Exemplo n.º 1
0
        public static int side(Vector2f lineA, Vector2f lineB, Vector2f point)
        {
            Vector2f diff = lineB - lineA;
            Vector2f perp = new Vector2f(-diff.Y, diff.X);
            float    d    = AppMath.Vec2Dot(point - lineA, perp);

            return(Math.Sign(d));
        }
Exemplo n.º 2
0
        private static bool IntervalIntersect(Vector2f[] A, int Anum,
                                              Vector2f[] B, int Bnum,
                                              Vector2f xAxis,
                                              Vector2f xOffset, Vector2f xVel,
                                              ref float taxis, float tmax)
        {
            float min0, max0;
            float min1, max1;

            GetInterval(A, Anum, xAxis, out min0, out max0);
            GetInterval(B, Bnum, xAxis, out min1, out max1);

            float h = AppMath.Vec2Dot(xOffset, xAxis);

            min0 += h;
            max0 += h;

            float d0 = min0 - max1; // if overlapped, do < 0
            float d1 = min1 - max0; // if overlapped, d1 > 0

            // separated, test dynamic intervals
            if (d0 > 0.0f || d1 > 0.0f)
            {
                float v = AppMath.Vec2Dot(xVel, xAxis);

                // small velocity, so only the overlap test will be relevant.
                if (Math.Abs(v) < 0.000001f) //0.0000001f
                {
                    return(false);
                }

                float t0 = -d0 / v; // time of impact to d0 reaches 0

                float t1 = d1 / v;  // time of impact to d0 reaches 1
                if (t0 > t1)
                {
                    float temp = t0;
                    t0 = t1;
                    t1 = temp;
                }

                taxis = (t0 > 0.0f) ? t0 : t1;

                if (taxis < 0.0f || taxis > tmax)
                {
                    return(false);
                }

                return(true);
            }
            else
            {
                // overlap. get the interval, as a the smallest of |d0| and |d1|
                // return negative number to mark it as an overlap
                taxis = (d0 > d1) ? d0 : d1;
                return(true);
            }
        }
Exemplo n.º 3
0
        public static Vector2f processWorldObjCollision(Vector2f velocity, Vector2f N)
        {
            Vector2f D = velocity;

            float n = AppMath.Vec2Dot(D, N);

            Vector2f Dn = N * n;
            Vector2f Dt = D - Dn;

            if (n > 0.0f)
            {
                Dn = new Vector2f(0, 0);
            }

            float dt  = AppMath.Vec2Dot(Dt, Dt);
            float CoF = Constants.FRICTION;

            if (dt < Constants.GLUE * Constants.GLUE)
            {
                CoF = 1.01f;
            }

            //D = -(1.0f + s_fRestitution) * Dn - (CoF) * Dt;

            D.X = -(1.0f + Constants.RESTITUTION) * Dn.X - (CoF) * Dt.X;
            D.Y = -(1.0f + Constants.RESTITUTION) * Dn.Y - (CoF) * Dt.Y;

            float m0 = 1.0f;
            float m1 = 1.0f;
            float m  = m0 + m1;
            float r0 = m0 / m; //m
            float r1 = m1 / m; //m

            //if (m0 > 0.0f)
            {
                velocity.X += D.X * r0;
                velocity.Y += D.Y * r0;
            }

            return(velocity);

            /*
             * if (m1 > 0.0f)
             * {
             *  objB->Velocity.x += D.x * -r1;
             *  objB->Velocity.y += D.y * -r1;
             * }
             */
        }
Exemplo n.º 4
0
        // calculate the projection range of a polygon along an axis
        private static void GetInterval(Vector2f[] axVertices, int iNumVertices, Vector2f xAxis, out float min, out float max)
        {
            min = max = AppMath.Vec2Dot(axVertices[0], xAxis);

            for (int i = 1; i < iNumVertices; i++)
            {
                float d = AppMath.Vec2Dot(axVertices[i], xAxis);
                if (d < min)
                {
                    min = d;
                }
                else if (d > max)
                {
                    max = d;
                }
            }
        }
Exemplo n.º 5
0
        // two objects overlapped. push them away from each other
        private static void ProcessCollision(cGameObject objA, cGameObject objB, Vector2f N, float t)
        {
            //Vector2f D = m_xDisplacement - xBody.m_xDisplacement;
            Vector2f D = objA.Velocity - objB.Velocity;

            float n = AppMath.Vec2Dot(D, N);

            Vector2f Dn = N * n;
            Vector2f Dt = D - Dn;

            if (n > 0.0f)
            {
                Dn = new Vector2f(0, 0);
            }

            float dt  = AppMath.Vec2Dot(Dt, Dt);
            float CoF = Constants.FRICTION;

            if (dt < Constants.GLUE * Constants.GLUE)
            {
                CoF = 1.01f;
            }

            //D = -(1.0f + Constants.RESTITUTION) * Dn - (CoF) * Dt;
            D.X = -(1.0f + Constants.RESTITUTION) * Dn.X - (CoF) * Dt.X;
            D.Y = -(1.0f + Constants.RESTITUTION) * Dn.Y - (CoF) * Dt.Y;


            float m0 = objA.Mass;
            float m1 = objB.Mass;
            float m  = m0 + m1;
            float r0 = m0 / m; //m
            float r1 = m1 / m; //m

            if (m0 > 0.0f)
            {
                objA.AddVelocity(D * r0);

                /*
                 * Vector2f velA = objA.Velocity + D * r0;
                 * objA.Velocity = velA;
                 */
                /*
                 * objA.Velocity.X += D.X * r0;
                 * objA.Velocity.Y += D.Y * r0;
                 */
            }

            if (m1 > 0.0f)
            {
                objB.AddVelocity(D * (-r1));

                /*
                 * Vector2f velB = objB.Velocity + D * -r1;
                 * objB.Velocity = velB;
                 */
                /*
                 * objB.Velocity.X += D.X * -r1;
                 * objB.Velocity.Y += D.Y * -r1;
                 */
            }
        }
Exemplo n.º 6
0
        private static bool Collide(Vector2f[] A, int Anum,
                                    Vector2f[] B, int Bnum,
                                    Vector2f xOffset,
                                    Vector2f xVel,
                                    ref Vector2f N,
                                    ref float t)
        {
            if (A == null || B == null)
            {
                return(false);
            }

            // All the separation axes
            const int _max = 64;                      //64

            Vector2f[] xAxis    = new Vector2f[_max]; // note : a maximum of (if 64 - 32) 4 vertices per poly is supported
            float[]    taxis    = new float[_max];
            int        iNumAxes = 0;

            xAxis[iNumAxes] = new Vector2f(-xVel.Y, xVel.X);

            float fVel2 = AppMath.Vec2Dot(xVel, xVel);

            if (fVel2 > 0.000001f)
            {
                if (!IntervalIntersect(A, Anum,
                                       B, Bnum,
                                       xAxis[iNumAxes],
                                       xOffset, xVel,
                                       ref taxis[iNumAxes], t))
                {
                    return(false);
                }
                iNumAxes++;
            }

            // test separation axes of A
            for (int j = Anum - 1, i = 0; i < Anum; j = i, i++)
            {
                Vector2f E0 = A[j];
                Vector2f E1 = A[i];
                Vector2f E  = E1 - E0;
                xAxis[iNumAxes] = new Vector2f(-E.Y, E.X);

                if (!IntervalIntersect(A, Anum,
                                       B, Bnum,
                                       xAxis[iNumAxes],
                                       xOffset, xVel,
                                       ref taxis[iNumAxes], t))
                {
                    return(false);
                }

                iNumAxes++;
            }

            // test separation axes of B
            for (int j = Bnum - 1, i = 0; i < Bnum; j = i, i++)
            {
                Vector2f E0 = B[j];
                Vector2f E1 = B[i];
                Vector2f E  = E1 - E0;
                xAxis[iNumAxes] = new Vector2f(-E.Y, E.X);

                if (!IntervalIntersect(A, Anum,
                                       B, Bnum,
                                       xAxis[iNumAxes],
                                       xOffset, xVel,
                                       ref taxis[iNumAxes], t))
                {
                    return(false);
                }

                iNumAxes++;
            }

            // special case for segments
            if (Bnum == 2)
            {
                Vector2f E = B[1] - B[0];
                xAxis[iNumAxes] = E;

                if (!IntervalIntersect(A, Anum,
                                       B, Bnum,
                                       xAxis[iNumAxes],
                                       xOffset, xVel,
                                       ref taxis[iNumAxes], t))
                {
                    return(false);
                }

                iNumAxes++;
            }

            // special case for segments
            if (Anum == 2)
            {
                Vector2f E = A[1] - A[0];
                xAxis[iNumAxes] = E;

                if (!IntervalIntersect(A, Anum,
                                       B, Bnum,
                                       xAxis[iNumAxes],
                                       xOffset, xVel,
                                       ref taxis[iNumAxes], t))
                {
                    return(false);
                }

                iNumAxes++;
            }

            if (!FindMTD(xAxis, taxis, iNumAxes, ref N, ref t))
            {
                return(false);
            }

            // make sure the polygons gets pushed away from each other.
            if (AppMath.Vec2Dot(N, xOffset) < 0.0f)
            {
                N = -N;
            }


            return(true);
        }