#define kowalik_N 11 #define kowalik_P 4 static double kowalik_x0[kowalik_P] = { 0.25, 0.39, 0.415, 0.39 }; static double kowalik_epsrel = 1.0e-6; static double kowalik_Y[kowalik_N] = { 0.1957, 0.1947, 0.1735, 0.1600, 0.0844, 0.0627, 0.0456, 0.0342, 0.0323, 0.0235, 0.0246 }; static double kowalik_U[kowalik_N] = { 4.0000, 2.0000, 1.0000, 0.5000, 0.2500, 0.1670, 0.1250, 0.1000, 0.0833, 0.0714, 0.0625 }; static void kowalik_checksol(const double x[], const double sumsq, const double epsrel, const char *sname, const char *pname) { size_t i; gsl_vector_const_view v = gsl_vector_const_view_array(x, kowalik_P); const double norm = gsl_blas_dnrm2(&v.vector); const double sumsq_exact1 = 3.075056038492370e-04; double kowalik_x1[kowalik_P] = { 1.928069345723978e-01, 1.912823290344599e-01, 1.230565070690708e-01, 1.360623308065148e-01 }; const double sumsq_exact2 = 0.00102734304869549252; double kowalik_x2[kowalik_P] = { 0.0, /* inf */ -14.0758834005984603, 0.0, /* -inf */ 0.0 }; /* -inf */ const double *kowalik_x; double sumsq_exact; kowalik_x2[0] = GSL_NAN; kowalik_x2[2] = GSL_NAN; kowalik_x2[3] = GSL_NAN; if (norm < 10.0) { kowalik_x = kowalik_x1; sumsq_exact = sumsq_exact1; } else { kowalik_x = kowalik_x2; sumsq_exact = sumsq_exact2; } gsl_test_rel(sumsq, sumsq_exact, epsrel, "%s/%s sumsq", sname, pname); for (i = 0; i < kowalik_P; ++i) { if (!gsl_finite(kowalik_x[i])) continue; gsl_test_rel(x[i], kowalik_x[i], epsrel, "%s/%s i=%zu", sname, pname, i); } } static int kowalik_f (const gsl_vector * x, void *params, gsl_vector * f) { double x1 = gsl_vector_get(x, 0); double x2 = gsl_vector_get(x, 1); double x3 = gsl_vector_get(x, 2); double x4 = gsl_vector_get(x, 3); size_t i; for (i = 0; i < kowalik_N; ++i) { double yi = kowalik_Y[i]; double ui = kowalik_U[i]; double fi = yi - (x1*ui*(ui+x2)) / (x4 + ui*(ui + x3)); gsl_vector_set(f, i, fi); } (void)params; /* avoid unused parameter warning */ return GSL_SUCCESS; } static int kowalik_df (const gsl_vector * x, void *params, gsl_matrix * J) { double x1 = gsl_vector_get(x, 0); double x2 = gsl_vector_get(x, 1); double x3 = gsl_vector_get(x, 2); double x4 = gsl_vector_get(x, 3); size_t i; for (i = 0; i < kowalik_N; ++i) { double ui = kowalik_U[i]; double term1 = ui*(ui + x2); double term2 = ui*(ui + x3) + x4; gsl_matrix_set(J, i, 0, -term1 / term2); gsl_matrix_set(J, i, 1, -ui*x1/term2); gsl_matrix_set(J, i, 2, ui*term1*x1 / (term2*term2)); gsl_matrix_set(J, i, 3, term1*x1 / (term2*term2)); } (void)params; /* avoid unused parameter warning */ return GSL_SUCCESS; } static int kowalik_fvv (const gsl_vector * x, const gsl_vector * v, void *params, gsl_vector * fvv) { double x1 = gsl_vector_get(x, 0); double x2 = gsl_vector_get(x, 1); double x3 = gsl_vector_get(x, 2); double x4 = gsl_vector_get(x, 3); double v1 = gsl_vector_get(v, 0); double v2 = gsl_vector_get(v, 1); double v3 = gsl_vector_get(v, 2); double v4 = gsl_vector_get(v, 3); size_t i; for (i = 0; i < kowalik_N; ++i) { double ui = kowalik_U[i]; double term2 = ui*(ui + x3) + x4; double term3 = ui*ui*v1 - ui*v3*x1 - v4*x1 + ui*v1*x3 + v1*x4; double term4 = ui*ui*(v3-v2) + v4*x2 + ui*(v4 + v3*x2 - v2*x3) - v2*x4; gsl_vector_set(fvv, i, 2.0*ui*term3*term4 / pow(term2, 3.0)); } (void)params; /* avoid unused parameter warning */ return GSL_SUCCESS; } static gsl_multifit_nlinear_fdf kowalik_func = { kowalik_f, kowalik_df, kowalik_fvv, kowalik_N, kowalik_P, NULL, 0, 0, 0 }; static test_fdf_problem kowalik_problem = { "kowalik", kowalik_x0, NULL, NULL, &kowalik_epsrel, &kowalik_checksol, &kowalik_func };