/*============================================================================= 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) 2012, 2013 Fredrik Johansson ******************************************************************************/ #include "fmprb.h" #include "gamma.h" static void _fmprb_gamma(fmprb_t y, const fmprb_t x, long prec, int inverse) { int reflect; long r, n, wp; fmprb_t t, u, v; if (fmprb_is_exact(x)) { const fmpr_struct * mid = fmprb_midref(x); if (fmpr_is_special(mid)) { if (!inverse && fmpr_is_pos_inf(mid)) { fmprb_set(y, x); } else if (fmpr_is_nan(mid) || fmpr_is_neg_inf(mid) || !inverse) { fmpr_nan(fmprb_midref(y)); fmpr_pos_inf(fmprb_radref(y)); } else { fmprb_zero(y); } return; } else { const fmpz exp = *fmpr_expref(mid); const fmpz man = *fmpr_manref(mid); /* fast gamma(n), gamma(n/2) or gamma(n/4) */ if (!COEFF_IS_MPZ(exp) && (exp >= -2) && ((double) fmpz_bits(&man) + exp < prec)) { fmpq_t a; fmpq_init(a); fmpr_get_fmpq(a, mid); fmprb_gamma_fmpq(y, a, prec + 2 * inverse); if (inverse) fmprb_ui_div(y, 1, y, prec); fmpq_clear(a); return; } } } wp = prec + FLINT_BIT_COUNT(prec); gamma_stirling_choose_param_fmprb(&reflect, &r, &n, x, 1, 0, wp); fmprb_init(t); fmprb_init(u); fmprb_init(v); if (reflect) { /* gamma(x) = (rf(1-x, r) * pi) / (gamma(1-x+r) sin(pi x)) */ fmprb_sub_ui(t, x, 1, wp); fmprb_neg(t, t); gamma_rising_fmprb_ui_bsplit(u, t, r, wp); fmprb_const_pi(v, wp); fmprb_mul(u, u, v, wp); fmprb_add_ui(t, t, r, wp); gamma_stirling_eval_series_fmprb(v, t, n, 0, wp); fmprb_exp(v, v, wp); fmprb_sin_pi(t, x, wp); fmprb_mul(v, v, t, wp); } else { /* gamma(x) = gamma(x+r) / rf(x,r) */ fmprb_add_ui(t, x, r, wp); gamma_stirling_eval_series_fmprb(u, t, n, 0, wp); fmprb_exp(u, u, prec); gamma_rising_fmprb_ui_bsplit(v, x, r, wp); } if (inverse) fmprb_div(y, v, u, prec); else fmprb_div(y, u, v, prec); fmprb_clear(t); fmprb_clear(u); fmprb_clear(v); } void fmprb_gamma(fmprb_t y, const fmprb_t x, long prec) { _fmprb_gamma(y, x, prec, 0); } void fmprb_rgamma(fmprb_t y, const fmprb_t x, long prec) { _fmprb_gamma(y, x, prec, 1); } void fmprb_lgamma(fmprb_t y, const fmprb_t x, long prec) { int reflect; long r, n, wp; fmprb_t t, u; wp = prec + FLINT_BIT_COUNT(prec); gamma_stirling_choose_param_fmprb(&reflect, &r, &n, x, 0, 0, wp); /* log(gamma(x)) = log(gamma(x+r)) - log(rf(x,r)) */ fmprb_init(t); fmprb_init(u); fmprb_add_ui(t, x, r, wp); gamma_stirling_eval_series_fmprb(u, t, n, 0, wp); gamma_rising_fmprb_ui_bsplit(t, x, r, wp); fmprb_log(t, t, wp); fmprb_sub(y, u, t, prec); fmprb_clear(t); fmprb_clear(u); }