/* roots/test_funcs.c * * Copyright (C) 1996, 1997, 1998, 1999, 2000 Reid Priedhorsky, 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 2 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 "test.h" gsl_function create_function (double (*f)(double, void *)) { gsl_function F ; F.function = f; F.params = 0; return F ; } gsl_function_fdf create_fdf (double (*f)(double, void *), double (*df)(double, void *), void (*fdf)(double, void *, double *, double *)) { gsl_function_fdf FDF ; FDF.f = f ; FDF.df = df ; FDF.fdf = fdf ; FDF.params = 0 ; return FDF ; } /* f(x) = x^{20} - 1 */ /* f'(x) = 20x^{19} */ /* zero at x = 1 or -1 */ double func1 (double x, void *p) { return pow (x, 20.0) - 1; } double func1_df (double x, void * p) { return 20.0 * pow (x, 19.0); } void func1_fdf (double x, void * p, double *y, double *yprime) { *y = func1 (x, p); *yprime = 20.0 * pow (x, 19.0); } /* f(x) = sqrt(abs(x))*sgn(x) */ /* f'(x) = 1 / sqrt(abs(x) */ /* zero at x = 0 */ double func2 (double x, void * p) { double delta; if (x > 0) delta = 1.0; else if (x < 0) delta = -1.0; else delta = 0.0; return sqrt (fabs (x)) * delta; } double func2_df (double x, void * p) { return 1 / sqrt (fabs (x)); } void func2_fdf (double x, void * p, double *y, double *yprime) { *y = func2 (x, p); *yprime = 1 / sqrt (fabs (x)); } /* f(x) = x^2 - 1e-8 */ /* f'(x) = 2x */ /* zero at x = sqrt(1e-8) or -sqrt(1e-8) */ double func3 (double x, void * p) { return pow (x, 2.0) - 1e-8; } double func3_df (double x, void * p) { return 2 * x; } void func3_fdf (double x, void * p, double *y, double *yprime) { *y = func3 (x, p); *yprime = 2 * x; } /* f(x) = x exp(-x) */ /* f'(x) = exp(-x) - x exp(-x) */ /* zero at x = 0 */ double func4 (double x, void * p) { return x * exp (-x); } double func4_df (double x, void * p) { return exp (-x) - x * exp (-x); } void func4_fdf (double x, void * p, double *y, double *yprime) { *y = func4 (x, p); *yprime = exp (-x) - x * exp (-x); } /* f(x) = 1/(1+exp(x)) */ /* f'(x) = -exp(x) / (1 + exp(x))^2 */ /* no roots! */ double func5 (double x, void * p) { return 1 / (1 + exp (x)); } double func5_df (double x, void * p) { return -exp (x) / pow (1 + exp (x), 2.0); } void func5_fdf (double x, void * p, double *y, double *yprime) { *y = func5 (x, p); *yprime = -exp (x) / pow (1 + exp (x), 2.0); } /* f(x) = (x - 1)^7 */ /* f'(x) = 7 * (x - 1)^6 */ /* zero at x = 1 */ double func6 (double x, void * p) { return pow (x - 1, 7.0); } double func6_df (double x, void * p) { return 7.0 * pow (x - 1, 6.0); } void func6_fdf (double x, void * p, double *y, double *yprime) { *y = func6 (x, p); *yprime = 7.0 * pow (x - 1, 6.0); } /* sin(x) packaged up nicely. */ double sin_f (double x, void * p) { return sin (x); } double sin_df (double x, void * p) { return cos (x); } void sin_fdf (double x, void * p, double *y, double *yprime) { *y = sin (x); *yprime = cos (x); } /* cos(x) packaged up nicely. */ double cos_f (double x, void * p) { return cos (x); } double cos_df (double x, void * p) { return -sin (x); } void cos_fdf (double x, void * p, double *y, double *yprime) { *y = cos (x); *yprime = -sin (x); }