refactor GJK again

2019-10-25 22:00:34 -07:00 · 2019-10-25 22:00:34 -07:00 · f787a00a91
parent 2151252d6e
commit f787a00a91
7 changed files with 285 additions and 190 deletions
--- a/Bonk/NarrowPhase/EPA2D.cs
+++ b/Bonk/NarrowPhase/EPA2D.cs
@ -24,7 +24,7 @@ namespace MoonTools.Core.Bonk
        /// </summary>
        /// <param name="simplex">A simplex returned by the GJK algorithm.</param>
        /// <returns></returns>
-        public static Vector2 Intersect(IShape2D shapeA, Transform2D Transform2DA, IShape2D shapeB, Transform2D Transform2DB, Simplex simplex)
+        public static Vector2 Intersect(IShape2D shapeA, Transform2D Transform2DA, IShape2D shapeB, Transform2D Transform2DB, Simplex2D simplex)
        {
            var simplexVertices = new PooledList<Vector2>(36, ClearMode.Always);
--- a/Bonk/NarrowPhase/GJK2D.cs
+++ b/Bonk/NarrowPhase/GJK2D.cs
@ -11,73 +11,135 @@ namespace MoonTools.Core.Bonk
        /// </summary>
        public static bool TestCollision(IShape2D shapeA, Transform2D transformA, IShape2D shapeB, Transform2D transformB)
        {
-            var minkowskiDifference = new MinkowskiDifference(shapeA, transformA, shapeB, transformB);
+            return FindCollisionSimplex(shapeA, transformA, shapeB, transformB).Item1;
            var a = minkowskiDifference.Support(Vector2.UnitX);
            var b = minkowskiDifference.Support(-a);
            return Vector2.Dot(a, b) > 0 ? false : CheckSimplex(new Simplex(minkowskiDifference, a, b));
        }
        private static bool CheckSimplex(Simplex simplex)
        {
            var a = simplex.DirectionA;
            var b = simplex.DirectionB;
            var axb = a.Cross(b);
            var c = simplex.Support((b - a).Perpendicular());
            var axc = a.Cross(c);
            var bxc = b.Cross(c);
            var cxb = -bxc;
            return (b - a) == Vector2.Zero || (axb.Y > 0 != bxc.Y > 0 ? CheckSimplex(simplex.WithDirections(b, c)) : (axc.Y > 0 != cxb.Y > 0 ? CheckSimplex(simplex.WithDirections(a, c)) : true));
        }
        /// <summary>
        /// Tests if the two shape-transform pairs are overlapping, and returns a simplex that can be used by the EPA algorithm to determine a miminum separating vector.
        /// </summary>
-        public static (bool, Simplex) FindCollisionSimplex(IShape2D shapeA, Transform2D transformA, IShape2D shapeB, Transform2D transformB)
+        public static (bool, Simplex2D) FindCollisionSimplex(IShape2D shapeA, Transform2D transformA, IShape2D shapeB, Transform2D transformB)
        {
            var minkowskiDifference = new MinkowskiDifference(shapeA, transformA, shapeB, transformB);
-            var a = minkowskiDifference.Support(Vector2.UnitX);
+            var c = minkowskiDifference.Support(Vector2.UnitX);
-            var b = minkowskiDifference.Support(-a);
+            var b = minkowskiDifference.Support(-Vector2.UnitX);
-
+            return Check(minkowskiDifference, c, b);
            return Vector2.Dot(a, b) > 0 ? (false, default(Simplex)) : Simplex(new Simplex(minkowskiDifference, a, b));
        }
-        private static (bool, Simplex) Simplex(Simplex simplex)
+        private static (bool, Simplex2D) Check(MinkowskiDifference minkowskiDifference, Vector2 c, Vector2 b)
        {
-            var a = simplex.DirectionA;
+            var cb = c - b;
-            var b = simplex.DirectionB;
+            var c0 = -c;
            var d = Direction(cb, c0);
            return DoSimplex(minkowskiDifference, new Simplex2D(b, c), d);
        }
-            if ((b - a) == Vector2.Zero)
+        private static (bool, Simplex2D) DoSimplex(MinkowskiDifference minkowskiDifference, Simplex2D simplex, Vector2 direction)
        {
            var a = minkowskiDifference.Support(direction);
            var notPastOrigin = Vector2.Dot(a, direction) < 0;
            var (intersects, newSimplex, newDirection) = EnclosesOrigin(a, simplex);
            if (notPastOrigin)
            {
-                return (false, simplex.WithDirections(a, b));
+                return (false, default(Simplex2D));
            }
            else if (intersects)
            {
                return (true, new Simplex2D(simplex.A, simplex.B.Value, a));
            }
            else
            {
-                var c = simplex.Support((b - a).Perpendicular());
+                return DoSimplex(minkowskiDifference, newSimplex, newDirection);
-                var axb = a.Cross(b);
+            }
-                var bxc = b.Cross(c);
+        }
-                if (axb.Y > 0 != bxc.Y > 0)
+        private static (bool, Simplex2D, Vector2) EnclosesOrigin(Vector2 a, Simplex2D simplex)
        {
            if (simplex.ZeroSimplex)
            {
                return HandleZeroSimplex(a, simplex.A);
            }
            else if (simplex.OneSimplex)
            {
                return HandleOneSimplex(a, simplex.A, simplex.B.Value);
            }
            else
            {
                return (false, simplex, Vector2.Zero);
            }
        }
        private static (bool, Simplex2D, Vector2) HandleZeroSimplex(Vector2 a, Vector2 b)
        {
            var ab = b - a;
            var a0 = -a;
            var (newSimplex, newDirection) = SameDirection(ab, a0) ? (new Simplex2D(a, b), Perpendicular(ab, a0)) : (new Simplex2D(a), a0);
            return (false, newSimplex, newDirection);
        }
        private static (bool, Simplex2D, Vector2) HandleOneSimplex(Vector2 a, Vector2 b, Vector2 c)
        {
            var a0 = -a;
            var ab = b - a;
            var ac = c - a;
            var abp = Perpendicular(ab, -ac);
            var acp = Perpendicular(ac, -ab);
            if (SameDirection(abp, a0))
            {
                if (SameDirection(ab, a0))
                {
-                    return Simplex(simplex.WithDirections(b, c));
+                    return (false, new Simplex2D(a, b), abp);
                }
                else
                {
-                    var axc = a.Cross(c);
+                    return (false, new Simplex2D(a), a0);
                    var cxb = -bxc;
                    if (axc.Y > 0 != cxb.Y > 0)
                    {
                        return Simplex(simplex.WithDirections(a, b));
                    }
                    else
                    {
                        return (true, simplex.WithDirections(a, b));
                    }
                }
            }
            else if (SameDirection(acp, a0))
            {
                if (SameDirection(ac, a0))
                {
                    return (false, new Simplex2D(a, c), acp);
                }
                else
                {
                    return (false, new Simplex2D(a), a0);
                }
            }
            else
            {
                return (true, new Simplex2D(b, c), a0);
            }
        }
        private static Vector2 TripleProduct(Vector2 a, Vector2 b, Vector2 c)
        {
            var A = new Vector3(a.X, a.Y, 0);
            var B = new Vector3(b.X, b.Y, 0);
            var C = new Vector3(c.X, c.Y, 0);
            var first = Vector3.Cross(A, B);
            var second = Vector3.Cross(first, C);
            return new Vector2(second.X, second.Y);
        }
        private static Vector2 Direction(Vector2 a, Vector2 b)
        {
            var d = TripleProduct(a, b, a);
            var collinear = d == Vector2.Zero;
            return collinear ? new Vector2(a.Y, -a.X) : d;
        }
        private static bool SameDirection(Vector2 a, Vector2 b)
        {
            return Vector2.Dot(a, b) > 0;
        }
        private static Vector2 Perpendicular(Vector2 a, Vector2 b)
        {
            return TripleProduct(a, b, a);
        }
    }
 }
--- a/Bonk/Shapes/Simplex.cs
+++ b/Bonk/Shapes/Simplex.cs
@ -1,41 +1,59 @@
 using System.Linq;
 using System.Collections.Generic;
 using Microsoft.Xna.Framework;
 using MoonTools.Core.Structs;
 using MoonTools.Core.Bonk.Extensions;
 using MoreLinq;
 namespace MoonTools.Core.Bonk
 {
    /// <summary>
-    /// A simplex is a shape used to calculate overlap. It is defined by a Minkowski difference and two direction vectors.
+    /// A simplex is a shape with up to n - 2 vertices in the nth dimension.
    /// </summary>
-    public struct Simplex : IShape2D
+    public struct Simplex2D : IShape2D
    {
-        MinkowskiDifference minkowskiDifference;
+        Vector2 a;
-        Vector2 directionA;
+        Vector2? b;
-        Vector2 directionB;
+        Vector2? c;
-        public Vector2 DirectionA { get { return directionA; } }
+        public Vector2 A => a;
-        public Vector2 DirectionB { get { return directionB; } }
+        public Vector2? B => b;
        public Vector2? C => c;
-        public Simplex(MinkowskiDifference minkowskiDifference, Vector2 directionA, Vector2 directionB)
+        public bool ZeroSimplex { get { return !b.HasValue && !c.HasValue; } }
        public bool OneSimplex { get { return b.HasValue && !c.HasValue; } }
        public bool TwoSimplex { get { return b.HasValue && c.HasValue; } }
        public int Count => TwoSimplex ? 3 : (OneSimplex ? 2 : 1);
        public Simplex2D(Vector2 a)
        {
-            this.minkowskiDifference = minkowskiDifference;
+            this.a = a;
-            this.directionA = directionA;
+            this.b = null;
-            this.directionB = directionB;
+            this.c = null;
        }
-        public Simplex WithDirections(Vector2 a, Vector2 b)
+        public Simplex2D(Vector2 a, Vector2 b)
        {
-            return new Simplex(minkowskiDifference, a, b);
+            this.a = a;
            this.b = b;
            this.c = null;
        }
        public Simplex2D(Vector2 a, Vector2 b, Vector2 c)
        {
            this.a = a;
            this.b = b;
            this.c = c;
        }
        public IEnumerable<Position2D> Vertices
        {
            get
            {
-                yield return (Position2D)Support(directionA);
+                yield return (Position2D)a;
-                yield return (Position2D)Support(directionB);
+                if (b.HasValue) { yield return (Position2D)b; }
-                yield return (Position2D)Support(-(directionB - directionA).Perpendicular());
+                if (c.HasValue) { yield return (Position2D)c; }
            }
        }
@ -46,7 +64,7 @@ namespace MoonTools.Core.Bonk
        public Vector2 Support(Vector2 direction)
        {
-            return minkowskiDifference.Support(direction);
+            return Vertices.MaxBy(vertex => Vector2.Dot(vertex, direction)).First();
        }
        public Vector2 Support(Vector2 direction, Transform2D transform)
@ -66,11 +84,10 @@ namespace MoonTools.Core.Bonk
        public bool Equals(IShape2D other)
        {
-            if (other is Simplex otherSimplex)
+            if (other is Simplex2D otherSimplex)
            {
-                return minkowskiDifference == otherSimplex.minkowskiDifference &&
+                if (Count != otherSimplex.Count) { return false; }
-                    ((directionA == otherSimplex.directionA && directionB == otherSimplex.directionB) ||
+                return Vertices.Intersect(otherSimplex.Vertices).Count() == Count;
                    (directionA == otherSimplex.directionB && directionB == otherSimplex.directionA));
            }
            return false;
@ -78,22 +95,23 @@ namespace MoonTools.Core.Bonk
        public override int GetHashCode()
        {
-            var hashCode = 74270316;
+            var hashCode = -495772172;
-            hashCode = hashCode * -1521134295 + EqualityComparer<MinkowskiDifference>.Default.GetHashCode(minkowskiDifference);
+            hashCode = hashCode * -1521134295 + EqualityComparer<Vector2>.Default.GetHashCode(a);
-            hashCode = hashCode * -1521134295 + EqualityComparer<Vector2>.Default.GetHashCode(directionA);
+            hashCode = hashCode * -1521134295 + EqualityComparer<Vector2?>.Default.GetHashCode(b);
-            hashCode = hashCode * -1521134295 + EqualityComparer<Vector2>.Default.GetHashCode(directionB);
+            hashCode = hashCode * -1521134295 + EqualityComparer<Vector2?>.Default.GetHashCode(c);
-            hashCode = hashCode * -1521134295 + EqualityComparer<Vector2>.Default.GetHashCode(DirectionA);
+            hashCode = hashCode * -1521134295 + ZeroSimplex.GetHashCode();
-            hashCode = hashCode * -1521134295 + EqualityComparer<Vector2>.Default.GetHashCode(DirectionB);
+            hashCode = hashCode * -1521134295 + OneSimplex.GetHashCode();
            hashCode = hashCode * -1521134295 + TwoSimplex.GetHashCode();
            hashCode = hashCode * -1521134295 + EqualityComparer<IEnumerable<Position2D>>.Default.GetHashCode(Vertices);
            return hashCode;
        }
-        public static bool operator ==(Simplex a, Simplex b)
+        public static bool operator ==(Simplex2D a, Simplex2D b)
        {
            return a.Equals(b);
        }
-        public static bool operator !=(Simplex a, Simplex b)
+        public static bool operator !=(Simplex2D a, Simplex2D b)
        {
            return !(a == b);
        }
--- a/Bonk/Vector2Extensions.cs
+++ b/Bonk/Vector2Extensions.cs
@ -4,15 +4,15 @@ namespace MoonTools.Core.Bonk.Extensions
 {
    internal static class Vector2Extensions
    {
-        internal static Vector2 Cross(this Vector2 a, Vector2 b)
+        internal static float Cross(this Vector2 a, Vector2 b)
        {
-            var vec3 = Vector3.Cross(new Vector3(a.X, a.Y, 0), new Vector3(b.X, b.Y, 0));
+            return Vector3.Cross(new Vector3(a.X, a.Y, 0), new Vector3(b.X, b.Y, 0)).Z;
            return new Vector2(vec3.X, vec3.Y);
        }
-        internal static Vector2 Perpendicular(this Vector2 v)
+        internal static Vector2 Perpendicular(this Vector2 a, Vector2 b)
        {
-            return new Vector2(v.Y, -v.X);
+            var ab = b - a;
            return a.Cross(b) > 0 ? Vector2.Normalize(new Vector2(ab.Y, ab.X)) : Vector2.Normalize(new Vector2(ab.Y, -ab.X));
        }
    }
 }
--- a/Test/EPA2DTest.cs
+++ b/Test/EPA2DTest.cs
@ -26,6 +26,10 @@ namespace Tests
            intersection.X.Should().Be(1f);
            intersection.Y.Should().Be(0);
            var movedTransform = new Transform2D(transformA.Position - intersection * 1.01f); // move a tiny bit past
            GJK2D.TestCollision(squareA, movedTransform, squareB, transformB).Should().BeFalse();
        }
        [Test]
@ -47,6 +51,10 @@ namespace Tests
            intersection.X.Should().BeApproximately(ix, 0.01f);
            intersection.Y.Should().BeApproximately(iy, 0.01f);
            var movedTransform = new Transform2D(transformA.Position - intersection * 1.01f); // move a tiny bit past
            GJK2D.TestCollision(circleA, movedTransform, circleB, transformB).Should().BeFalse();
        }
        [Test]
@ -63,8 +71,9 @@ namespace Tests
            var intersection = EPA2D.Intersect(line, transformA, square, transformB, simplex);
-            intersection.X.Should().Be(-1);
+            var movedTransform = new Transform2D(transformA.Position - intersection * 1.01f); // move a tiny bit past
-            intersection.Y.Should().Be(1);
+
            GJK2D.TestCollision(line, movedTransform, square, transformB).Should().BeFalse();
        }
    }
 }
--- a/Test/Equality.cs
+++ b/Test/Equality.cs
@ -258,169 +258,163 @@ namespace Tests
        public class SimplexTests
        {
            [Test]
-            public void SimplexEquals()
+            public void ZeroSimplexEquals()
            {
-                var shapeA = new Circle(3);
+                var simplexA = new Simplex2D(Vector2.One);
-                var transformA = new Transform2D(new Position2D(1, 2));
+                var simplexB = new Simplex2D(Vector2.One);
                var shapeB = new Circle(2);
                var transformB = new Transform2D(new Position2D(4, 5));
                var minkowskiDifference = new MinkowskiDifference(shapeA, transformA, shapeB, transformB);
                var directionA = Vector2.UnitX;
                var directionB = Vector2.UnitY;
                var simplexA = new Simplex(minkowskiDifference, directionA, directionB);
                var simplexB = new Simplex(minkowskiDifference, directionA, directionB);
                simplexA.Equals(simplexB).Should().BeTrue();
            }
            [Test]
-            public void SimplexEqualsOperator()
+            public void ZeroSimplexEqualsOperator()
            {
-                var shapeA = new Circle(3);
+                var simplexA = new Simplex2D(Vector2.One);
-                var transformA = new Transform2D(new Position2D(1, 2));
+                var simplexB = new Simplex2D(Vector2.One);
                var shapeB = new Circle(2);
                var transformB = new Transform2D(new Position2D(4, 5));
                var minkowskiDifference = new MinkowskiDifference(shapeA, transformA, shapeB, transformB);
                var directionA = Vector2.UnitX;
                var directionB = Vector2.UnitY;
                var simplexA = new Simplex(minkowskiDifference, directionA, directionB);
                var simplexB = new Simplex(minkowskiDifference, directionA, directionB);
                (simplexA == simplexB).Should().BeTrue();
            }
            [Test]
-            public void SimplexDirectionOutOfOrderEqual()
+            public void ZeroSimplexNotEquals()
            {
-                var shapeA = new Circle(3);
+                var simplexA = new Simplex2D(Vector2.Zero);
-                var transformA = new Transform2D(new Position2D(1, 2));
+                var simplexB = new Simplex2D(Vector2.One);
-                var shapeB = new Circle(2);
+                simplexA.Equals(simplexB).Should().BeFalse();
                var transformB = new Transform2D(new Position2D(4, 5));
-                var minkowskiDifference = new MinkowskiDifference(shapeA, transformA, shapeB, transformB);
+                var simplexC = new Simplex2D(Vector2.Zero, Vector2.One);
-                var directionA = Vector2.UnitX;
+                simplexA.Equals(simplexC).Should().BeFalse();
-                var directionB = Vector2.UnitY;
+            }
-                var simplexA = new Simplex(minkowskiDifference, directionA, directionB);
+            [Test]
-                var simplexB = new Simplex(minkowskiDifference, directionB, directionA);
+            public void ZeroSimplexNotEqualsOperator()
            {
                var simplexA = new Simplex2D(Vector2.Zero);
                var simplexB = new Simplex2D(Vector2.One);
                (simplexA != simplexB).Should().BeTrue();
            }
            [Test]
            public void OneSimplexEquals()
            {
                var simplexA = new Simplex2D(Vector2.One, Vector2.Zero);
                var simplexB = new Simplex2D(Vector2.One, Vector2.Zero);
                simplexA.Equals(simplexB).Should().BeTrue();
                var simplexC = new Simplex2D(Vector2.One, Vector2.Zero);
                var simplexD = new Simplex2D(Vector2.Zero, Vector2.One);
                simplexC.Equals(simplexD).Should().BeTrue();
            }
            [Test]
-            public void SimplexDirectionOutOfOrderEqualOperator()
+            public void OneSimplexEqualsOperator()
            {
-                var shapeA = new Circle(3);
+                var simplexA = new Simplex2D(Vector2.One, Vector2.Zero);
-                var transformA = new Transform2D(new Position2D(1, 2));
+                var simplexB = new Simplex2D(Vector2.One, Vector2.Zero);
                var shapeB = new Circle(2);
                var transformB = new Transform2D(new Position2D(4, 5));
                var minkowskiDifference = new MinkowskiDifference(shapeA, transformA, shapeB, transformB);
                var directionA = Vector2.UnitX;
                var directionB = Vector2.UnitY;
                var simplexA = new Simplex(minkowskiDifference, directionA, directionB);
                var simplexB = new Simplex(minkowskiDifference, directionB, directionA);
                (simplexA == simplexB).Should().BeTrue();
                var simplexC = new Simplex2D(Vector2.One, Vector2.Zero);
                var simplexD = new Simplex2D(Vector2.Zero, Vector2.One);
                (simplexC == simplexD).Should().BeTrue();
            }
            [Test]
-            public void SimplexMinkowskiNotEqual()
+            public void OneSimplexNotEquals()
            {
-                var shapeA = new Circle(3);
+                var simplexA = new Simplex2D(Vector2.One, Vector2.Zero);
-                var transformA = new Transform2D(new Position2D(1, 2));
+                var simplexB = new Simplex2D(Vector2.One, Vector2.UnitX);
                var shapeB = new Circle(2);
                var transformB = new Transform2D(new Position2D(4, 5));
                var minkowskiDifferenceA = new MinkowskiDifference(shapeA, transformA, shapeB, transformB);
                var minkowskiDifferenceB = new MinkowskiDifference(shapeB, transformB, shapeA, transformA);
                var directionA = Vector2.UnitX;
                var directionB = Vector2.UnitY;
                var simplexA = new Simplex(minkowskiDifferenceA, directionA, directionB);
                var simplexB = new Simplex(minkowskiDifferenceB, directionA, directionB);
                simplexA.Equals(simplexB).Should().BeFalse();
                var simplexC = new Simplex2D(Vector2.One, Vector2.Zero);
                var simplexD = new Simplex2D(Vector2.Zero, Vector2.UnitX);
                simplexC.Equals(simplexD).Should().BeFalse();
                var simplexE = new Simplex2D(Vector2.Zero);
                simplexA.Equals(simplexE).Should().BeFalse();
            }
            [Test]
-            public void SimplexMinkowskiNotEqualOperator()
+            public void OneSimplexNotEqualsOperator()
            {
-                var shapeA = new Circle(3);
+                var simplexA = new Simplex2D(Vector2.One, Vector2.Zero);
-                var transformA = new Transform2D(new Position2D(1, 2));
+                var simplexB = new Simplex2D(Vector2.One, Vector2.UnitX);
-                var shapeB = new Circle(2);
+                (simplexA == simplexB).Should().BeFalse();
                var transformB = new Transform2D(new Position2D(4, 5));
-                var minkowskiDifferenceA = new MinkowskiDifference(shapeA, transformA, shapeB, transformB);
+                var simplexC = new Simplex2D(Vector2.One, Vector2.Zero);
-                var minkowskiDifferenceB = new MinkowskiDifference(shapeB, transformB, shapeA, transformA);
+                var simplexD = new Simplex2D(Vector2.Zero, Vector2.UnitX);
-                var directionA = Vector2.UnitX;
+                (simplexC == simplexD).Should().BeFalse();
                var directionB = Vector2.UnitY;
                var simplexA = new Simplex(minkowskiDifferenceA, directionA, directionB);
                var simplexB = new Simplex(minkowskiDifferenceB, directionA, directionB);
                (simplexA != simplexB).Should().BeTrue();
            }
            [Test]
-            public void SimplexDirectionsNotEqual()
+            public void TwoSimplexEquals()
            {
-                var shapeA = new Circle(3);
+                var simplexA = new Simplex2D(Vector2.One, Vector2.Zero, Vector2.UnitX);
-                var transformA = new Transform2D(new Position2D(1, 2));
+                var simplexB = new Simplex2D(Vector2.One, Vector2.Zero, Vector2.UnitX);
-                var shapeB = new Circle(2);
+                simplexA.Equals(simplexB).Should().BeTrue();
                var transformB = new Transform2D(new Position2D(4, 5));
-                var minkowskiDifference = new MinkowskiDifference(shapeA, transformA, shapeB, transformB);
+                var simplexC = new Simplex2D(Vector2.One, Vector2.Zero, Vector2.UnitX);
                var simplexD = new Simplex2D(Vector2.Zero, Vector2.One, Vector2.UnitX);
-                var directionA = Vector2.UnitX;
+                simplexC.Equals(simplexD).Should().BeTrue();
-                var directionB = Vector2.UnitY;
+            }
                var directionC = -Vector2.UnitX;
                var directionD = -Vector2.UnitY;
-                var simplexA = new Simplex(minkowskiDifference, directionA, directionB);
+            [Test]
-                var simplexB = new Simplex(minkowskiDifference, directionC, directionD);
+            public void TwoSimplexEqualsOperator()
            {
                var simplexA = new Simplex2D(Vector2.One, Vector2.Zero, Vector2.UnitX);
                var simplexB = new Simplex2D(Vector2.One, Vector2.Zero, Vector2.UnitX);
                (simplexA == simplexB).Should().BeTrue();
                var simplexC = new Simplex2D(Vector2.One, Vector2.Zero, Vector2.UnitX);
                var simplexD = new Simplex2D(Vector2.Zero, Vector2.One, Vector2.UnitX);
                (simplexC == simplexD).Should().BeTrue();
            }
            [Test]
            public void TwoSimplexNotEquals()
            {
                var simplexA = new Simplex2D(Vector2.One, Vector2.UnitY, Vector2.UnitX);
                var simplexB = new Simplex2D(Vector2.One, Vector2.Zero, Vector2.UnitX);
                simplexA.Equals(simplexB).Should().BeFalse();
                var simplexC = new Simplex2D(Vector2.One, Vector2.Zero, Vector2.UnitX);
                var simplexD = new Simplex2D(Vector2.Zero, Vector2.UnitY, Vector2.UnitX);
                simplexC.Equals(simplexD).Should().BeFalse();
                var simplexE = new Simplex2D(Vector2.Zero);
                simplexA.Equals(simplexE).Should().BeFalse();
            }
            [Test]
-            public void SimplexDirectionsNotEqualOperator()
+            public void TwoSimplexNotEqualsOperator()
            {
-                var shapeA = new Circle(3);
+                var simplexA = new Simplex2D(Vector2.One, Vector2.UnitY, Vector2.UnitX);
-                var transformA = new Transform2D(new Position2D(1, 2));
+                var simplexB = new Simplex2D(Vector2.One, Vector2.Zero, Vector2.UnitX);
-                var shapeB = new Circle(2);
+                (simplexA == simplexB).Should().BeFalse();
                var transformB = new Transform2D(new Position2D(4, 5));
-                var minkowskiDifference = new MinkowskiDifference(shapeA, transformA, shapeB, transformB);
+                var simplexC = new Simplex2D(Vector2.One, Vector2.Zero, Vector2.UnitX);
                var simplexD = new Simplex2D(Vector2.Zero, Vector2.UnitY, Vector2.UnitX);
-                var directionA = Vector2.UnitX;
+                (simplexC == simplexD).Should().BeFalse();
                var directionB = Vector2.UnitY;
                var directionC = -Vector2.UnitX;
                var directionD = -Vector2.UnitY;
                var simplexA = new Simplex(minkowskiDifference, directionA, directionB);
                var simplexB = new Simplex(minkowskiDifference, directionC, directionD);
                (simplexA != simplexB).Should().BeTrue();
            }
        }
    }
--- a/Test/GJK2DTest.cs
+++ b/Test/GJK2DTest.cs
@ -259,6 +259,18 @@ namespace Tests
            GJK2D.TestCollision(circle, circleTransform, square, squareTransform).Should().BeFalse();
        }
        [Test]
        public void RectanglesNotOverlapping()
        {
            var rectangleA = new MoonTools.Core.Bonk.Rectangle(-6, -6, 6, 6);
            var transformA = new Transform2D(new Position2D(39, 249));
            var rectangleB = new MoonTools.Core.Bonk.Rectangle(0, 0, 16, 16);
            var transformB = new Transform2D(new Position2D(16, 240));
            GJK2D.TestCollision(rectangleA, transformA, rectangleB, transformB).Should().BeFalse();
        }
        [Test]
        public void RotatedRectanglesOverlapping()
        {