/* ode-initval2/cscal.c * * Copyright (C) 2002, 2007 Brian Gough * * This program 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 3 of the License, or (at * your option) any later version. * * This program 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 this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #include #include #include #include #include #include #include #include "control_utils.c" typedef struct { double eps_abs; double eps_rel; double a_y; double a_dydt; double *scale_abs; } sc_control_state_t; static void * sc_control_alloc (void) { sc_control_state_t *s = (sc_control_state_t *) malloc (sizeof (sc_control_state_t)); if (s == 0) { GSL_ERROR_NULL ("failed to allocate space for sc_control_state", GSL_ENOMEM); } return s; } static int sc_control_init (void *vstate, double eps_abs, double eps_rel, double a_y, double a_dydt) { sc_control_state_t *s = (sc_control_state_t *) vstate; if (eps_abs < 0) { GSL_ERROR ("eps_abs is negative", GSL_EINVAL); } else if (eps_rel < 0) { GSL_ERROR ("eps_rel is negative", GSL_EINVAL); } else if (a_y < 0) { GSL_ERROR ("a_y is negative", GSL_EINVAL); } else if (a_dydt < 0) { GSL_ERROR ("a_dydt is negative", GSL_EINVAL); } s->eps_rel = eps_rel; s->eps_abs = eps_abs; s->a_y = a_y; s->a_dydt = a_dydt; return GSL_SUCCESS; } static int sc_control_hadjust (void *vstate, size_t dim, unsigned int ord, const double y[], const double yerr[], const double yp[], double *h) { sc_control_state_t *state = (sc_control_state_t *) vstate; const double eps_abs = state->eps_abs; const double eps_rel = state->eps_rel; const double a_y = state->a_y; const double a_dydt = state->a_dydt; const double *scale_abs = state->scale_abs; const double S = 0.9; const double h_old = *h; double rmax = DBL_MIN; size_t i; for (i = 0; i < dim; i++) { const double D0 = eps_rel * (a_y * fabs (y[i]) + a_dydt * fabs (h_old * yp[i])) + eps_abs * scale_abs[i]; const double r = fabs (yerr[i]) / fabs (D0); rmax = GSL_MAX_DBL (r, rmax); } if (rmax > 1.1) { /* decrease step, no more than factor of 5, but a fraction S more than scaling suggests (for better accuracy) */ double r = S / pow (rmax, 1.0 / ord); if (r < 0.2) r = 0.2; *h = r * h_old; return GSL_ODEIV_HADJ_DEC; } else if (rmax < 0.5) { /* increase step, no more than factor of maxscale */ double r = S / pow (rmax, 1.0 / (ord + 1.0)); const double maxscale = 4.9; if (r > maxscale) r = maxscale; if (r < 1.0) /* don't allow any decrease caused by S<1 */ r = 1.0; *h = r * h_old; return GSL_ODEIV_HADJ_INC; } else { /* no change */ return GSL_ODEIV_HADJ_NIL; } } static int sc_control_errlevel (void *vstate, const double y, const double dydt, const double h, const size_t ind, double *errlev) { sc_control_state_t *state = (sc_control_state_t *) vstate; const double eps_abs = state->eps_abs; const double eps_rel = state->eps_rel; const double a_y = state->a_y; const double a_dydt = state->a_dydt; const double *scale_abs = state->scale_abs; *errlev = eps_rel * (a_y * fabs (y) + a_dydt * fabs (h * dydt)) + eps_abs * scale_abs[ind]; if (*errlev <= 0.0) { GSL_ERROR ("errlev <= zero", GSL_ESANITY); } return GSL_SUCCESS; } static void sc_control_free (void *vstate) { sc_control_state_t *state = (sc_control_state_t *) vstate; free (state->scale_abs); free (state); } static const gsl_odeiv2_control_type sc_control_type = { "scaled", /* name */ &sc_control_alloc, &sc_control_init, &sc_control_hadjust, &sc_control_errlevel, &control_set_driver_null, &sc_control_free }; const gsl_odeiv2_control_type *gsl_odeiv2_control_scaled = &sc_control_type; gsl_odeiv2_control * gsl_odeiv2_control_scaled_new (double eps_abs, double eps_rel, double a_y, double a_dydt, const double scale_abs[], size_t dim) { gsl_odeiv2_control *c = gsl_odeiv2_control_alloc (gsl_odeiv2_control_scaled); int status = gsl_odeiv2_control_init (c, eps_abs, eps_rel, a_y, a_dydt); if (status != GSL_SUCCESS) { gsl_odeiv2_control_free (c); GSL_ERROR_NULL ("error trying to initialize control", status); } { sc_control_state_t *s = (sc_control_state_t *) c->state; s->scale_abs = (double *) malloc (dim * sizeof (double)); if (s->scale_abs == 0) { free (s); GSL_ERROR_NULL ("failed to allocate space for scale_abs", GSL_ENOMEM); } memcpy (s->scale_abs, scale_abs, dim * sizeof (double)); } return c; }