/* interpolation/linear.c * * Copyright (C) 1996, 1997, 1998, 1999, 2000 Gerard Jungman * * 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. */ /* Author: G. Jungman */ #include #include #include #include static int linear_init (void * vstate, const double x_array[], const double y_array[], size_t size) { return GSL_SUCCESS; } static int linear_eval (const void * vstate, const double x_array[], const double y_array[], size_t size, double x, gsl_interp_accel * a, double *y) { double x_lo, x_hi; double y_lo, y_hi; double dx; size_t index; if (a != 0) { index = gsl_interp_accel_find (a, x_array, size, x); } else { index = gsl_interp_bsearch (x_array, x, 0, size - 1); } /* evaluate */ x_lo = x_array[index]; x_hi = x_array[index + 1]; y_lo = y_array[index]; y_hi = y_array[index + 1]; dx = x_hi - x_lo; if (dx > 0.0) { *y = y_lo + (x - x_lo) / dx * (y_hi - y_lo); return GSL_SUCCESS; } else { *y = 0.0; return GSL_EINVAL; } } static int linear_eval_deriv (const void * vstate, const double x_array[], const double y_array[], size_t size, double x, gsl_interp_accel * a, double *dydx) { double x_lo, x_hi; double y_lo, y_hi; double dx; double dy; size_t index; if (a != 0) { index = gsl_interp_accel_find (a, x_array, size, x); } else { index = gsl_interp_bsearch (x_array, x, 0, size - 1); } /* evaluate */ x_lo = x_array[index]; x_hi = x_array[index + 1]; y_lo = y_array[index]; y_hi = y_array[index + 1]; dx = x_hi - x_lo; dy = y_hi - y_lo; if (dx > 0.0) { *dydx = dy / dx;; return GSL_SUCCESS; } else { *dydx = 0.0; return GSL_EINVAL; } } static int linear_eval_deriv2 (const void * vstate, const double x_array[], const double y_array[], size_t size, double x, gsl_interp_accel * a, double *y_pp) { *y_pp = 0.0; return GSL_SUCCESS; } static int linear_eval_integ (const void * vstate, const double x_array[], const double y_array[], size_t size, gsl_interp_accel * acc, double a, double b, double * result) { size_t i, index_a, index_b; if (acc != 0) { index_a = gsl_interp_accel_find (acc, x_array, size, a); index_b = gsl_interp_accel_find (acc, x_array, size, b); } else { index_a = gsl_interp_bsearch (x_array, a, 0, size - 1); index_b = gsl_interp_bsearch (x_array, b, 0, size - 1); } /* endpoints span more than one interval */ *result = 0.0; /* interior intervals */ for(i=index_a; i<=index_b; i++) { const double x_hi = x_array[i + 1]; const double x_lo = x_array[i]; const double y_lo = y_array[i]; const double y_hi = y_array[i + 1]; const double dx = x_hi - x_lo; if(dx != 0.0) { if (i == index_a || i == index_b) { double x1 = (i == index_a) ? a : x_lo; double x2 = (i == index_b) ? b : x_hi; const double D = (y_hi-y_lo)/dx; *result += (x2-x1) * (y_lo + 0.5*D*((x2-x_lo)+(x1-x_lo))); } else { *result += 0.5 * dx * (y_lo + y_hi); } } } return GSL_SUCCESS; } static const gsl_interp_type linear_type = { "linear", 2, NULL, /* alloc, not applicable */ &linear_init, &linear_eval, &linear_eval_deriv, &linear_eval_deriv2, &linear_eval_integ, NULL, /* free, not applicable */ }; const gsl_interp_type * gsl_interp_linear = &linear_type;