size_t longley_n = 16; size_t longley_p = 7; double longley_x [] = { 1, 83.0, 234289, 2356, 1590, 107608, 1947, 1, 88.5, 259426, 2325, 1456, 108632, 1948, 1, 88.2, 258054, 3682, 1616, 109773, 1949, 1, 89.5, 284599, 3351, 1650, 110929, 1950, 1, 96.2, 328975, 2099, 3099, 112075, 1951, 1, 98.1, 346999, 1932, 3594, 113270, 1952, 1, 99.0, 365385, 1870, 3547, 115094, 1953, 1, 100.0, 363112, 3578, 3350, 116219, 1954, 1, 101.2, 397469, 2904, 3048, 117388, 1955, 1, 104.6, 419180, 2822, 2857, 118734, 1956, 1, 108.4, 442769, 2936, 2798, 120445, 1957, 1, 110.8, 444546, 4681, 2637, 121950, 1958, 1, 112.6, 482704, 3813, 2552, 123366, 1959, 1, 114.2, 502601, 3931, 2514, 125368, 1960, 1, 115.7, 518173, 4806, 2572, 127852, 1961, 1, 116.9, 554894, 4007, 2827, 130081, 1962 } ; double longley_y[] = {60323, 61122, 60171, 61187, 63221, 63639, 64989, 63761, 66019, 67857, 68169, 66513, 68655, 69564, 69331, 70551}; static int test_longley_results(const char *str, const gsl_vector *c, const gsl_vector *expected_c, const gsl_vector *cov_diag, const gsl_vector *expected_sd, const double chisq, const double chisq_res, const double expected_chisq) { size_t i; /* test coefficient vector */ for (i = 0; i < longley_p; ++i) { gsl_test_rel (gsl_vector_get(c,i), gsl_vector_get(expected_c, i), 1.0e-10, "%s c[%zu]", str, i) ; if (cov_diag && expected_sd) { gsl_test_rel (sqrt(gsl_vector_get(cov_diag, i)), gsl_vector_get(expected_sd, i), 1e-10, "%s cov[%zu,%zu]", str, i, i); } } gsl_test_rel (chisq, expected_chisq, 1.0e-10, "%s chisq", str); gsl_test_rel (chisq_res, expected_chisq, 1.0e-10, "%s chisq residuals", str); return GSL_SUCCESS; } void test_longley () { gsl_multifit_linear_workspace * work = gsl_multifit_linear_alloc (longley_n, longley_p); gsl_multifit_robust_workspace * work_rob = gsl_multifit_robust_alloc (gsl_multifit_robust_ols, longley_n, longley_p); gsl_matrix_view X = gsl_matrix_view_array (longley_x, longley_n, longley_p); gsl_vector_view y = gsl_vector_view_array (longley_y, longley_n); gsl_vector * c = gsl_vector_alloc (longley_p); gsl_vector * r = gsl_vector_alloc (longley_n); gsl_matrix * cov = gsl_matrix_alloc (longley_p, longley_p); double chisq, chisq_res; double expected_c[7] = { -3482258.63459582, 15.0618722713733, -0.358191792925910E-01, -2.02022980381683, -1.03322686717359, -0.511041056535807E-01, 1829.15146461355 }; double expected_sd[7] = { 890420.383607373, 84.9149257747669, 0.334910077722432E-01, 0.488399681651699, 0.214274163161675, 0.226073200069370, 455.478499142212 } ; double expected_chisq = 836424.055505915; gsl_vector_view diag = gsl_matrix_diagonal (cov); gsl_vector_view exp_c = gsl_vector_view_array(expected_c, longley_p); gsl_vector_view exp_sd = gsl_vector_view_array(expected_sd, longley_p); /* test unweighted least squares */ gsl_multifit_linear (&X.matrix, &y.vector, c, cov, &chisq, work); gsl_multifit_linear_residuals(&X.matrix, &y.vector, c, r); gsl_blas_ddot(r, r, &chisq_res); test_longley_results("longley gsl_multifit_linear", c, &exp_c.vector, &diag.vector, &exp_sd.vector, chisq, chisq_res, expected_chisq); /* test robust least squares */ gsl_multifit_robust (&X.matrix, &y.vector, c, cov, work_rob); test_longley_results("longley gsl_multifit_robust", c, &exp_c.vector, &diag.vector, &exp_sd.vector, 1.0, 1.0, 1.0); /* test weighted least squares */ { size_t i, j; gsl_vector * w = gsl_vector_alloc (longley_n); double expected_cov[7][7] = { { 8531122.56783558, -166.727799925578, 0.261873708176346, 3.91188317230983, 1.1285582054705, -0.889550869422687, -4362.58709870581}, {-166.727799925578, 0.0775861253030891, -1.98725210399982e-05, -0.000247667096727256, -6.82911920718824e-05, 0.000136160797527761, 0.0775255245956248}, {0.261873708176346, -1.98725210399982e-05, 1.20690316701888e-08, 1.66429546772984e-07, 3.61843600487847e-08, -6.78805814483582e-08, -0.00013158719037715}, {3.91188317230983, -0.000247667096727256, 1.66429546772984e-07, 2.56665052544717e-06, 6.96541409215597e-07, -9.00858307771567e-07, -0.00197260370663974}, {1.1285582054705, -6.82911920718824e-05, 3.61843600487847e-08, 6.96541409215597e-07, 4.94032602583969e-07, -9.8469143760973e-08, -0.000576921112208274}, {-0.889550869422687, 0.000136160797527761, -6.78805814483582e-08, -9.00858307771567e-07, -9.8469143760973e-08, 5.49938542664952e-07, 0.000430074434198215}, {-4362.58709870581, 0.0775255245956248, -0.00013158719037715, -0.00197260370663974, -0.000576921112208274, 0.000430074434198215, 2.23229587481535 }} ; gsl_vector_set_all (w, 1.0); gsl_multifit_wlinear (&X.matrix, w, &y.vector, c, cov, &chisq, work); gsl_multifit_linear_residuals(&X.matrix, &y.vector, c, r); gsl_blas_ddot(r, r, &chisq_res); test_longley_results("longley gsl_multifit_wlinear", c, &exp_c.vector, NULL, NULL, chisq, chisq_res, expected_chisq); for (i = 0; i < longley_p; i++) { for (j = 0; j < longley_p; j++) { gsl_test_rel (gsl_matrix_get(cov,i,j), expected_cov[i][j], 1e-7, "longley gsl_multifit_wlinear cov(%d,%d)", i, j) ; } } gsl_vector_free(w); } gsl_vector_free(c); gsl_vector_free(r); gsl_matrix_free(cov); gsl_multifit_linear_free (work); gsl_multifit_robust_free (work_rob); } /* test_longley() */