public static Box3 GaussPointsFit3(IList <Vector3> points) { Box3 result = new Box3(Vector3ex.Zero, Vector3ex.UnitX, Vector3ex.UnitY, Vector3ex.UnitZ, Vector3ex.One); int count = points.Count; result.Center = points[0]; for (int i = 1; i < count; i++) { result.Center += points[i]; } float num = 1f / (float)count; result.Center *= num; float num2 = 0f; float num3 = 0f; float num4 = 0f; float num5 = 0f; float num6 = 0f; float num7 = 0f; for (int j = 0; j < count; j++) { Vector3 vector = points[j] - result.Center; num2 += vector.x * vector.x; num3 += vector.x * vector.y; num4 += vector.x * vector.z; num5 += vector.y * vector.y; num6 += vector.y * vector.z; num7 += vector.z * vector.z; } num2 *= num; num3 *= num; num4 *= num; num5 *= num; num6 *= num; num7 *= num; float[,] array = new float[3, 3]; array[0, 0] = num2; array[0, 1] = num3; array[0, 2] = num4; array[1, 0] = num3; array[1, 1] = num5; array[1, 2] = num6; array[2, 0] = num4; array[2, 1] = num6; array[2, 2] = num7; float[,] symmetricSquareMatrix = array; EigenData eigenData = EigenDecomposition.Solve(symmetricSquareMatrix, true); result.Extents.x = eigenData.GetEigenvalue(0); result.Axis0 = eigenData.GetEigenvector3(0); result.Extents.y = eigenData.GetEigenvalue(1); result.Axis1 = eigenData.GetEigenvector3(1); result.Extents.z = eigenData.GetEigenvalue(2); result.Axis2 = eigenData.GetEigenvector3(2); return(result); }
public static Line3 LeastsSquaresLineFit3(IList <Vector3> points) { Line3 result = default(Line3); int count = points.Count; result.Center = points[0]; for (int i = 1; i < count; i++) { result.Center += points[i]; } float num = 1f / (float)count; result.Center *= num; float num2 = 0f; float num3 = 0f; float num4 = 0f; float num5 = 0f; float num6 = 0f; float num7 = 0f; for (int i = 0; i < count; i++) { Vector3 vector = points[i] - result.Center; num2 += vector.x * vector.x; num3 += vector.x * vector.y; num4 += vector.x * vector.z; num5 += vector.y * vector.y; num6 += vector.y * vector.z; num7 += vector.z * vector.z; } num2 *= num; num3 *= num; num4 *= num; num5 *= num; num6 *= num; num7 *= num; float[,] array = new float[3, 3]; array[0, 0] = num5 + num7; array[0, 1] = -num3; array[0, 2] = -num4; array[1, 0] = array[0, 1]; array[1, 1] = num2 + num7; array[1, 2] = -num6; array[2, 0] = array[0, 2]; array[2, 1] = array[1, 2]; array[2, 2] = num2 + num5; EigenData eigenData = EigenDecomposition.Solve(array, false); result.Direction = eigenData.GetEigenvector3(2); return(result); }
public static Plane3 LeastSquaresPlaneFit3(IList <Vector3> points) { Vector3 vector = Vector3ex.Zero; int count = points.Count; for (int i = 0; i < count; i++) { vector += points[i]; } float num = 1f / (float)count; vector *= num; float num2 = 0f; float num3 = 0f; float num4 = 0f; float num5 = 0f; float num6 = 0f; float num7 = 0f; for (int i = 0; i < count; i++) { Vector3 vector2 = points[i] - vector; num2 += vector2.x * vector2.x; num3 += vector2.x * vector2.y; num4 += vector2.x * vector2.z; num5 += vector2.y * vector2.y; num6 += vector2.y * vector2.z; num7 += vector2.z * vector2.z; } num2 *= num; num3 *= num; num4 *= num; num5 *= num; num6 *= num; num7 *= num; float[,] array = new float[3, 3]; array[0, 0] = num2; array[0, 1] = num3; array[0, 2] = num4; array[1, 0] = num3; array[1, 1] = num5; array[1, 2] = num6; array[2, 0] = num4; array[2, 1] = num6; array[2, 2] = num7; EigenData eigenData = EigenDecomposition.Solve(array, false); Vector3 eigenvector = eigenData.GetEigenvector3(2); return(new Plane3(ref eigenvector, ref vector)); }
public static Box2 GaussPointsFit2(IList <Vector2> points) { Box2 result = new Box2(Vector2ex.Zero, Vector2ex.UnitX, Vector2ex.UnitY, Vector2ex.One); int count = points.Count; result.Center = points[0]; for (int i = 1; i < count; i++) { result.Center += points[i]; } float num = 1f / (float)count; result.Center *= num; float num2 = 0f; float num3 = 0f; float num4 = 0f; for (int j = 0; j < count; j++) { Vector2 vector = points[j] - result.Center; num2 += vector.x * vector.x; num3 += vector.x * vector.y; num4 += vector.y * vector.y; } num2 *= num; num3 *= num; num4 *= num; float[,] array = new float[2, 2]; array[0, 0] = num2; array[0, 1] = num3; array[1, 0] = num3; array[1, 1] = num4; float[,] symmetricSquareMatrix = array; EigenData eigenData = EigenDecomposition.Solve(symmetricSquareMatrix, true); result.Extents.x = eigenData.GetEigenvalue(0); result.Extents.y = eigenData.GetEigenvalue(1); result.Axis0 = eigenData.GetEigenvector2(0); result.Axis1 = eigenData.GetEigenvector2(1); return(result); }
public static Line2 LeastSquaresLineFit2(IList <Vector2> points) { Line2 result = default(Line2); int count = points.Count; result.Center = points[0]; for (int i = 1; i < count; i++) { result.Center += points[i]; } float num = 1f / (float)count; result.Center *= num; float num2 = 0f; float num3 = 0f; float num4 = 0f; for (int i = 0; i < count; i++) { Vector2 vector = points[i] - result.Center; num2 += vector.x * vector.x; num3 += vector.x * vector.y; num4 += vector.y * vector.y; } num2 *= num; num3 *= num; num4 *= num; float[,] array = new float[2, 2]; array[0, 0] = num4; array[0, 1] = -num3; array[1, 0] = num3; array[1, 1] = num2; float[,] symmetricSquareMatrix = array; EigenData eigenData = EigenDecomposition.Solve(symmetricSquareMatrix, false); result.Direction = eigenData.GetEigenvector2(1); return(result); }