size_t pontius_n = 40; size_t pontius_p = 3; double pontius_x[] = { 150000, 300000, 450000, 600000, 750000, 900000, 1050000, 1200000, 1350000, 1500000, 1650000, 1800000, 1950000, 2100000, 2250000, 2400000, 2550000, 2700000, 2850000, 3000000, 150000, 300000, 450000, 600000, 750000, 900000, 1050000, 1200000, 1350000, 1500000, 1650000, 1800000, 1950000, 2100000, 2250000, 2400000, 2550000, 2700000, 2850000, 3000000 }; double pontius_y[] = { .11019, .21956, .32949, .43899, .54803, .65694, .76562, .87487, .98292, 1.09146, 1.20001, 1.30822, 1.41599, 1.52399, 1.63194, 1.73947, 1.84646, 1.95392, 2.06128, 2.16844, .11052, .22018, .32939, .43886, .54798, .65739, .76596, .87474, .98300, 1.09150, 1.20004, 1.30818, 1.41613, 1.52408, 1.63159, 1.73965, 1.84696, 1.95445, 2.06177, 2.16829 }; void test_pontius () { size_t i, j; { gsl_multifit_linear_workspace * work = gsl_multifit_linear_alloc (pontius_n, pontius_p); gsl_matrix * X = gsl_matrix_alloc (pontius_n, pontius_p); gsl_vector_view y = gsl_vector_view_array (pontius_y, pontius_n); gsl_vector * c = gsl_vector_alloc (pontius_p); gsl_matrix * cov = gsl_matrix_alloc (pontius_p, pontius_p); gsl_vector_view diag; double chisq; double expected_c[3] = { 0.673565789473684E-03, 0.732059160401003E-06, -0.316081871345029E-14}; double expected_sd[3] = { 0.107938612033077E-03, 0.157817399981659E-09, 0.486652849992036E-16 }; double expected_chisq = 0.155761768796992E-05; for (i = 0 ; i < pontius_n; i++) { for (j = 0; j < pontius_p; j++) { gsl_matrix_set(X, i, j, pow(pontius_x[i], j)); } } gsl_multifit_linear (X, &y.vector, c, cov, &chisq, work); gsl_test_rel (gsl_vector_get(c,0), expected_c[0], 1e-10, "pontius gsl_fit_multilinear c0") ; gsl_test_rel (gsl_vector_get(c,1), expected_c[1], 1e-10, "pontius gsl_fit_multilinear c1") ; gsl_test_rel (gsl_vector_get(c,2), expected_c[2], 1e-10, "pontius gsl_fit_multilinear c2") ; diag = gsl_matrix_diagonal (cov); gsl_test_rel (gsl_vector_get(&diag.vector,0), pow(expected_sd[0],2.0), 1e-10, "pontius gsl_fit_multilinear cov00") ; gsl_test_rel (gsl_vector_get(&diag.vector,1), pow(expected_sd[1],2.0), 1e-10, "pontius gsl_fit_multilinear cov11") ; gsl_test_rel (gsl_vector_get(&diag.vector,2), pow(expected_sd[2],2.0), 1e-10, "pontius gsl_fit_multilinear cov22") ; gsl_test_rel (chisq, expected_chisq, 1e-10, "pontius gsl_fit_multilinear chisq") ; gsl_vector_free(c); gsl_matrix_free(cov); gsl_matrix_free(X); gsl_multifit_linear_free (work); } { gsl_multifit_linear_workspace * work = gsl_multifit_linear_alloc (pontius_n, pontius_p); gsl_matrix * X = gsl_matrix_alloc (pontius_n, pontius_p); gsl_vector_view y = gsl_vector_view_array (pontius_y, pontius_n); gsl_vector * w = gsl_vector_alloc (pontius_n); gsl_vector * c = gsl_vector_alloc (pontius_p); gsl_matrix * cov = gsl_matrix_alloc (pontius_p, pontius_p); double chisq; double expected_c[3] = { 0.673565789473684E-03, 0.732059160401003E-06, -0.316081871345029E-14}; double expected_chisq = 0.155761768796992E-05; double expected_cov[3][3] ={ {2.76754385964916e-01 , -3.59649122807024e-07, 9.74658869395731e-14}, {-3.59649122807024e-07, 5.91630591630603e-13, -1.77210703526497e-19}, {9.74658869395731e-14, -1.77210703526497e-19, 5.62573661988878e-26} }; for (i = 0 ; i < pontius_n; i++) { for (j = 0; j < pontius_p; j++) { gsl_matrix_set(X, i, j, pow(pontius_x[i], j)); } } gsl_vector_set_all (w, 1.0); gsl_multifit_wlinear (X, w, &y.vector, c, cov, &chisq, work); gsl_test_rel (gsl_vector_get(c,0), expected_c[0], 1e-10, "pontius gsl_fit_multilinear c0") ; gsl_test_rel (gsl_vector_get(c,1), expected_c[1], 1e-10, "pontius gsl_fit_multilinear c1") ; gsl_test_rel (gsl_vector_get(c,2), expected_c[2], 1e-10, "pontius gsl_fit_multilinear c2") ; for (i = 0; i < pontius_p; i++) { for (j = 0; j < pontius_p; j++) { gsl_test_rel (gsl_matrix_get(cov,i,j), expected_cov[i][j], 1e-10, "pontius gsl_fit_wmultilinear cov(%d,%d)", i, j) ; } } gsl_test_rel (chisq, expected_chisq, 1e-10, "pontius gsl_fit_multilinear chisq") ; gsl_vector_free(w); gsl_vector_free(c); gsl_matrix_free(cov); gsl_matrix_free(X); gsl_multifit_linear_free (work); } }