/* Copyright (C) 2016 Fredrik Johansson This file is part of Arb. Arb is free software: you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License (LGPL) as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) any later version. See . */ #include "arb.h" void arb_bernoulli_poly_ui(arb_t res, ulong n, const arb_t x, slong prec) { arb_t s, t, c, x2; ulong m, k; int negate; if (n == 0) { arb_one(res); return; } if (n == 1) { arb_mul_2exp_si(res, x, 1); arb_sub_ui(res, res, 1, prec); arb_mul_2exp_si(res, res, -1); return; } /* small integer x */ if (arb_is_int(x) && arf_cmpabs_ui(arb_midref(x), n) < 0 && n < WORD_MAX) { if (arf_sgn(arb_midref(x)) >= 0) { m = arf_get_si(arb_midref(x), ARF_RND_DOWN); negate = 0; } else { m = UWORD(1) - arf_get_si(arb_midref(x), ARF_RND_DOWN); negate = n % 2; } arb_init(t); arb_zero(res); /* todo: use a dedicated power sum function */ for (k = 1; k < m; k++) { arb_ui_pow_ui(t, k, n - 1, prec); arb_add(res, res, t, prec); } arb_mul_ui(res, res, n, prec); arb_bernoulli_ui(t, n, prec); arb_add(res, res, t, prec); if (negate) arb_neg(res, res); arb_clear(t); return; } /* assuming small n simplifies the code that follows */ if (n >> (FLINT_BITS / 2) || !arb_is_finite(x)) { arb_indeterminate(res); return; } arb_init(s); arb_init(t); arb_init(c); arb_init(x2); arb_mul(x2, x, x, prec); /* s = x^2 - x n / 2 */ arb_mul_ui(s, x, n, prec); arb_mul_2exp_si(s, s, -1); arb_sub(s, x2, s, prec); /* c = n (n-1) / 2; s = s + c / 6 */ arb_set_ui(c, n * (n - 1)); arb_mul_2exp_si(c, c, -1); arb_div_ui(t, c, 6, prec); arb_add(s, s, t, prec); for (k = 4; k <= n; k += 2) { /* c = binomial(n,k) */ arb_mul_ui(c, c, (n + 1 - k) * (n + 2 - k), prec); arb_div_ui(c, c, k * (k - 1), prec); /* s = s x^2 + b_k c */ arb_mul(s, s, x2, prec); arb_bernoulli_ui(t, k, prec); arb_addmul(s, t, c, prec); } if (n >= 3 && n % 2) arb_mul(s, s, x, prec); arb_swap(res, s); arb_clear(s); arb_clear(t); arb_clear(c); arb_clear(x2); }