/* specfunc/test_legendre.c * * Copyright (C) 1996, 1997, 1998, 1999, 2000, 2001, 2002, 2004 Gerard Jungman * Copyright (C) 2013 Patrick Alken * * 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 "test_sf.h" static double test_legendre_dx(const size_t l) { const double dx_max = 0.4; double dx; if (l < 1000) dx = exp((double)l / 1000.0) / exp(2.0); else dx = dx_max; return dx; } /* test_legendre_dx() */ /* test_legendre_sum() This routine computes the sum: Sum_{m=0}^l [P(l,m)(x)]^2 This sum should equate to 1.0 for Schmidt semi-normalized ALFs for all l. */ static double test_legendre_sum(const size_t l, double *p) { double sum = 0.0; size_t idx; size_t m; for (m = 0; m <= l; ++m) { idx = gsl_sf_legendre_array_index(l, m); sum += p[idx] * p[idx]; } return sum; } /* test_legendre_sum() */ /* test_legendre_sum_deriv() This routine computes the sum: Sum_{m=0}^l P(l,m)(x) * dP(l,m)/dx which should equal 0 in the case of Schmidt normalized ALFs. */ static double test_legendre_sum_deriv(const int l, double *p, double *dp) { double sum = 0.0; size_t idx; int m; for (m = 0; m <= l; ++m) { idx = gsl_sf_legendre_array_index(l, m); sum += p[idx] * dp[idx]; } return sum; } /* test_legendre_sum_deriv() */ /* test_legendre_sum_deriv2() This routine computes the sum: Sum_{m=0}^l P(l,m)(x) * dP(l,m)/dx which should equal 0 in the case of Schmidt normalized ALFs. */ static double test_legendre_sum_deriv2(const int l, double *p, double *dp, double *d2p) { double sum = 0.0; int m; for (m = 0; m <= l; ++m) { size_t idx = gsl_sf_legendre_array_index(l, m); sum += dp[idx] * dp[idx] + p[idx] * d2p[idx]; } return sum; } /* test_legendre_sum_deriv2() */ static void test_value(const size_t lmax, const size_t l, const size_t m, const double *p, const double expected, const double tol, const char *desc, const char *desc2) { size_t idx = gsl_sf_legendre_array_index(l, m); double value; if (l > lmax) return; value = p[idx]; gsl_test_rel(value, expected, tol, "%s %s lmax=%zu l=%zu m=%zu", desc, desc2, lmax, l, m); } /* test_value() */ /* Y_{lm} = factor * S_{lm} */ static double test_factor_spharm(const size_t l, const size_t m) { double factor = sqrt( (2.0 * l + 1.0) / 4.0 / M_PI); if (m == 0) return factor; else return (factor / sqrt(2.0)); } /* test_factor_spharm() */ /* N_{lm} = factor * S_{lm} */ static double test_factor_full(const size_t l, const size_t m) { double factor = sqrt(l + 0.5); if (m == 0) return factor; else return (factor / sqrt(2.0)); } /* test_factor_full() */ /* test that p = factor * p_expected */ static int test_legendre_compare(const size_t lmax, const double *p_expected, const double *p, double (*factor)(const size_t l, const size_t m), const char *desc, const char *desc2) { size_t l, m; for (l = 0; l <= lmax; ++l) { for (m = 0; m <= l; ++m) { size_t idx = gsl_sf_legendre_array_index(l, m); double fac = (*factor)(l, m); if (fabs(p_expected[idx]) < GSL_DBL_MIN) continue; gsl_test_rel(p[idx] / fac, p_expected[idx], 1.0e-10, "%s %s l=%zu m=%zu", desc, desc2, l, m); } } return 0; } /* test_legendre_compare() */ static int test_legendre_schmidt(const size_t lmax, const double csphase, const char *desc) { int s = 0; const size_t nlm = gsl_sf_legendre_nlm(lmax); size_t l; double x, dx; double *p, *p2, *dp, *d2p, *p_alt, *dp_alt; size_t dim; size_t i; const gsl_sf_legendre_t norm = GSL_SF_LEGENDRE_SCHMIDT; dim = gsl_sf_legendre_array_n(lmax); p = malloc(sizeof(double) * dim); p2 = malloc(sizeof(double) * dim); dp = malloc(sizeof(double) * dim); d2p = malloc(sizeof(double) * dim); p_alt = malloc(sizeof(double) * dim); dp_alt = malloc(sizeof(double) * dim); /* test specific values */ x = 0.5; gsl_sf_legendre_array(norm, lmax, x, p); test_value(lmax, 0, 0, p, 1.000000000000000, 1.0e-10, desc, "x=0.5"); test_value(lmax, 1, 0, p, 0.500000000000000, 1.0e-10, desc, "x=0.5"); test_value(lmax, 1, 1, p, 0.866025403784439, 1.0e-10, desc, "x=0.5"); test_value(lmax, 2, 0, p, -0.125000000000000, 1.0e-10, desc, "x=0.5"); test_value(lmax, 2, 1, p, 0.750000000000000, 1.0e-10, desc, "x=0.5"); test_value(lmax, 2, 2, p, 0.649519052838329, 1.0e-10, desc, "x=0.5"); test_value(lmax, 3, 0, p, -0.437500000000000, 1.0e-10, desc, "x=0.5"); test_value(lmax, 3, 2, p, 0.726184377413891, 1.0e-10, desc, "x=0.5"); test_value(lmax, 3, 3, p, 0.513489897661093, 1.0e-10, desc, "x=0.5"); x = 0.1; gsl_sf_legendre_array(norm, lmax, x, p); test_value(lmax, 2700, 500, p, -7.421910573369699e-3, 1.0e-10, desc, "x=0.1"); test_value(lmax, 2700, 2500, p, 2.717612388452281e-2, 1.0e-10, desc, "x=0.1"); test_value(lmax, 2700, 2700, p, 1.887509917445211e-7, 1.0e-10, desc, "x=0.1"); x = 0.15; gsl_sf_legendre_deriv_array(norm, lmax, x, p, dp); test_value(lmax, 0, 0, dp, 0.000000000000000, 1.0e-10, desc, "deriv x=0.15"); test_value(lmax, 1, 0, dp, 1.000000000000000, 1.0e-10, desc, "deriv x=0.15"); test_value(lmax, 1, 1, dp, -0.151716521227252, 1.0e-10, desc, "deriv x=0.15"); test_value(lmax, 2, 1, dp, 1.67303727048739, 1.0e-10, desc, "deriv x=0.15"); x = 0.23; gsl_sf_legendre_deriv2_array(norm, lmax, x, p, dp, d2p); test_value(lmax, 0, 0, d2p, 0.000000000000000, 1.0e-10, desc, "deriv2 x=0.23"); test_value(lmax, 1, 0, d2p, 0.000000000000000, 1.0e-10, desc, "deriv2 x=0.23"); test_value(lmax, 1, 1, d2p, -1.08494130865644, 1.0e-10, desc, "deriv2 x=0.23"); test_value(lmax, 2, 0, d2p, 3.000000000000000, 1.0e-10, desc, "deriv2 x=0.23"); test_value(lmax, 2, 1, d2p, -1.25090188696335, 1.0e-10, desc, "deriv2 x=0.23"); /* test array routines */ dx = test_legendre_dx(lmax); for (x = -1.0; x <= 1.0; x += dx) { s += gsl_sf_legendre_array_e(norm, lmax, x, csphase, p); for (l = 0; l <= lmax; ++l) { double sum = test_legendre_sum(l, p); double rhs = 1.0; gsl_test_rel(sum, rhs, 1.0e-10, "%s l=%zu, x=%f, sum=%.12e", desc, l, x, sum); } } /* test deriv array routines */ for (x = -1.0 + dx; x < 1.0 - dx; x += dx) { double u = sqrt((1.0 - x) * (1.0 + x)); double uinv = 1.0 / u; s += gsl_sf_legendre_array(norm, lmax, x, p2); s += gsl_sf_legendre_deriv_array(norm, lmax, x, p, dp); s += gsl_sf_legendre_deriv_alt_array(norm, lmax, x, p_alt, dp_alt); for (i = 0; i < nlm; ++i) { if (fabs(p2[i]) < GSL_DBL_MIN) continue; /* check p = p_alt = p2 */ gsl_test_rel(p[i], p2[i], 1.0e-10, "%s deriv i=%zu", desc, i); gsl_test_rel(p_alt[i], p2[i], 1.0e-10, "%s deriv_alt i=%zu", desc, i); /* check dp = -1/u*dp_alt */ gsl_test_rel(-uinv * dp_alt[i], dp[i], 1.0e-10, "%s deriv_alt x=%f i=%zu", desc, x, i); } for (l = 0; l <= lmax; ++l) { double sum = test_legendre_sum_deriv(l, p, dp); gsl_test_abs(sum, 0.0, 1.0e-10, "%s deriv l=%zu, x=%f, sum=%.12e", desc, l, x, sum); } } /* test deriv2 array routines */ for (x = -1.0 + dx; x < 1.0 - dx; x += dx) { s += gsl_sf_legendre_array(norm, lmax, x, p2); s += gsl_sf_legendre_deriv2_array(norm, lmax, x, p, dp, d2p); /* check p = p2 */ for (i = 0; i < nlm; ++i) { if (fabs(p2[i]) < 1.0e3 * GSL_DBL_EPSILON) gsl_test_abs(p[i], p2[i], 1.0e-10, "%s deriv2 i=%zu", desc, i); else gsl_test_rel(p[i], p2[i], 1.0e-10, "%s deriv2 i=%zu", desc, i); } for (l = 0; l <= lmax; ++l) { double sum = test_legendre_sum_deriv(l, p, dp); double sum2 = test_legendre_sum_deriv2(l, p, dp, d2p); gsl_test_abs(sum, 0.0, 1.0e-10, "%s deriv2 l=%zu, x=%f, sum=%.12e", desc, l, x, sum); gsl_test_abs(sum2, 0.0, 1.0e-6, "%s deriv2 l=%zu, x=%f, sum=%.12e", desc, l, x, sum2); } } free(p); free(p2); free(dp); free(d2p); free(p_alt); free(dp_alt); return s; } /* test_legendre_schmidt() */ /* test other normalizations (other than schmidt) */ static int test_legendre_norm(const gsl_sf_legendre_t norm_type, const size_t lmax, const double csphase, const char *desc) { int s = 0; double x, dx; double *p_schmidt, *dp_schmidt, *d2p_schmidt; double *p, *dp, *d2p; size_t dim; double (*factor)(const size_t l, const size_t m) = NULL; dim = gsl_sf_legendre_array_n(lmax); p = malloc(sizeof(double) * dim); dp = malloc(sizeof(double) * dim); d2p = malloc(sizeof(double) * dim); p_schmidt = malloc(sizeof(double) * dim); dp_schmidt = malloc(sizeof(double) * dim); d2p_schmidt = malloc(sizeof(double) * dim); if (norm_type == GSL_SF_LEGENDRE_SPHARM) { factor = &test_factor_spharm; } else if (norm_type == GSL_SF_LEGENDRE_FULL) { factor = &test_factor_full; /* test specific values (computed from GNU octave) */ x = 0.45; s += gsl_sf_legendre_array(norm_type, lmax, x, p); test_value(lmax, 0, 0, p, 0.707106781186548, 1.0e-10, desc, "x=0.45"); test_value(lmax, 1, 0, p, 0.551135192126215, 1.0e-10, desc, "x=0.45"); test_value(lmax, 1, 1, p, 0.773385414912901, 1.0e-10, desc, "x=0.45"); test_value(lmax, 2, 0, p, -0.310298495404022, 1.0e-10, desc, "x=0.45"); test_value(lmax, 2, 1, p, 0.778204062248457, 1.0e-10, desc, "x=0.45"); test_value(lmax, 2, 2, p, 0.772176054650104, 1.0e-10, desc, "x=0.45"); test_value(lmax, 3, 0, p, -0.83661120632398589, 1.0e-10, desc, "x=0.45"); test_value(lmax, 3, 1, p, 0.00904294765791280, 1.0e-10, desc, "x=0.45"); test_value(lmax, 3, 2, p, 0.91934361403343767, 1.0e-10, desc, "x=0.45"); test_value(lmax, 3, 3, p, 0.74482641545541073, 1.0e-10, desc, "x=0.45"); } /* * test the scale factors between the Schmidts and these * normalized functions */ dx = test_legendre_dx(lmax); for (x = -1.0; x <= 1.0; x += dx) { s += gsl_sf_legendre_array_e(GSL_SF_LEGENDRE_SCHMIDT, lmax, x, csphase, p_schmidt); s += gsl_sf_legendre_array_e(norm_type, lmax, x, csphase, p); test_legendre_compare(lmax, p_schmidt, p, factor, desc, "p"); } /* test derivatives */ for (x = -1.0 + dx; x < 1.0 - dx; x += dx) { s += gsl_sf_legendre_deriv_array_e(GSL_SF_LEGENDRE_SCHMIDT, lmax, x, csphase, p_schmidt, dp_schmidt); s += gsl_sf_legendre_deriv_array_e(norm_type, lmax, x, csphase, p, dp); test_legendre_compare(lmax, p_schmidt, p, factor, desc, "deriv p"); test_legendre_compare(lmax, dp_schmidt, dp, factor, desc, "deriv dp"); s += gsl_sf_legendre_deriv2_array_e(GSL_SF_LEGENDRE_SCHMIDT, lmax, x, csphase, p_schmidt, dp_schmidt, d2p_schmidt); s += gsl_sf_legendre_deriv2_array_e(norm_type, lmax, x, csphase, p, dp, d2p); test_legendre_compare(lmax, p_schmidt, p, factor, desc, "deriv2 p"); test_legendre_compare(lmax, dp_schmidt, dp, factor, desc, "deriv2 dp"); test_legendre_compare(lmax, d2p_schmidt, d2p, factor, desc, "deriv2 d2p"); } free(p); free(dp); free(d2p); free(p_schmidt); free(dp_schmidt); free(d2p_schmidt); return s; } /* test_legendre_norm() */ /* test_legendre_unnorm() This routine tests the unnormalized ALFs using the relation S(l,m)(x) = a(l,m) * P(l,m)(x) where a(l,0) = 1 a(l,1) = -sqrt(2)/sqrt(l * (l+1)) a(l,m+1) = a(l,m) / sqrt((l+m+1) * (l-m)), m > 1 and S(l,m) are the Schmidt semi-normalized ALFs */ static int test_legendre_unnorm(const size_t lmax_orig, const char *desc) { int s = 0; const int lmax = GSL_MIN(lmax_orig, 140); size_t l, m; double x, dx; double *p, *dp, *d2p, *p2; double *p_schmidt, *dp_schmidt, *d2p_schmidt; size_t dim; dim = gsl_sf_legendre_array_n(lmax); p = malloc(sizeof(double) * dim); dp = malloc(sizeof(double) * dim); d2p = malloc(sizeof(double) * dim); p2 = malloc(sizeof(double) * dim); p_schmidt = malloc(sizeof(double) * dim); dp_schmidt = malloc(sizeof(double) * dim); d2p_schmidt = malloc(sizeof(double) * dim); dx = test_legendre_dx(lmax); for (x = -1.0 + dx; x < 1.0 - dx; x += dx) { gsl_sf_legendre_deriv2_array(GSL_SF_LEGENDRE_SCHMIDT, lmax, x, p_schmidt, dp_schmidt, d2p_schmidt); gsl_sf_legendre_deriv2_array(GSL_SF_LEGENDRE_NONE, lmax, x, p, dp, d2p); for (l = 0; l <= lmax; ++l) { double a_lm = sqrt(2.0 / (double)l / (l + 1.0)); size_t idx; /* test S(l,0) = P(l,0) */ idx = gsl_sf_legendre_array_index(l, 0); gsl_test_rel(p[idx], p_schmidt[idx], 1.0e-10, "legendre unnorm l=%zu, m=0, x=%f", l, x); gsl_test_rel(dp[idx], dp_schmidt[idx], 1.0e-10, "legendre unnorm deriv l=%zu, m=0, x=%f", l, x); if (l > 1) { gsl_test_rel(d2p[idx], d2p_schmidt[idx], 1.0e-10, "legendre unnorm deriv2 l=%zu, m=0, x=%f", l, x); } else { gsl_test_abs(d2p[idx], d2p_schmidt[idx], 1.0e-10, "legendre unnorm deriv2 l=%zu, m=0, x=%f", l, x); } /* test S(l,m) = a_{lm} * P(l,m) for m > 0 */ for (m = 1; m <= l; ++m) { idx = gsl_sf_legendre_array_index(l, m); gsl_test_rel(a_lm * p[idx], p_schmidt[idx], 1.0e-9, "legendre unnorm l=%zu, m=%zu, x=%f", l, m, x); gsl_test_abs(a_lm * dp[idx], dp_schmidt[idx], 1.0e-10, "legendre unnorm deriv l=%zu, m=%zu, x=%f", l, m, x); gsl_test_abs(a_lm * d2p[idx], d2p_schmidt[idx], 1.0e-10, "legendre unnorm deriv2 l=%zu, m=%zu, x=%f", l, m, x); a_lm /= sqrt((double) (l + m + 1)) * sqrt((double) (l - m)); } } gsl_sf_legendre_array(GSL_SF_LEGENDRE_NONE, lmax, x, p2); /* test if p = p2 */ for (l = 0; l <= lmax; ++l) { for (m = 0; m <= l; ++m) { size_t idx = gsl_sf_legendre_array_index(l, m); gsl_test_rel(p2[idx], p[idx], 1.0e-10, "%s compare l=%zu, m=%zu, x=%f", desc, l, m, x); } } } free(p); free(p2); free(dp); free(d2p); free(p_schmidt); free(dp_schmidt); free(d2p_schmidt); return s; } /* test_legendre_unnorm() */ static int test_legendre_all(const size_t lmax) { int s = 0; s += test_legendre_schmidt(lmax, 1.0, "schmidt csphase=1"); s += test_legendre_schmidt(lmax, -1.0, "schmidt csphase=-1"); s += test_legendre_norm(GSL_SF_LEGENDRE_SPHARM, lmax, 1.0, "spharm csphase=1"); s += test_legendre_norm(GSL_SF_LEGENDRE_SPHARM, lmax, -1.0, "spharm csphase=-1"); s += test_legendre_norm(GSL_SF_LEGENDRE_FULL, lmax, 1.0, "full csphase=1"); s += test_legendre_norm(GSL_SF_LEGENDRE_FULL, lmax, -1.0, "full csphase=-1"); s += test_legendre_unnorm(lmax, "unnorm csphase=1"); return s; } /* test_legendre_all() */ int test_legendre(void) { gsl_sf_result r; double L[256], DL[256]; int s = 0; int sa; TEST_SF(s, gsl_sf_legendre_P1_e, (-0.5, &r), -0.5, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_P1_e, ( 0.5, &r), 0.5, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_P2_e, (0.0, &r), -0.5 , TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_P2_e, (0.5, &r), -0.125, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_P2_e, (1.0, &r), 1.0 , TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_P2_e, (100.0, &r), 14999.5 , TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_P3_e, ( -0.5, &r), 0.4375, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_P3_e, ( 0.5, &r), -0.4375, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_P3_e, ( 1.0, &r), 1.0 , TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_P3_e, (100.0, &r), 2.49985e+06, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Pl_e, (1, -0.5, &r), -0.5, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Pl_e, (1, 1.0e-8, &r), 1.0e-08, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Pl_e, (1, 0.5, &r), 0.5, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Pl_e, (1, 1.0, &r), 1.0, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Pl_e, (10, -0.5, &r), -0.1882286071777345, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Pl_e, (10, 1.0e-8, &r), -0.24609374999999864648, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Pl_e, (10, 0.5, &r), -0.18822860717773437500, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Pl_e, (10, 1.0, &r), 1.0, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Pl_e, (99, -0.5, &r), 0.08300778172138770477, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Pl_e, (99, 1.0e-8, &r), -7.958923738716563193e-08, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Pl_e, (99, 0.5, &r), -0.08300778172138770477, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Pl_e, (99, 0.999, &r), -0.3317727359254778874, TEST_TOL2, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Pl_e, (99, 1.0, &r), 1.0, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Pl_e, (1000, -0.5, &r), -0.019168251091650277878, TEST_TOL2, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Pl_e, (1000, 1.0e-8, &r), 0.0252250181770982897470252620, TEST_TOL2, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Pl_e, (1000, 0.5, &r), -0.019168251091650277878, TEST_TOL2, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Pl_e, (1000, 1.0, &r), 1.0, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Pl_e, (4000, -0.5, &r), -0.009585404456573080972, TEST_TOL2, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Pl_e, (4000, 0.5, &r), -0.009585404456573080972, TEST_TOL2, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Pl_e, (4000, 1.0, &r), 1.0, TEST_TOL0, GSL_SUCCESS); sa = 0; gsl_sf_legendre_Pl_array(100, 0.5, L); TEST_SF_VAL(sa, L[0], +0.0, 1.0, TEST_TOL1); TEST_SF_VAL(sa, L[10], +0.0, -0.18822860717773437500, TEST_TOL1); TEST_SF_VAL(sa, L[100], +0.0, -0.06051802596186118687, TEST_TOL1); gsl_test(sa, "gsl_sf_legendre_Pl_array(100, 0.5)"); s += sa; sa = 0; gsl_sf_legendre_Pl_deriv_array(100, 0.5, L, DL); TEST_SF_VAL(sa, DL[0], +0.0, 0.0, TEST_TOL1); TEST_SF_VAL(sa, DL[1], +0.0, 1.0, TEST_TOL1); TEST_SF_VAL(sa, DL[10], +0.0, -2.3171234130859375000, TEST_TOL1); TEST_SF_VAL(sa, DL[100], +0.0, -7.0331691653942815112, TEST_TOL1); gsl_test(sa, "gsl_sf_legendre_Pl_deriv_array(100, 0.5)"); s += sa; sa = 0; gsl_sf_legendre_Pl_deriv_array(10, 1.0, L, DL); TEST_SF_VAL(sa, DL[0], +0.0, 0.0, TEST_TOL1); TEST_SF_VAL(sa, DL[1], +0.0, 1.0, TEST_TOL1); TEST_SF_VAL(sa, DL[10], +0.0, 55.0, TEST_TOL1); gsl_test(sa, "gsl_sf_legendre_Pl_deriv_array(10, 1.0)"); s += sa; gsl_sf_legendre_Pl_deriv_array(10, 1.0 - 1.0e-11, L, DL); TEST_SF_VAL(sa, DL[0], +0.0, 0.0, TEST_TOL1); TEST_SF_VAL(sa, DL[1], +0.0, 1.0, TEST_TOL1); TEST_SF_VAL(sa, DL[10], +0.0, 54.999999985150000001, TEST_TOL1); gsl_test(sa, "gsl_sf_legendre_Pl_deriv_array(10, 1.0 - 1.0e-11)"); s += sa; gsl_sf_legendre_Pl_deriv_array(10, -1.0, L, DL); TEST_SF_VAL(sa, DL[0], +0.0, 0.0, TEST_TOL1); TEST_SF_VAL(sa, DL[1], +0.0, 1.0, TEST_TOL1); TEST_SF_VAL(sa, DL[10], +0.0, -55.0, TEST_TOL1); gsl_test(sa, "gsl_sf_legendre_Pl_deriv_array(10, -1.0)"); s += sa; gsl_sf_legendre_Pl_deriv_array(10, -1.0 + 1.0e-11, L, DL); TEST_SF_VAL(sa, DL[0], +0.0, 0.0, TEST_TOL1); TEST_SF_VAL(sa, DL[1], +0.0, 1.0, TEST_TOL1); TEST_SF_VAL(sa, DL[10], +0.0, -54.999999985150000001, TEST_TOL1); gsl_test(sa, "gsl_sf_legendre_Pl_deriv_array(10, -1.0 + 1.0e-11)"); s += sa; TEST_SF(s, gsl_sf_legendre_Plm_e, (10, 0, -0.5, &r), -0.18822860717773437500, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Plm_e, (10, 0, 1.0e-08, &r), -0.24609374999999864648, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Plm_e, (10, 0, 0.5, &r), -0.18822860717773437500, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Plm_e, (10, 1, -0.5, &r), -2.0066877394361256516, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Plm_e, (10, 1, 1.0e-08, &r), -2.7070312499999951725e-07, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Plm_e, (10, 1, 0.5, &r), 2.0066877394361256516, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Plm_e, (10, 5, -0.5, &r), -30086.169706116174977, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Plm_e, (10, 5, 1.0e-08, &r), -0.0025337812499999964949, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Plm_e, (10, 5, 0.5, &r), 30086.169706116174977, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Plm_e, (10, 5, 0.999, &r), -0.5036411489013270406, TEST_TOL1, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Plm_e, (100, 5, -0.5, &r), -6.617107444248382171e+08, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Plm_e, (100, 5, 1.0e-08, &r), 817.8987598063712851, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Plm_e, (100, 5, 0.5, &r), 6.617107444248382171e+08, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Plm_e, (100, 5, 0.999, &r), -1.9831610803806212189e+09, TEST_TOL2, GSL_SUCCESS); #ifndef GSL_DISABLE_DEPRECATED sa = 0; gsl_sf_legendre_Plm_deriv_array(100, 2, -1.0 + 1.0/1125899906842624.0, L, DL); TEST_SF_VAL(sa, L[0], +0.0, 5.3290705182007490275e-15, TEST_TOL1); TEST_SF_VAL(sa, L[1], +0.0, -2.6645352591003721471e-14, TEST_TOL1); TEST_SF_VAL(sa, L[98], +0.0, 2.2646284847349109694e-08, TEST_TOL2); gsl_test(sa, "gsl_sf_legendre_Plm_deriv_array(100, 2, -1.0 + 2^(-50)"); s += sa; sa = 0; gsl_sf_legendre_Plm_deriv_array(100, 2, 1.0 - 1.0/1125899906842624.0, L, DL); TEST_SF_VAL(sa, L[0], +0.0, 5.3290705182007490275e-15, TEST_TOL1); TEST_SF_VAL(sa, L[1], +0.0, 2.6645352591003721471e-14, TEST_TOL1); TEST_SF_VAL(sa, L[10], +0.0, 5.3343995887188313290e-12, TEST_TOL1); TEST_SF_VAL(sa, L[98], +0.0, 2.2646284847349109694e-08, TEST_TOL2); gsl_test(sa, "gsl_sf_legendre_Plm_deriv_array(100, 2, 1.0 - 2^(-50)"); s += sa; sa = 0; gsl_sf_legendre_Plm_array(100, 5, 0.5, L); TEST_SF_VAL(sa, L[0], +0.0, -460.3466286991656682, TEST_TOL1); TEST_SF_VAL(sa, L[10], +0.0, 38852.51334152290535, TEST_TOL1 ); TEST_SF_VAL(sa, L[95], +0.0, 6.617107444248382171e+08, TEST_TOL1); gsl_test(sa, "gsl_sf_legendre_Plm_array(100, 5, 0.5)"); s += sa; sa = 0; gsl_sf_legendre_Plm_array(100, 5, 0.999, L); TEST_SF_VAL(sa, L[0], +0.0, -0.00016883550990916552255, TEST_TOL2); TEST_SF_VAL(sa, L[10], +0.0, -30.651334850159821525, TEST_TOL2 ); TEST_SF_VAL(sa, L[95], +0.0, -1.9831610803806212189e+09, TEST_TOL2); gsl_test(sa, "gsl_sf_legendre_Plm_array(100, 5, 0.999)"); s += sa; sa = 0; gsl_sf_legendre_Plm_array(100, 5, -0.999, L); TEST_SF_VAL(sa, L[0], +0.0, -0.00016883550990916552255, TEST_TOL2); TEST_SF_VAL(sa, L[10], +0.0, -30.651334850159821525, TEST_TOL2 ); TEST_SF_VAL(sa, L[95], +0.0, 1.9831610803806212189e+09, TEST_TOL2); gsl_test(sa, "gsl_sf_legendre_Plm_array(100, 5, -0.999)"); s += sa; sa = 0; gsl_sf_legendre_Plm_deriv_array(100, 2, 0.999, L, DL); TEST_SF_VAL(sa, L[0], +0.0, 0.00599700000000000000, TEST_TOL1); TEST_SF_VAL(sa, L[1], +0.0, 0.02995501500000000000, TEST_TOL1 ); TEST_SF_VAL(sa, DL[0], +0.0, -5.9940000000000000000, TEST_TOL1); TEST_SF_VAL(sa, DL[1], +0.0, -29.910045000000000000, TEST_TOL1 ); TEST_SF_VAL(sa, DL[2], +0.0, -89.490629790000000000, TEST_TOL1 ); TEST_SF_VAL(sa, DL[10], +0.0, -5703.9461633355291972, TEST_TOL1 ); TEST_SF_VAL(sa, DL[95], +0.0, 6.4518473603456858414E+06, TEST_TOL3); gsl_test(sa, "gsl_sf_legendre_Plm_deriv_array(100, 2, 0.999)"); s += sa; sa = 0; gsl_sf_legendre_Plm_deriv_array(100, 2, 1.0 - 1.0e-15, L, DL); TEST_SF_VAL(sa, DL[0], +0.0, -5.9999999999999940000, TEST_TOL1); TEST_SF_VAL(sa, DL[1], +0.0, -29.999999999999910000, TEST_TOL1 ); TEST_SF_VAL(sa, DL[2], +0.0, -89.999999999999490000, TEST_TOL1 ); TEST_SF_VAL(sa, DL[10], +0.0, -6005.9999999996936940, TEST_TOL1 ); TEST_SF_VAL(sa, DL[95], +0.0, -2.2586255999928454270e+07, TEST_TOL3); gsl_test(sa, "gsl_sf_legendre_Plm_deriv_array(100, 2, 1.0 - 1.0e-15)"); s += sa; sa = 0; gsl_sf_legendre_Plm_deriv_array(100, 2, -1.0 + 1.0e-15, L, DL); TEST_SF_VAL(sa, DL[0], +0.0, 5.9999999999999940000, TEST_TOL1); TEST_SF_VAL(sa, DL[1], +0.0, -29.999999999999910000, TEST_TOL1 ); TEST_SF_VAL(sa, DL[95], +0.0, -2.2586255999928454270e+07, TEST_TOL3); gsl_test(sa, "gsl_sf_legendre_Plm_deriv_array(100, 2, -1.0 + 1.0e-15)"); s += sa; sa = 0; gsl_sf_legendre_Plm_deriv_array(100, 5, 0.999, L, DL); TEST_SF_VAL(sa, DL[0], +0.0, 0.42187762481054616565, TEST_TOL1); TEST_SF_VAL(sa, DL[1], +0.0, 4.6341560284340909936, TEST_TOL1 ); TEST_SF_VAL(sa, DL[2], +0.0, 27.759505566959219127, TEST_TOL1 ); TEST_SF_VAL(sa, DL[10], +0.0, 76051.795860179545484, TEST_TOL1 ); TEST_SF_VAL(sa, DL[95], +0.0, 3.0344503083851936814e+12, TEST_TOL3); gsl_test(sa, "gsl_sf_legendre_Plm_deriv_array(100, 5, 0.999)"); s += sa; #endif /* !GSL_DISABLE_DEPRECATED */ TEST_SF(s, gsl_sf_legendre_sphPlm_e, (10, 0, -0.5, &r), -0.24332702369300133776, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_sphPlm_e, (10, 0, 0.5, &r), -0.24332702369300133776, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_sphPlm_e, (10, 0, 0.999, &r), 1.2225754122797385990, TEST_TOL1, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_sphPlm_e, (10, 5, -0.5, &r), -0.3725739049803293972, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_sphPlm_e, (10, 5, 1.0e-08, &r), -3.1377233589376792243e-08, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_sphPlm_e, (10, 5, 0.5, &r), 0.3725739049803293972, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_sphPlm_e, (10, 5, 0.999, &r), -6.236870674727370094e-06, TEST_TOL2, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_sphPlm_e, (10, 10, -0.5, &r), 0.12876871185785724117, TEST_TOL1, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_sphPlm_e, (10, 10, 0.5, &r), 0.12876871185785724117, TEST_TOL1, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_sphPlm_e, (10, 10, 0.999, &r), 1.7320802307583118647e-14, TEST_TOL2, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_sphPlm_e, (200, 1, -0.5, &r), 0.3302975570099492931, TEST_TOL1, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_sphPlm_e, (200, 1, 0.5, &r), -0.3302975570099492931, TEST_TOL1, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_sphPlm_e, (200, 1, 0.999, &r), -1.4069792055546256912, TEST_TOL2, GSL_SUCCESS); /* Test case from alberto@physik.fu-berlin.de */ TEST_SF(s, gsl_sf_legendre_sphPlm_e, (3, 1, 0.0, &r), 0.323180184114150653007, TEST_TOL2, GSL_SUCCESS); /* Other test cases */ TEST_SF(s, gsl_sf_legendre_sphPlm_e, (200, 1, -0.5, &r), 0.3302975570099492931418227583, TEST_TOL2, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_sphPlm_e, (140,135,1,&r), 0.0, TEST_TOL2, GSL_SUCCESS); #ifdef EXTENDED TEST_SF(s, gsl_sf_legendre_sphPlm_e, (140,135,0.99998689456491752,&r), -6.54265253269093276310395668335e-305, TEST_TOL6, GSL_SUCCESS); #endif #ifndef GSL_DISABLE_DEPRECATED sa = 0; gsl_sf_legendre_sphPlm_array(100, 5, 0.5, L); TEST_SF_VAL(sa, L[0], +0.0, -0.22609703187800460722, TEST_TOL1); TEST_SF_VAL(sa, L[10], +0.0, 0.07452710323813558940, TEST_TOL1); TEST_SF_VAL(sa, L[95], +0.0, 0.25865355990880161717, TEST_TOL1); gsl_test(sa, "gsl_sf_legendre_sphPlm_array(100, 5, 0.5)"); s += sa; sa = 0; gsl_sf_legendre_sphPlm_array(100, 2, 1.0 - 1.0/1125899906842624.0, L); TEST_SF_VAL(sa, L[0], +0.0, 6.8616082064776657177e-16, TEST_TOL2); TEST_SF_VAL(sa, L[10], +0.0, 4.8543150313086787324e-14, TEST_TOL2); TEST_SF_VAL(sa, L[95], +0.0, 8.3138984963650838973e-12, TEST_TOL2); gsl_test(sa, "gsl_sf_legendre_sphPlm_array(100, 2, 1.0 - 2^(-50))"); s += sa; sa = 0; gsl_sf_legendre_sphPlm_array(100, 2, -1.0 + 1.0/1125899906842624.0, L); TEST_SF_VAL(sa, L[0], +0.0, 6.8616082064776657177e-16, TEST_TOL2); TEST_SF_VAL(sa, L[95], +0.0, -8.3138984963650838973e-12, TEST_TOL2); gsl_test(sa, "gsl_sf_legendre_sphPlm_array(100, 2, -1.0 + 2^(-50))"); s += sa; sa = 0; gsl_sf_legendre_sphPlm_deriv_array(100, 0, 0.5, L, DL); TEST_SF_VAL(sa, DL[0], +0.0, 0.0, TEST_TOL1); TEST_SF_VAL(sa, DL[10], +0.0, -2.9953934850252897591, TEST_TOL1); TEST_SF_VAL(sa, DL[95], +0.0, -36.411811015111761007, TEST_TOL1); gsl_test(sa, "gsl_sf_legendre_sphPlm_deriv_array(100, 0, 0.5)"); s += sa; sa = 0; gsl_sf_legendre_sphPlm_deriv_array(100, 1, 0.5, L, DL); TEST_SF_VAL(sa, DL[0], +0.0, 0.19947114020071633897, TEST_TOL1); TEST_SF_VAL(sa, DL[1], +0.0, -0.44603102903819277863, TEST_TOL1); TEST_SF_VAL(sa, DL[10], +0.0, 1.3658895325030216565, TEST_TOL1); TEST_SF_VAL(sa, DL[99], +0.0, -27.925571865639037118, TEST_TOL1); gsl_test(sa, "gsl_sf_legendre_sphPlm_deriv_array(100, 1, 0.5)"); s += sa; sa = 0; gsl_sf_legendre_sphPlm_deriv_array(100, 1, 1.0 - 1.0/1125899906842624.0, L, DL); TEST_SF_VAL(sa, DL[0], +0.0, 8.1973898803378530946e+06, TEST_TOL1); TEST_SF_VAL(sa, DL[1], +0.0, 1.8329921010504257405e+07, TEST_TOL1); TEST_SF_VAL(sa, DL[10], +0.0, 1.8439572562895384115e+08, TEST_TOL1); TEST_SF_VAL(sa, DL[99], +0.0, 4.7682463136232210552e+09, TEST_TOL3); gsl_test(sa, "gsl_sf_legendre_sphPlm_deriv_array(100, 1, 1.0 - 2^(-50))"); s += sa; sa = 0; gsl_sf_legendre_sphPlm_deriv_array(100, 2, 0.5, L, DL); TEST_SF_VAL(sa, DL[0], +0.0, -0.38627420202318958034, TEST_TOL1); TEST_SF_VAL(sa, DL[1], +0.0, 0.25549636910832059085, TEST_TOL1); TEST_SF_VAL(sa, DL[2], +0.0, 1.5053547230039006279, TEST_TOL1); TEST_SF_VAL(sa, DL[10], +0.0, 0.73576559668648243477, TEST_TOL1); TEST_SF_VAL(sa, DL[98], +0.0, 28.444589950264378407, TEST_TOL1); gsl_test(sa, "gsl_sf_legendre_sphPlm_deriv_array(100, 2, 0.5)"); s += sa; sa = 0; gsl_sf_legendre_sphPlm_deriv_array(100, 5, 0.5, L, DL); TEST_SF_VAL(sa, DL[0], +0.0, 0.75365677292668202407, TEST_TOL1); TEST_SF_VAL(sa, DL[1], +0.0, 0.54346962777757450534, TEST_TOL1); TEST_SF_VAL(sa, DL[2], +0.0, -0.98309969029001383773, TEST_TOL1); TEST_SF_VAL(sa, DL[3], +0.0, -2.7728270988954534293, TEST_TOL1); TEST_SF_VAL(sa, DL[10], +0.0, -5.7407133315443482193, TEST_TOL1); TEST_SF_VAL(sa, DL[95], +0.0, -25.893934624747394561, TEST_TOL1); gsl_test(sa, "gsl_sf_legendre_sphPlm_deriv_array(100, 5, 0.5)"); s += sa; sa = 0; gsl_sf_legendre_sphPlm_deriv_array(100, 5, 1.0 - 1.0/1125899906842624.0, L, DL); TEST_SF_VAL(sa, DL[0], +0.0, 1.7374288379067753301e-22, TEST_TOL1); TEST_SF_VAL(sa, DL[1], +0.0, 6.2643887625426827113e-22, TEST_TOL1); TEST_SF_VAL(sa, DL[2], +0.0, 1.6482697200734667281e-21, TEST_TOL1); TEST_SF_VAL(sa, DL[95], +0.0, 3.9890549466071349506e-15, TEST_TOL2); gsl_test(sa, "gsl_sf_legendre_sphPlm_deriv_array(100, 5, 1.0 - 2^(-50))"); s += sa; gsl_sf_legendre_sphPlm_deriv_array(100, 5, -1.0 + 1.0/1125899906842624.0, L, DL); TEST_SF_VAL(sa, DL[0], +0.0, -1.7374288379067753301e-22, TEST_TOL1); TEST_SF_VAL(sa, DL[1], +0.0, 6.2643887625426827113e-22, TEST_TOL1); TEST_SF_VAL(sa, DL[2], +0.0, -1.6482697200734667281e-21, TEST_TOL1); TEST_SF_VAL(sa, DL[95], +0.0, 3.9890549466071349506e-15, TEST_TOL3); gsl_test(sa, "gsl_sf_legendre_sphPlm_deriv_array(100, 5, -1.0 + 2^(-50))"); s += sa; #endif /* !GSL_DISABLE_DEPRECATED */ TEST_SF(s, gsl_sf_conicalP_half_e, (0.0, -0.5, &r), 0.8573827581049917129, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_half_e, (0.0, 0.5, &r), 0.8573827581049917129, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_half_e, (0.0, 2.0, &r), 0.6062611623284649811, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_half_e, (0.0, 100.0, &r), 0.07979045091636735635, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_half_e, (10.0, -0.5, &r), 5.345484922591867188e+08, TEST_TOL1, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_half_e, (10.0, 0.5, &r), 15137.910380385258370, TEST_TOL1, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_half_e, (10.0, 2.0, &r), 0.4992680691891618544, TEST_TOL1, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_half_e, (10.0, 100.0, &r), -0.07272008163718195685, TEST_TOL2, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_half_e, (200.0, -1.0e-3, &r), 1.3347639529084185010e+136, TEST_TOL2, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_half_e, (200.0, 1.0e-8, &r), 1.0928098010940058507e+136, TEST_TOL2, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_half_e, (200.0, 0.5, &r), 3.895546021611205442e+90, TEST_TOL2, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_half_e, (200.0, 10.0, &r), -0.04308567180833581268, TEST_TOL3, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_half_e, (200.0, 100.0, &r), -0.04694669186576399194, TEST_TOL3, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_half_e, (200.0, 1000.0, &r), 0.023698140704121273277, TEST_TOL3, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_half_e, (200.0, 1.0e+8, &r), -0.00006790983312124277891, TEST_TOL3, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_half_e, (1.0e+8, 1.1, &r), 1.1599311133054742944, TEST_SQRT_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_half_e, (1.0e+8, 100.0, &r), 0.07971967557381557875, TEST_SQRT_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_mhalf_e, (0.0, -0.5, &r), 1.7956982494514644808, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_mhalf_e, (0.0, 0.5, &r), 0.8978491247257322404, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_mhalf_e, (0.0, 2.0, &r), 0.7984204253272901551, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_mhalf_e, (0.0, 100.0, &r), 0.4227531369388072584, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_mhalf_e, (10.0, -0.5, &r), 5.345484922591867181e+07, TEST_TOL1, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_mhalf_e, (10.0, 0.5, &r), 1513.7910356104985334, TEST_TOL1, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_mhalf_e, (10.0, 2.0, &r), 0.03439243987215615642, TEST_TOL1, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_mhalf_e, (10.0, 100.0, &r), 0.003283756665952609624, TEST_TOL2, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_mhalf_e, (200.0, -0.5, &r), 1.7699538115312304280e+179, TEST_TOL2, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_mhalf_e, (200.0, 1.0e-8, &r), 5.464049005470029253e+133, TEST_TOL2, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_mhalf_e, (200.0, 0.5, &r), 1.9477730108056027211e+88, TEST_TOL2, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_mhalf_e, (200.0, 10.0, &r), 0.0012462575917716355362, TEST_TOL2, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_mhalf_e, (200.0, 100.0, &r), -0.0003225881344802625149, TEST_TOL2, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_mhalf_e, (200.0, 1000.0, &r), -0.00004330652890886567623, TEST_TOL3, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_mhalf_e, (200.0, 1.0e+8, &r), 2.0943091278037078483e-07, TEST_TOL3, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_mhalf_e, (1.0e+8, 1.1, &r), 2.092320445620989618e-09, 16.0*TEST_SQRT_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_mhalf_e, (1.0e+8, 100.0, &r), -3.359967833599016923e-11, 256.0*TEST_SQRT_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_0_e, (0.0, -0.5, &r), 1.3728805006183501647, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_0_e, (0.0, 0.5, &r), 1.0731820071493643751, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_0_e, (0.0, 2.0, &r), 0.9012862993604472987, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_0_e, (0.0, 100.0, &r), 0.30091748588199264556, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_0_e, (10.0, -0.5, &r), 1.6795592815421804669e+08, TEST_TOL1, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_0_e, (10.0, 0.5, &r), 4826.034132009618240, TEST_TOL1, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_0_e, (10.0, 2.0, &r), 0.18798468917758716146, TEST_TOL2, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_0_e, (10.0, 100.0, &r), -0.008622130749987962529, TEST_TOL2, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_0_e, (200.0, -0.5, &r), 2.502194818646823e+180, TEST_TOL4, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_0_e, (1000.0, 100.0, &r), 0.0017908817653497715844, TEST_TOL3, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_0_e, (1000.0, 1000.0, &r), -0.0006566893804926284301, TEST_TOL3, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_0_e, (1000.0, 1.0e+8, &r), 2.3167213561756390068e-06, TEST_TOL4, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_1_e, (0.0, -0.5, &r), 0.4939371126656998499, TEST_TOL1, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_1_e, (0.0, 0.5, &r), 0.14933621085538265636, TEST_TOL1, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_1_e, (0.0, 2.0, &r), -0.13666874968871549533, TEST_TOL1, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_1_e, (0.0, 100.0, &r), -0.10544528203156629098, TEST_TOL2, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_1_e, (10.0, -0.5, &r), 1.7253802958788312520e+09, TEST_TOL2, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_1_e, (10.0, 0.5, &r), 46781.02294059967988, TEST_TOL1, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_1_e, (10.0, 2.0, &r), 0.26613342643657444400, TEST_TOL2, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_1_e, (10.0, 100.0, &r), -0.23281959695501029796, TEST_TOL2, GSL_SUCCESS); /* FIXME: Mathematica gets some brain-damaged numbers for * these x < 0 points. I have checked what I am doing in detail, * and it must be right because you can do it by summing * manifestly positive definite quantities. */ TEST_SF(s, gsl_sf_conicalP_1_e, (200.0, -0.999, &r), 2.71635193199341135e+270, TEST_TOL2, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_1_e, (200.0, -0.9, &r), 4.2952493176812905e+234, TEST_TOL2, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_1_e, (200.0, -0.5, &r), 5.01159205956053439e+182, TEST_TOL3, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_1_e, (200.0, 0.999, &r), 195733.0396081538, TEST_TOL2, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_1_e, (200.0, 10.0, &r), -2.9272610662414349553, TEST_TOL2, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_1_e, (1000.0, 100.0, &r), -1.7783258105862399857, TEST_TOL6, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_1_e, (1000.0, 1000.0, &r), 0.4535161075156427179, TEST_TOL4, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_1_e, (1000.0, 1.0e+8, &r), 0.0009983414549874888478, TEST_SQRT_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_sph_reg_e, (2, 1.0, -0.5, &r), 1.6406279287008789526, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_sph_reg_e, (10, 1.0, -0.5, &r), 0.000029315266725049129448, TEST_TOL1, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_sph_reg_e, (20, 1.0, -0.5, &r), 7.335769429462034431e-15, TEST_TOL1, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_sph_reg_e, (30, 1.0, -0.5, &r), 1.3235612394267378871e-26, TEST_TOL2, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_sph_reg_e, (10, 1.0, 0.5, &r), 2.7016087199857873954e-10, TEST_TOL1, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_sph_reg_e, (20, 1.0, 0.5, &r), 1.1782569701435933399e-24, TEST_TOL1, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_sph_reg_e, (30, 1.0, 0.5, &r), 3.636240588303797919e-41, TEST_TOL1, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_sph_reg_e, (10, 1.0, 2.0, &r), 2.4934929626284934483e-10, TEST_TOL1, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_sph_reg_e, (20, 1.0, 2.0, &r), 1.1284762488012616191e-24, TEST_TOL2, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_sph_reg_e, (30, 100.0, 100.0, &r), -1.6757772087159526048e-64, TEST_TOL6, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_cyl_reg_e, (2, 1.0, -0.5, &r), 2.2048510472375258708, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_cyl_reg_e, (10, 1.0, -0.5, &r), 0.00007335034531618655690, TEST_TOL1, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_cyl_reg_e, (20, 1.0, -0.5, &r), 2.5419860619212164696e-14, TEST_TOL1, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_cyl_reg_e, (30, 1.0, -0.5, &r), 5.579714972260536827e-26, TEST_TOL2, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_cyl_reg_e, (10, 1.0, 0.5, &r), 1.1674078819646475282e-09, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_cyl_reg_e, (20, 1.0, 0.5, &r), 7.066408031229072207e-24, TEST_TOL1, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_cyl_reg_e, (30, 1.0, 0.5, &r), 2.6541973286862588488e-40, TEST_TOL1, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_cyl_reg_e, (10, 1.0, 2.0, &r), 1.0736109751890863051e-09, TEST_TOL2, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_cyl_reg_e, (20, 1.0, 2.0, &r), 6.760965304863386741e-24, TEST_TOL2, GSL_SUCCESS); TEST_SF(s, gsl_sf_conicalP_cyl_reg_e, (30, 100.0, 100.0, &r), -4.268753482520651007e-63, TEST_TOL4, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_H3d_0_e, (1.0e-06, 1.0e-06, &r), 0.9999999999998333333 , TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_H3d_0_e, (1.0, 0.0, &r), 1.0 , TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_H3d_0_e, (1.0, 1.0, &r), 0.7160229153604338713 , TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_H3d_0_e, (1.0, 100.0, &r), -3.767437313149604566e-44 , TEST_TOL2, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_H3d_0_e, (1.0, 500.0, &r), -6.665351935878582205e-218, TEST_TOL2, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_H3d_0_e, (100.0, 1.0, &r), -0.004308757035378200029 , TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_H3d_0_e, (100.0, 10.0, &r), 7.508054627912986427e-07 , TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_H3d_0_e, (1000.0, 1.0, &r), 0.0007036067909088818319 , TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_H3d_0_e, (1.0e+08, 1.0, &r), 7.927485371429105968e-09 , TEST_TOL3, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_H3d_0_e, (1.0e+08, 100.0, &r), -3.627118904186918957e-52 , 32.0*TEST_SQRT_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_H3d_1_e, (1.0e-06, 1.0e-06, &r), 3.333333333334222222e-07, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_H3d_1_e, (1.0, 1.0e-10, &r), 4.714045207910316829e-11, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_H3d_1_e, (1.0, 1.0, &r), 0.3397013994799344639, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_H3d_1_e, (1.0, 100.0, &r), -7.200624449531811272e-44, TEST_TOL2, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_H3d_1_e, (1.0, 500.0, &r), 4.192260336821728677e-218, TEST_TOL2, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_H3d_1_e, (100.0, 0.01, &r), 0.30117664944267412324 , TEST_TOL1, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_H3d_1_e, (100.0, 1.0, &r), -0.007393833425336299309 , TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_H3d_1_e, (100.0, 10.0, &r), -5.031062029821254982e-07 , TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_H3d_1_e, (1000.0, 0.001, &r), 0.30116875865090396421 , TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_H3d_1_e, (1000.0, 1.0, &r), -0.0004776144516074971885 , TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_H3d_1_e, (1.0e+08, 1.0e-08, &r), 0.30116867893975679722 , TEST_TOL1, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_H3d_1_e, (1.0e+08, 1.0, &r), 3.0921097047369081582e-09, TEST_TOL4, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_H3d_1_e, (1.0e+08, 100.0, &r), -6.496142701296286936e-52 , 32.0*TEST_SQRT_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_H3d_e, (5, 1.0e-06, 1.0e-06, &r), 1.1544011544013627977e-32, TEST_TOL2, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_H3d_e, (5, 1.0, 1.0e-10, &r), 2.0224912016958766992e-52, TEST_TOL2, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_H3d_e, (5, 1.0, 1.0, &r), 0.011498635037491577728, TEST_TOL1, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_H3d_e, (5, 1.0, 5.0, &r), 0.0020696945662545205776, TEST_TOL4, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_H3d_e, (5, 1.0, 7.0, &r), -0.0017555303787488993676, TEST_TOL4, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_H3d_e, (5, 1.0, 10.0, &r), 0.00008999979724504887101, TEST_TOL2, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_H3d_e, (5, 1.0, 100.0, &r), -4.185397793298567945e-44, TEST_TOL2, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_H3d_e, (5, 1.0, 500.0, &r), 1.4235113901091961263e-217, TEST_TOL3, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_H3d_e, (5, 100.0, 0.001, &r), 9.642762597222417946e-10, TEST_TOL2, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_H3d_e, (5, 100.0, 0.002, &r), 3.0821201254308036109e-08, TEST_TOL2, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_H3d_e, (5, 100.0, 0.01, &r), 0.00009281069019005840532, TEST_TOL1, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_H3d_e, (5, 100.0, 1.0, &r), -0.008043100696178624653, TEST_TOL2, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_H3d_e, (5, 100.0, 10.0, &r), -3.927678432813974207e-07, TEST_TOL3, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_H3d_e, (5, 1000.0, 0.001, &r), 0.00009256365284253254503, TEST_TOL1, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_H3d_e, (5, 1000.0, 0.01, &r), -0.05553733815473079983, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_H3d_e, (5, 1.0e+08, 1.0e-08, &r), 0.00009256115861125841299, TEST_TOL2, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_H3d_e, (5, 1.0e+08, 100.0, &r), -6.496143209092860765e-52 , 128.0*TEST_SQRT_TOL0, GSL_SUCCESS); #if FIXME sa = 0; gsl_sf_legendre_H3d_array(100, 1.0, 3.0, L); TEST_SF_VAL(sa, L[0], +0.0, gsl_sf_legendre_H3d(0, 1.0, 3.0), 1.0e-12); TEST_SF_VAL(sa, L[1], +0.0, gsl_sf_legendre_H3d(1, 1.0, 3.0), 1.0e-12); TEST_SF_VAL(sa, L[10], +0.0, gsl_sf_legendre_H3d(10, 1.0, 3.0), 1.0e-12); TEST_SF_VAL(sa, L[100], +0.0, gsl_sf_legendre_H3d(100, 1.0, 3.0), 1.0e-12); gsl_test(sa, " gsl_sf_legendre_H3d_array(100, 1.0, 3.0)"); s += sa; #endif /* x = -1 + 2^-16 */ TEST_SF(s, gsl_sf_legendre_Q0_e, (-0.9999847412109375, &r), -5.8917472200477175158028143531855, TEST_TOL4, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Q0_e, (-0.5, &r), -0.5493061443340548457, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Q0_e, (-1e-10, &r), -1.000000000000000000e-10, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Q0_e, (0.0, &r), 0.0, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Q0_e, (1e-10, &r), 1.000000000000000000e-10, TEST_TOL0, GSL_SUCCESS); /* x = 1 - 2^-16 */ TEST_SF(s, gsl_sf_legendre_Q0_e, (0.9999847412109375, &r), 5.8917472200477175158028143531855, TEST_TOL4, GSL_SUCCESS); /* x = 1 + 2^-16 */ TEST_SF(s, gsl_sf_legendre_Q0_e, ( 1.0000152587890625, &r), 5.8917548494422489138325509750429, TEST_TOL4, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Q0_e, ( 1.5, &r), 0.8047189562170501873, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Q0_e, ( 9.99, &r), 0.1004364599660005447, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Q0_e, ( 10.0, &r), 0.1003353477310755806, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Q0_e, ( 10.01, &r), 0.1002344395571710243, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Q0_e, ( 100, &r), 0.010000333353334762015, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Q0_e, ( 1e10, &r), 1.000000000000000000e-10, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Q1_e, (-0.9999847412109375, &r), 4.8916573191196772369, TEST_TOL4, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Q1_e, (-0.5, &r), -0.7253469278329725772, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Q1_e, (-0.01, &r), -0.9998999966664666524, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Q1_e, (-1e-10, &r), -0.999999999999999999, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Q1_e, (0.0, &r), -1.0, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Q1_e, (1e-10, &r), -0.999999999999999999, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Q1_e, (0.0001, &r), -0.9999999899999999667, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Q1_e, (0.01, &r), -0.9998999966664666524, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Q1_e, (0.5, &r), -0.7253469278329725772, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Q1_e, (0.9999847412109375, &r), 4.8916573191196772369, TEST_TOL4, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Q1_e, (1.0000152587890625, &r), 4.8918447504867045145, TEST_TOL4, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Q1_e, ( 1.5, &r), 0.20707843432557528095, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Q1_e, ( 9.99, &r), 3.360235060345441639e-3, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Q1_e, ( 10.0, &r), 3.353477310755806357e-3, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Q1_e, ( 10.01, &r), 3.346739967281953346e-3, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Q1_e, ( 100.0, &r), 3.333533347620158821e-5, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Q1_e, ( 1e10, &r), 3.333333333333333333e-21, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Ql_e, (10, -0.5, &r), -0.29165813966586752393, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Ql_e, (10, 0.5, &r), 0.29165813966586752393, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Ql_e, (10, 1.5, &r), 0.000014714232718207477406, TEST_TOL0, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Ql_e, (100, -0.5, &r), -0.09492507395207282096, TEST_TOL1, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Ql_e, (100, 0.5, &r), 0.09492507395207282096, TEST_TOL1, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Ql_e, (100, 1.5, &r), 1.1628163435044121988e-43, TEST_TOL2, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Ql_e, (1000, -0.5, &r), -0.030105074974005303500, TEST_TOL1, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Ql_e, (1000, 0.5, &r), 0.030105074974005303500, TEST_TOL1, GSL_SUCCESS); TEST_SF(s, gsl_sf_legendre_Ql_e, (1000, 1.1, &r), 1.0757258447825356443e-194, TEST_TOL3, GSL_SUCCESS); /* test associated legendre functions */ { size_t l; for (l = 0; l <= 10; ++l) test_legendre_all(l); test_legendre_all(140); test_legendre_all(1000); /*test_legendre_all(2700);*/ } return s; }