/* Copyright (C) 1996, 1997 John W. Eaton This file is part of Octave. Octave is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2, or (at your option) any later version. Octave is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with Octave; see the file COPYING. If not, write to the Free Software Foundation, 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #ifdef HAVE_CONFIG_H #include #endif #include #include #include "LSODE.h" #include "lo-mappers.h" #include "defun-dld.h" #include "error.h" #include "gripes.h" #include "oct-obj.h" #include "ov-fcn.h" #include "pager.h" #include "unwind-prot.h" #include "utils.h" #include "variables.h" // Global pointer for user defined function required by lsode. static octave_function *lsode_fcn; // Global pointer for optional user defined jacobian function used by lsode. static octave_function *lsode_jac; static LSODE_options lsode_opts; // Is this a recursive call? static int call_depth = 0; ColumnVector lsode_user_function (const ColumnVector& x, double t) { ColumnVector retval; int nstates = x.capacity (); octave_value_list args; args(1) = t; Matrix m (nstates, 1); for (int i = 0; i < nstates; i++) m (i, 0) = x (i); octave_value state (m); args(0) = state; if (lsode_fcn) { octave_value_list tmp = lsode_fcn->do_index_op (1, args); if (error_state) { gripe_user_supplied_eval ("lsode"); return retval; } if (tmp.length () > 0 && tmp(0).is_defined ()) { retval = tmp(0).vector_value (); if (error_state || retval.length () == 0) gripe_user_supplied_eval ("lsode"); } else gripe_user_supplied_eval ("lsode"); } return retval; } Matrix lsode_user_jacobian (const ColumnVector& x, double t) { Matrix retval; int nstates = x.capacity (); octave_value_list args; args(1) = t; Matrix m (nstates, 1); for (int i = 0; i < nstates; i++) m (i, 0) = x (i); octave_value state (m); args(0) = state; if (lsode_jac) { octave_value_list tmp = lsode_jac->do_index_op (1, args); if (error_state) { gripe_user_supplied_eval ("lsode"); return retval; } if (tmp.length () > 0 && tmp(0).is_defined ()) { retval = tmp(0).matrix_value (); if (error_state || retval.length () == 0) gripe_user_supplied_eval ("lsode"); } else gripe_user_supplied_eval ("lsode"); } return retval; } #define LSODE_ABORT() \ do \ { \ unwind_protect::run_frame ("Flsode"); \ return retval; \ } \ while (0) #define LSODE_ABORT1(msg) \ do \ { \ ::error ("lsode: " ## msg); \ LSODE_ABORT (); \ } \ while (0) #define LSODE_ABORT2(fmt, arg) \ do \ { \ ::error ("lsode: " ## fmt, arg); \ LSODE_ABORT (); \ } \ while (0) DEFUN_DLD (lsode, args, nargout, "lsode (F, X0, T_OUT, T_CRIT)\n\ \n\ The first argument is the name of the function to call to\n\ compute the vector of right hand sides. It must have the form\n\ \n\ xdot = f (x, t)\n\ \n\ where xdot and x are vectors and t is a scalar.\n") { octave_value_list retval; unwind_protect::begin_frame ("Flsode"); unwind_protect_int (call_depth); call_depth++; if (call_depth > 1) LSODE_ABORT1 ("invalid recursive call"); int nargin = args.length (); if (nargin > 2 && nargin < 5 && nargout < 2) { octave_value f_arg = args(0); switch (f_arg.rows ()) { case 1: lsode_fcn = extract_function (args(0), "lsode", "__lsode_fcn__", "function xdot = __lsode_fcn__ (x, t) xdot = ", "; endfunction"); break; case 2: { string_vector tmp = args(0).all_strings (); if (! error_state) { lsode_fcn = extract_function (tmp(0), "lsode", "__lsode_fcn__", "function xdot = __lsode_fcn__ (x, t) xdot = ", "; endfunction"); if (lsode_fcn) { lsode_jac = extract_function (tmp(1), "lsode", "__lsode_jac__", "function jac = __lsode_jac__ (x, t) jac = ", "; endfunction"); if (! lsode_jac) lsode_fcn = 0; } } } break; default: LSODE_ABORT1 ("first arg should be a string or 2-element string array"); } if (error_state || ! lsode_fcn) LSODE_ABORT (); ColumnVector state = args(1).vector_value (); if (error_state) LSODE_ABORT1 ("expecting state vector as second argument"); ColumnVector out_times = args(2).vector_value (); if (error_state) LSODE_ABORT1 ("expecting output time vector as third argument"); ColumnVector crit_times; int crit_times_set = 0; if (nargin > 3) { crit_times = args(3).vector_value (); if (error_state) LSODE_ABORT1 ("expecting critical time vector as fourth argument"); crit_times_set = 1; } double tzero = out_times (0); int nsteps = out_times.capacity (); ODEFunc func (lsode_user_function); if (lsode_jac) func.set_jacobian_function (lsode_user_jacobian); LSODE ode (state, tzero, func); ode.copy (lsode_opts); int nstates = state.capacity (); Matrix output (nsteps, nstates + 1); if (crit_times_set) output = ode.integrate (out_times, crit_times); else output = ode.integrate (out_times); if (! error_state) { retval.resize (1); retval(0) = output; } } else print_usage ("lsode"); unwind_protect::run_frame ("Flsode"); return retval; } typedef void (LSODE_options::*d_set_opt_mf) (double); typedef void (LSODE_options::*i_set_opt_mf) (int); typedef double (LSODE_options::*d_get_opt_mf) (void); typedef int (LSODE_options::*i_get_opt_mf) (void); #define MAX_TOKENS 3 struct LSODE_OPTIONS { const char *keyword; const char *kw_tok[MAX_TOKENS + 1]; int min_len[MAX_TOKENS + 1]; int min_toks_to_match; d_set_opt_mf d_set_fcn; i_set_opt_mf i_set_fcn; d_get_opt_mf d_get_fcn; i_get_opt_mf i_get_fcn; }; static LSODE_OPTIONS lsode_option_table [] = { { "absolute tolerance", { "absolute", "tolerance", 0, 0, }, { 1, 0, 0, 0, }, 1, &LSODE_options::set_absolute_tolerance, 0, &LSODE_options::absolute_tolerance, 0, }, { "initial step size", { "initial", "step", "size", 0, }, { 1, 0, 0, 0, }, 1, &LSODE_options::set_initial_step_size, 0, &LSODE_options::initial_step_size, 0, }, { "maximum step size", { "maximum", "step", "size", 0, }, { 2, 0, 0, 0, }, 1, &LSODE_options::set_maximum_step_size, 0, &LSODE_options::maximum_step_size, 0, }, { "minimum step size", { "minimum", "step", "size", 0, }, { 2, 0, 0, 0, }, 1, &LSODE_options::set_minimum_step_size, 0, &LSODE_options::minimum_step_size, 0, }, { "relative tolerance", { "relative", "tolerance", 0, 0, }, { 1, 0, 0, 0, }, 1, &LSODE_options::set_relative_tolerance, 0, &LSODE_options::relative_tolerance, 0, }, { "step limit", { "step", "limit", 0, 0, }, { 1, 0, 0, 0, }, 1, 0, &LSODE_options::set_step_limit, 0, &LSODE_options::step_limit, }, { 0, { 0, 0, 0, 0, }, { 0, 0, 0, 0, }, 0, 0, 0, 0, 0, }, }; static void print_lsode_option_list (ostream& os) { print_usage ("lsode_options", 1); os << "\n" << "Options for lsode include:\n\n" << " keyword value\n" << " ------- -----\n\n"; LSODE_OPTIONS *list = lsode_option_table; const char *keyword; while ((keyword = list->keyword) != 0) { os.form (" %-40s ", keyword); if (list->d_get_fcn) { double val = (lsode_opts.*list->d_get_fcn) (); if (val < 0.0) os << "computed automatically"; else os << val; } else { int val = (lsode_opts.*list->i_get_fcn) (); if (val < 0) os << "infinite"; else os << val; } os << "\n"; list++; } os << "\n"; } static void set_lsode_option (const string& keyword, double val) { LSODE_OPTIONS *list = lsode_option_table; while (list->keyword != 0) { if (keyword_almost_match (list->kw_tok, list->min_len, keyword, list->min_toks_to_match, MAX_TOKENS)) { if (list->d_set_fcn) (lsode_opts.*list->d_set_fcn) (val); else { if (xisnan (val)) { error ("lsode_options: %s: expecting integer, found NaN", keyword.c_str ()); } else (lsode_opts.*list->i_set_fcn) (NINT (val)); } return; } list++; } warning ("lsode_options: no match for `%s'", keyword.c_str ()); } static octave_value_list show_lsode_option (const string& keyword) { octave_value retval; LSODE_OPTIONS *list = lsode_option_table; while (list->keyword != 0) { if (keyword_almost_match (list->kw_tok, list->min_len, keyword, list->min_toks_to_match, MAX_TOKENS)) { if (list->d_get_fcn) { double val = (lsode_opts.*list->d_get_fcn) (); if (val < 0.0) retval = "computed automatically"; else retval = val; } else { int val = (lsode_opts.*list->i_get_fcn) (); if (val < 0) retval = "infinite"; else retval = static_cast (val); } return retval; } list++; } warning ("lsode_options: no match for `%s'", keyword.c_str ()); return retval; } DEFUN_DLD (lsode_options, args, , "lsode_options (KEYWORD, VALUE)\n\ \n\ Set or show options for lsode. Keywords may be abbreviated\n\ to the shortest match.") { octave_value_list retval; int nargin = args.length (); if (nargin == 0) { print_lsode_option_list (octave_stdout); return retval; } else if (nargin == 1 || nargin == 2) { string keyword = args(0).string_value (); if (! error_state) { if (nargin == 1) return show_lsode_option (keyword); else { double val = args(1).double_value (); if (! error_state) { set_lsode_option (keyword, val); return retval; } } } } print_usage ("lsode_options"); return retval; } INSTALL_DLD_FCNS (INSTALL_DLD_FCN (lsode); INSTALL_DLD_FCN (lsode_options);) /* ;;; Local Variables: *** ;;; mode: C++ *** ;;; End: *** */