/*============================================================================= This file is part of ARB. ARB 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. ARB 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 ARB; if not, write to the Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA =============================================================================*/ /****************************************************************************** Copyright (C) 2014 Fredrik Johansson ******************************************************************************/ #include "acb_hypgeom.h" void acb_randtest_maybe_half_int(acb_t x, flint_rand_t state, long prec, long size) { if (n_randint(state, 8) == 0) { fmpz_t t; fmpz_init(t); fmpz_randtest(t, state, 1 + n_randint(state, prec)); arb_set_fmpz(acb_realref(x), t); arb_zero(acb_imagref(x)); acb_mul_2exp_si(x, x, -1); fmpz_clear(t); } else { acb_randtest(x, state, prec, size); } } int main() { long iter; flint_rand_t state; printf("bessel_j...."); fflush(stdout); flint_randinit(state); for (iter = 0; iter < 2000; iter++) { acb_t nu0, nu1, nu2, z, w0, w1, w2, t, u; long prec0, prec1, prec2; acb_init(nu0); acb_init(nu1); acb_init(nu2); acb_init(z); acb_init(w0); acb_init(w1); acb_init(w2); acb_init(t); acb_init(u); prec0 = 2 + n_randint(state, 1000); prec1 = 2 + n_randint(state, 1000); prec2 = 2 + n_randint(state, 1000); acb_randtest_maybe_half_int(nu0, state, 1 + n_randint(state, 1000), 1 + n_randint(state, 100)); acb_randtest(z, state, 1 + n_randint(state, 1000), 1 + n_randint(state, 100)); acb_randtest(w0, state, 1 + n_randint(state, 1000), 1 + n_randint(state, 100)); acb_randtest(w1, state, 1 + n_randint(state, 1000), 1 + n_randint(state, 100)); acb_randtest(w2, state, 1 + n_randint(state, 1000), 1 + n_randint(state, 100)); acb_sub_ui(nu1, nu0, 1, prec0); acb_sub_ui(nu2, nu0, 2, prec0); switch (n_randint(state, 3)) { case 0: acb_hypgeom_bessel_j_asymp(w0, nu0, z, prec0); break; case 1: acb_hypgeom_bessel_j_0f1(w0, nu0, z, prec0); break; default: acb_hypgeom_bessel_j(w0, nu0, z, prec0); } switch (n_randint(state, 3)) { case 0: acb_hypgeom_bessel_j_asymp(w1, nu0, z, prec1); break; case 1: acb_hypgeom_bessel_j_0f1(w1, nu0, z, prec1); break; default: acb_hypgeom_bessel_j(w1, nu0, z, prec1); } if (!acb_overlaps(w0, w1)) { printf("FAIL: consistency\n\n"); printf("nu = "); acb_printd(nu0, 30); printf("\n\n"); printf("z = "); acb_printd(z, 30); printf("\n\n"); printf("w0 = "); acb_printd(w0, 30); printf("\n\n"); printf("w1 = "); acb_printd(w1, 30); printf("\n\n"); abort(); } switch (n_randint(state, 3)) { case 0: acb_hypgeom_bessel_j_asymp(w1, nu1, z, prec1); break; case 1: acb_hypgeom_bessel_j_0f1(w1, nu1, z, prec1); break; default: acb_hypgeom_bessel_j(w1, nu1, z, prec1); } switch (n_randint(state, 3)) { case 0: acb_hypgeom_bessel_j_asymp(w2, nu2, z, prec2); break; case 1: acb_hypgeom_bessel_j_0f1(w2, nu2, z, prec2); break; default: acb_hypgeom_bessel_j(w2, nu2, z, prec2); } acb_mul(t, w1, nu1, prec0); acb_mul_2exp_si(t, t, 1); acb_submul(t, w2, z, prec0); acb_submul(t, w0, z, prec0); if (!acb_contains_zero(t)) { printf("FAIL: contiguous relation\n\n"); printf("nu = "); acb_printd(nu0, 30); printf("\n\n"); printf("z = "); acb_printd(z, 30); printf("\n\n"); printf("w0 = "); acb_printd(w0, 30); printf("\n\n"); printf("w1 = "); acb_printd(w1, 30); printf("\n\n"); printf("w2 = "); acb_printd(w2, 30); printf("\n\n"); printf("t = "); acb_printd(t, 30); printf("\n\n"); abort(); } acb_neg(t, nu0); switch (n_randint(state, 3)) { case 0: acb_hypgeom_bessel_j_asymp(w2, t, z, prec2); break; case 1: acb_hypgeom_bessel_j_0f1(w2, t, z, prec2); break; default: acb_hypgeom_bessel_j(w2, t, z, prec2); } acb_mul(w1, w1, w2, prec2); acb_neg(t, nu1); switch (n_randint(state, 3)) { case 0: acb_hypgeom_bessel_j_asymp(w2, t, z, prec2); break; case 1: acb_hypgeom_bessel_j_0f1(w2, t, z, prec2); break; default: acb_hypgeom_bessel_j(w2, t, z, prec2); } acb_mul(w0, w0, w2, prec2); acb_add(w0, w0, w1, prec2); acb_sin_pi(t, nu0, prec2); acb_const_pi(u, prec2); acb_mul(u, u, z, prec2); acb_div(t, t, u, prec2); acb_mul_2exp_si(t, t, 1); if (!acb_overlaps(w0, t)) { printf("FAIL: wronskian\n\n"); printf("nu = "); acb_printd(nu0, 30); printf("\n\n"); printf("z = "); acb_printd(z, 30); printf("\n\n"); printf("w0 = "); acb_printd(w0, 30); printf("\n\n"); printf("t = "); acb_printd(t, 30); printf("\n\n"); abort(); } acb_clear(nu0); acb_clear(nu1); acb_clear(nu2); acb_clear(z); acb_clear(w0); acb_clear(w1); acb_clear(w2); acb_clear(t); acb_clear(u); } flint_randclear(state); flint_cleanup(); printf("PASS\n"); return EXIT_SUCCESS; }