Ejemplo n.º 1
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        public void TestLocalToWorld()
        {
            KVector2   point = new KVector2(-1, -6);
            KTransform tx    = new KTransform(KVector2.One, (System.Math.PI / 2), new KVector2(5));

            Assert.AreEqual(new KVector2(-29, 6), tx.TransformPointLW(point));
        }
Ejemplo n.º 2
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        public void TestPointScale()
        {
            KVector2   point = new KVector2(1, 0);
            KTransform tx    = new KTransform(KVector2.Zero, 0, new KVector2(5));

            Assert.AreEqual(new KVector2(5, 0), tx.TransformPointLW(point));
        }
Ejemplo n.º 3
0
        public void TestPointRotation()
        {
            KVector2   point = new KVector2(1, 0);
            KTransform tx    = new KTransform(KVector2.Zero, (float)(System.Math.PI / 2.0), new KVector2(1));

            Assert.AreEqual(new KVector2(0, 1), tx.TransformPointLW(point));
        }
Ejemplo n.º 4
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        public void TestPointTranslation()
        {
            KVector2   point = new KVector2(2, 3);
            KTransform tx    = new KTransform(new KVector2(-5, -2), 0, new KVector2(1));

            Assert.AreEqual(new KVector2(-3, 1), tx.TransformPointLW(point));
        }
Ejemplo n.º 5
0
        //FIXME: Bad CircleVsCircle test

        private static bool CircleVsCircle(ref Contact contact)
        {
            Circle a = (Circle)contact.FixtureA.Collider;
            Circle b = (Circle)contact.FixtureB.Collider;
            //In the local worl A is a unit circle and B is an ellipse

            KVector2 cB    = a.Transform.TransformPointWL(b.Transform.TransformPointLW(b.LPosition));
            KVector2 axisA = a.Transform.TransformDirWL(b.Transform.TransformDirLW(KVector2.XPos));
            KVector2 axisB = a.Transform.TransformDirWL(b.Transform.TransformDirLW(KVector2.YPos));

            KTransform kTransform = new KTransform(cB, a.Transform.Rotation + b.Transform.Rotation, KVector2.One);
            KVector2   P          = kTransform.TransformPointWL(a.LPosition);

            double t = Math.PI / 4f;

            KVector2 scale = new KVector2(axisA.Length(), axisB.Length());

            KVector2 potCp = new KVector2();

            for (int i = 0; i < 50; i++)
            {
                potCp = new KVector2(scale.X * Math.Cos(t), scale.Y * Math.Sin(t));

                double   ex = (scale.X * scale.X) - (scale.Y * scale.Y) * Math.Pow(Math.Cos(t), 3) / scale.X;
                double   ey = (scale.Y * scale.Y) - (scale.X * scale.X) * Math.Pow(Math.Sin(t), 3) / scale.Y;
                KVector2 e  = new KVector2(ex, ey);

                KVector2 r       = potCp - e;
                KVector2 q       = P - e;
                double   delta_c = r.Length() * Math.Asin((r.X * q.Y - r.Y * q.X) / (r.Length() * q.Length()));
                double   delta_t = delta_c / Math.Sqrt(scale.LengthSquared() - potCp.LengthSquared());

                t += delta_t;
                t += Math.Min(Math.PI / 2, Math.Max(0, t));
            }

            KVector2 wPos = a.Transform.TransformPointLW(kTransform.TransformPointLW(potCp));
            KVector2 cDir = P - potCp;
            KVector2 wDir = b.Transform.TransformDirLW(KVector2.Normalize(cDir) * (1 - cDir.Length()));

            if (wDir.Length() >= 1)
            {
                return(false);
            }

            ContactPoint cp = new ContactPoint
            {
                WPosition    = wPos,
                WPenetration = wDir.Length()
            };

            contact.Manifold.WNormal          = KVector2.Normalize(wDir);
            contact.Manifold.ContactPoints[0] = cp;
            contact.Manifold.Count            = 1;

            return(true);
        }