Ejemplo n.º 1
0
        public static void TestCovarianceMatrix()
        {
            /*
             * Vector2[] v2s = new Vector2[]
             * {
             *  new Vector2(1,1),
             *  new Vector2(3,0),
             *  new Vector2(-1,-1),
             * };
             */

            //https://www.wikihow.com/Calculate-Covariance
            Vector2[] v2s = new Vector2[]
            {
                new Vector2(1, 8),
                new Vector2(3, 6),
                new Vector2(2, 9),
                new Vector2(5, 4),
                new Vector2(8, 3),
                new Vector2(7, 3),
                new Vector2(12, 2),
                new Vector2(2, 7),
                new Vector2(4, 7),
            };

            var m = LIR.CovarianceMatrix(v2s);

            Debug.Log($"{m.c0.x}, {m.c0.y}\n{m.c1.x}, {m.c1.y}");
        }
Ejemplo n.º 2
0
        // this test calculates the largest interior rectangle for a defined set of vertices
        // which form a simple polygon.

        public static void TestLargestInteriorRectangle()
        {
            Vector2[] vs = new Vector2[]
            {
                new Vector2(9, -7),
                new Vector2(12, -6),
                new Vector2(8, 3),
                new Vector2(10, 6),
                new Vector2(12, 7),
                new Vector2(1, 9),
                new Vector2(-8, 7),
                new Vector2(-6, 6),
                new Vector2(-4, 6),
                new Vector2(-6, 2),
                new Vector2(-6, 0),
                new Vector2(-7, -5),
                new Vector2(-2, -7),
                new Vector2(1, -3),
                new Vector2(5, -7),
                new Vector2(8, -4),
            };

            LIR.CalculateInteriorCells(vs, out var xs, out var ys, out int[,] cells);
            LIR.CalculateLargestInteriorRectangle(xs, ys, cells, out var best);

            Debug.Log($"{best.centre.F3()}, {best.size.F3()}, {best.axis_a.F3()}");
        }
Ejemplo n.º 3
0
        public static Vector2 TestPrimaryAxis(Vector2[] vs)
        {
            var ok = LIR.CalculatePrimaryAxis(vs, out Vector2 axis, out float eigenvalue);

            //Debug.Log($"{ok} {axis.x} {axis.y}");
            return(axis);
        }
Ejemplo n.º 4
0
        public static bool TestSmallestEnclosingRectangle(Vector2[] vs, out Bound2D bound)
        {
            var ok = LIR.CalculateSmallestEnclosingRectangle(vs, out bound);

            if (!ok)
            {
                Debug.LogWarning("failed smallest enclosing rectangle test.");
                return(false);
            }
            return(true);
        }
Ejemplo n.º 5
0
        public static void TestCalculateEigenVectors(float2x2 A)
        {
            var ok = LIR.CalculateEigenValues(A, out float v1, out float v2);

            if (!ok)
            {
                return;
            }

            var vec2a = LIR.CalculateEigenVector(A, v1);
            var vec2b = LIR.CalculateEigenVector(A, v2);

            Debug.Log($"{v1} : {vec2a.x} {vec2a.y}");
            Debug.Log($"{v2} : {vec2b.x} {vec2b.y}");
        }
Ejemplo n.º 6
0
        public static void TestCalculateEigenValues(float2x2 A)
        {
            var ok = LIR.CalculateEigenValues(A, out float v1, out float v2);

            Debug.Log($"{ok} {v1} {v2}");
        }
Ejemplo n.º 7
0
        public static bool TestConvexHull()
        {
            bool ok = false;

            Vector2[] hull_vs;
            Vector2[] vs = new Vector2[0];
            ok = LIR.CalculateConvexHull(vs, out hull_vs);
            if (ok || hull_vs.Length > 0)
            {
                Debug.LogWarning("convex hull should fail and have no verts.");
            }

            vs = new Vector2[] { new Vector2(1, 1) };
            LIR.CalculateConvexHull(vs, out hull_vs);
            if (ok || hull_vs.Length != 1)
            {
                Debug.LogWarning("convex hull should fail and have 1 vert.");
            }


            // all duplicate points.
            vs = new Vector2[] {
                new Vector2(1, 1),
                new Vector2(1, 1),
                new Vector2(1, 1),
                new Vector2(1, 1),
            };
            ok = LIR.CalculateConvexHull(vs, out hull_vs);
            if (ok || hull_vs.Length != 1)
            {
                Debug.LogWarning("convex hull should fail and have 1 vert.");
            }

            // two points.
            vs = new Vector2[]
            {
                new Vector2(-1, 0),
                new Vector2(1, 0),
            };
            ok = LIR.CalculateConvexHull(vs, out hull_vs);
            if (ok || hull_vs.Length != 2)
            {
                Debug.LogWarning("convex hull should fail and have 2 verts.");
            }


            // three points, colinear.
            vs = new Vector2[]
            {
                new Vector2(-1, 0),
                new Vector2(0.5f, 0),
                new Vector2(1, 0),
            };
            ok = LIR.CalculateConvexHull(vs, out hull_vs);
            if (ok || hull_vs.Length != 2)
            {
                Debug.LogWarning("convex hull should fail with 2 verts");
            }

            // six points, colinear and duplicates.
            vs = new Vector2[]
            {
                new Vector2(-1, 0),
                new Vector2(-1, 0),
                new Vector2(0.5f, 0),
                new Vector2(-0.5f, 0),
                new Vector2(1, 0),
                new Vector2(1, 0),
            };
            ok = LIR.CalculateConvexHull(vs, out hull_vs);
            if (ok || hull_vs.Length != 2)
            {
                Debug.LogWarning("convex hull should fail with 2 verts");
            }


            // six points, colinear
            vs = new Vector2[]
            {
                new Vector2(-1, 0),
                new Vector2(-0.6f, 0),
                new Vector2(0.3f, 0),
                new Vector2(-0.8f, 0),
                new Vector2(1.2f, 0),
                new Vector2(1.9f, 0),
            };
            ok = LIR.CalculateConvexHull(vs, out hull_vs);
            if (ok || hull_vs.Length != 2)
            {
                Debug.LogWarning("convex hull should fail with 2 verts");
            }



            // three points, valid.
            vs = new Vector2[]
            {
                new Vector2(-1, -1),
                new Vector2(1, -1),
                new Vector2(0, 1),
            };
            ok = LIR.CalculateConvexHull(vs, out hull_vs);
            if (!ok || hull_vs.Length != 3)
            {
                Debug.LogWarning("convex hull should pass with 3 verts");
            }

            //Debug.Log("tests complete.");

            return(true);
        }