Ejemplo n.º 1
0
 public static Mat4 FromPosOriScale(Vec3 pos, Mat3 ori, double scale)
 {
     return new Mat4
     {
         values = new double[]
         {
             ori[0] * scale, ori[3] * scale, ori[6] * scale, pos.x,
             ori[1] * scale, ori[4] * scale, ori[7] * scale, pos.y,
             ori[2] * scale, ori[5] * scale, ori[8] * scale, pos.z,
             0,      0,      0,      1
         }
     };
 }
Ejemplo n.º 2
0
 // Creates a rotation around a point
 // TODO: check whether this actually works or not !!!
 public static Mat4 RotationAroundPoint(Mat3 rot, Vec3 point)
 {
     Mat3 ident = Mat3.Identity;
     return Mat4.FromPositionAndOrientation((rot * point), ident) * Mat4.FromMat3(rot) * Mat4.FromPositionAndOrientation(-(point), ident);
 }
Ejemplo n.º 3
0
 // A 4x4 matrix representing an object at a specific position, with a specific orientation
 public static Mat4 FromPositionAndOrientation(Vec3 pos, Mat3 mat)
 {
     return new Mat4
     {
         values = new double[]
         {
             mat[0], mat[3], mat[6], pos.x,
             mat[1], mat[4], mat[7], pos.y,
             mat[2], mat[5], mat[8], pos.z,
             0,      0,      0,      1
         }
     };
 }
Ejemplo n.º 4
0
 // Generates a 4x4 matrix with no translation/perspective components, and with rotation/scaling/skew component taken from the specified 3x3 matrix
 public static Mat4 FromMat3(Mat3 mat)
 {
     return new Mat4
     {
         values = new double[]
         {
             mat[0], mat[1], mat[2], 0,
             mat[3], mat[4], mat[5], 0,
             mat[6], mat[7], mat[8], 0,
             0,      0,      0,      1
         }
     };
 }
Ejemplo n.º 5
0
        // Get an orthonormal matrix as close to the given matrix as possible
        public static Mat3 Normalize(Mat3 mat)
        {
            Vec3 a = new Vec3 { x = mat[0], y = mat[1], z = mat[2] };
            Vec3 b = new Vec3 { x = mat[3], y = mat[4], z = mat[5] };

            Vec3 c = Vec3.Cross(a, b);

            a = a * (1.0 / a.ComputeMagnitude());
            return new Mat3 { values = new double[] { a.x, a.y, a.z, b.x, b.y, b.z, c.x, c.y, c.z } };
        }
Ejemplo n.º 6
0
        // Does a proper inverse (as opposed to a transpose, which conveniently happens to be the same as inverse IF we're using an orthonormal matrix)
        public static Mat3 Invert(Mat3 matrix)
        {
            /*
            double det = matrix.Determinant, inv = 1.0 / det, ninv = -inv;
            double[] v = matrix.values;         // for convenience (maybe also faster?)
            return new Mat3
            {
                values = new double[]
                {
                    (v[4] * v[8] - v[5] * v[7]) * inv,
                    (v[3] * v[8] - v[5] * v[6]) * ninv,
                    (v[3] * v[7] - v[4] * v[6]) * inv,
                    (v[1] * v[8] - v[2] * v[7]) * ninv,
                    (v[0] * v[8] - v[2] * v[6]) * inv,
                    (v[0] * v[7] - v[1] * v[6]) * ninv,
                    (v[1] * v[5] - v[2] * v[4]) * inv,
                    (v[0] * v[5] - v[2] * v[3]) * ninv,
                    (v[0] * v[4] - v[1] * v[3]) * inv
                }
            };
             */

            double inv = 1.0 / matrix.Determinant;
            Vec3 x0 = new Vec3 { x = matrix[0], y = matrix[3], z = matrix[6] };
            Vec3 x1 = new Vec3 { x = matrix[1], y = matrix[4], z = matrix[7] };
            Vec3 x2 = new Vec3 { x = matrix[2], y = matrix[5], z = matrix[8] };
            Vec3 y0 = Vec3.Cross(x1, x2);
            Vec3 y1 = Vec3.Cross(x2, x0);
            Vec3 y2 = Vec3.Cross(x0, x1);
            return new Mat3
            {
                values = new double[]
                {
                    y0.x * inv, y0.y * inv, y0.z * inv,
                    y1.x * inv, y1.y * inv, y1.z * inv,
                    y2.x * inv, y2.y * inv, y2.z * inv
                }
            };
        }
Ejemplo n.º 7
0
        // Creates a rotation around a point
        // TODO: check whether this actually works or not !!!
        public static Mat4 RotationAroundPoint(Mat3 rot, Vec3 point)
        {
            Mat3 ident = Mat3.Identity;

            return(Mat4.FromPositionAndOrientation((rot * point), ident) * Mat4.FromMat3(rot) * Mat4.FromPositionAndOrientation(-(point), ident));
        }