#include <octave/oct.h> #include <octave/xdiv.h> #ifdef OCTAVE_DEV #define VECTOR_VALUE column_vector_value #else // !OCTAVE_DEV #define VECTOR_VALUE vector_value #endif // OCTAVE_DEV #ifdef STANDALONE ColumnVector Fmtt_implicit ( ColumnVector &x, ColumnVector &dx, Matrix &AA, ColumnVector &AAx, const double &t, const int &Nx, const ColumnVector &openx) { #else // !STANDALONE DEFUN_DLD (mtt_implicit, args, , "implicit integration method") { ColumnVector x = args(0).VECTOR_VALUE (); ColumnVector dx = args(1).VECTOR_VALUE (); Matrix AA = args(2).matrix_value (); ColumnVector AAx = args(3).VECTOR_VALUE (); const double t = args(4).double_value (); const int Nx = (int) (args(5).double_value ()); const ColumnVector openx = args(6).VECTOR_VALUE (); #endif // STANDALONE register int row, col; for (row = 0; row < Nx; row++) { if (openx (row) > 0.5) { AAx (row) = 0.0; dx (row) = 0.0; for (col = 0; col < Nx; col++) { AA (row,col) = 0.0; AA (col,row) = 0.0; } } } #ifdef OCTAVE_DEV x = static_cast<ColumnVector> (xleftdiv (AA, static_cast<Matrix>(AAx + dx * t))); #else // !OCTAVE_DEV Matrix tmp = xleftdiv (AA, static_cast<Matrix>(static_cast<ColumnVector>(AAx + dx * t))); for (row = 0; row < Nx; row++) { x (row) = tmp (row,0); } #endif // OCTAVE_DEV for (row = 0; row < Nx; row++) { if (openx (row) > 0.5) { x (row) = 0.0; } } #ifdef STANDALONE return x; #else // !STANDALONE return octave_value (x); #endif // STANDALONE }