#include #include #ifdef OCTAVE_DEV #include #define VECTOR_VALUE column_vector_value #else // !OCTAVE_DEV #include #define VECTOR_VALUE vector_value #endif // OCTAVE_DEV #ifdef STANDALONE extern ColumnVector Fmtt_residual (const ColumnVector &X, const ColumnVector &DX, double t); #endif // STANDALONE ColumnVector mtt_residual (const ColumnVector &X, const ColumnVector &DX, double t) { #ifdef STANDALONE return Fmtt_residual (X, DX, t); #else // !STANDALONE static octave_value_list args, f; args(0) = octave_value (X); args(1) = octave_value (DX); args(2) = octave_value (t); f = feval ("mtt_residual", args, 1); return f(0).VECTOR_VALUE (); #endif // STANDALONE } #ifdef STANDALONE ColumnVector Fmtt_dassl ( ColumnVector &x, const ColumnVector &u, const double &t, const ColumnVector &par, const ColumnVector &dx, const double &ddt, const int Nx, const int Nyz, const ColumnVector &openx) { #else // !STANDALONE DEFUN_DLD (mtt_dassl, args, , "dassl integration method") { ColumnVector x = args(0).VECTOR_VALUE(); const ColumnVector u = args(1).VECTOR_VALUE(); const double t = args(2).double_value(); const ColumnVector par = args(3).VECTOR_VALUE(); const ColumnVector dx = args(4).VECTOR_VALUE(); const double ddt = args(5).double_value(); const int Nx = static_cast (args(6).double_value()); const int Nyz = static_cast (args(7).double_value()); const ColumnVector openx = args(8).VECTOR_VALUE(); #endif // STANDALONE static DAEFunc fdae(mtt_residual); static ColumnVector XX (Nx+Nyz); XX.insert (x,0); for (register int i = Nx; i < Nx+Nyz; i++) XX(i) = 0.0; double tout = t + ddt; DASSL fdassl (XX, t, fdae); x = fdassl.do_integrate (tout).extract (0,Nx-1); for (register int i = 0; i < Nx; i++) if (openx (i) > 0.5) x (i) = 0.0; #ifdef STANDALONE return x; #else return octave_value (x); #endif }