/* Copyright (C) 2013 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_poly.h" void _arb_poly_evaluate2_acb_rectangular(acb_t y, acb_t z, arb_srcptr poly, slong len, const acb_t x, slong prec) { slong i, j, m, r; acb_ptr xs; acb_t s, t; arb_t c; if (len < 3) { if (len == 0) { acb_zero(y); acb_zero(z); } else if (len == 1) { acb_set_round_arb(y, poly + 0, prec); acb_zero(z); } else if (len == 2) { acb_mul_arb(y, x, poly + 1, prec); acb_add_arb(y, y, poly + 0, prec); acb_set_round_arb(z, poly + 1, prec); } return; } m = n_sqrt(len) + 1; m *= 1; r = (len + m - 1) / m; xs = _acb_vec_init(m + 1); acb_init(s); acb_init(t); arb_init(c); _acb_vec_set_powers(xs, x, m + 1, prec); acb_set_arb(y, poly + (r - 1) * m); for (j = 1; (r - 1) * m + j < len; j++) acb_addmul_arb(y, xs + j, poly + (r - 1) * m + j, prec); for (i = r - 2; i >= 0; i--) { acb_set_arb(s, poly + i * m); for (j = 1; j < m; j++) acb_addmul_arb(s, xs + j, poly + i * m + j, prec); acb_mul(y, y, xs + m, prec); acb_add(y, y, s, prec); } len -= 1; r = (len + m - 1) / m; arb_mul_ui(acb_realref(z), poly + (r - 1) * m + 1, (r - 1) * m + 1, ARF_PREC_EXACT); arb_zero(acb_imagref(z)); for (j = 1; (r - 1) * m + j < len; j++) { arb_mul_ui(c, poly + (r - 1) * m + j + 1, (r - 1) * m + j + 1, ARF_PREC_EXACT); acb_addmul_arb(z, xs + j, c, prec); } for (i = r - 2; i >= 0; i--) { arb_mul_ui(acb_realref(s), poly + i * m + 1, i * m + 1, ARF_PREC_EXACT); arb_zero(acb_imagref(s)); for (j = 1; j < m; j++) { arb_mul_ui(c, poly + i * m + j + 1, i * m + j + 1, ARF_PREC_EXACT); acb_addmul_arb(s, xs + j, c, prec); } acb_mul(z, z, xs + m, prec); acb_add(z, z, s, prec); } _acb_vec_clear(xs, m + 1); acb_clear(s); acb_clear(t); arb_clear(c); } void arb_poly_evaluate2_acb_rectangular(acb_t r, acb_t s, const arb_poly_t f, const acb_t a, slong prec) { _arb_poly_evaluate2_acb_rectangular(r, s, f->coeffs, f->length, a, prec); }