
|
||||
/// Projects the shape onto a vector.
|
||||
/// </summary>
|
||||
/// <param name="shape">The shape to project.</param>
|
||||
/// <param name="projectionVector">The vector to project onto.</param>
|
||||
/// <param name="list">The list to populate with projected values.</param>
|
||||
public static void ToProjection(this Shape shape, Vector2D projectionVector, IList<float> list) => Shape.Project(shape, projectionVector, list);
|
||||
|
||||
/// <summary>
|
||||
/// Projects the shape onto a vector.
|
||||
/// </summary>
|
||||
/// <param name="shape">The shape to project.</param>
|
||||
/// <param name="projectionVector">The vector to project onto.</param>
|
||||
/// <returns>The projection of the shape onto the vector.</returns>
|
||||
public static Projection ToProjection(this Shape shape, Vector2D projectionVector) => Shape.Project(shape, projectionVector);
|
||||
|
||||
/// <summary>
|
||||
/// Transforms the shape using the specified transform.
|
||||
/// </summary>
|
||||
/// <param name="transform">The transform to apply.</param>
|
||||
/// <param name="shape">The shape to transform.</param>
|
||||
/// <returns>The transformed shape.</returns>
|
||||
public static Shape TransformShape(this ITransform transform, Shape shape) => Shape.TransformShape(shape, transform);
|
||||
|
||||
/// <summary>
|
||||
/// Transforms the shape using the specified transform.
|
||||
/// </summary>
|
||||
/// <param name="transform">The transform to apply.</param>
|
||||
/// <param name="from">The shape to transform.</param>
|
||||
/// <param name="to">The transformed shape.</param>
|
||||
public static void TransformShape(this ITransform transform, Shape from, ref Shape to) => Shape.TransformShape(from, transform, ref to);
|
||||
|
||||
/// <summary>
|
||||
/// Determines whether two shapes are approximately equal.
|
||||
/// </summary>
|
||||
/// <param name="left">The first shape to compare.</param>
|
||||
/// <param name="right">The second shape to compare.</param>
|
||||
/// <returns><c>true</c> if the shapes are approximately equal; otherwise, <c>false</c>.</returns>
|
||||
public static bool ApproximatelyEquals(this Shape left, Shape right) => Shape.ApproximatelyEquals(left, right);
|
||||
}
|
||||
|
|
Loading…
Reference in New Issue