/* Copyright (C) 2008, 2009, 2011 William Hart Copyright (C) 2010 Sebastian Pancratz This file is part of FLINT. FLINT 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 #include #include "flint.h" #include "nmod_vec.h" #include "nmod_poly.h" void _nmod_poly_div_divconquer_recursive(mp_ptr Q, mp_ptr W, mp_ptr V, mp_srcptr A, mp_srcptr B, slong lenB, nmod_t mod) { if (lenB <= NMOD_DIV_DIVCONQUER_CUTOFF) { _nmod_poly_div_basecase(Q, V, A, 2 * lenB - 1, B, lenB, mod); } else { const slong n2 = lenB / 2; const slong n1 = lenB - n2; mp_ptr W1 = W; mp_ptr W2 = W + n2; mp_srcptr p1 = A + 2 * n2; mp_srcptr p2; mp_srcptr d1 = B + n2; mp_srcptr d2 = B; mp_srcptr d3 = B + n1; mp_ptr q1 = Q + n2; mp_ptr q2 = Q; mp_ptr d1q1 = q2 + n2 - (n1 - 1); mp_ptr d2q1, t; /* Set q1 to p1 div d1, a 2 n1 - 1 by n1 division so q1 ends up being of length n1; low(d1q1) = d1 q1 is of length n1 - 1 */ _nmod_poly_divrem_divconquer_recursive(q1, d1q1, W1, V, p1, d1, n1, mod); /* Compute bottom n1 + n2 - 1 coeffs of d2q1 = d2 q1 */ d2q1 = W1; _nmod_poly_mullow(d2q1, q1, n1, d2, n2, n1 + n2 - 1, mod); /* Compute dq1 = d1 q1 x^n2 + d2 q1, of length n1 + n2 - 1 Split it into a segment of length n1 - 1 at which is ignored and a piece of length n2 at BQ. */ if (n2 > n1 - 1) W1[0] = d2q1[n1 - 1]; _nmod_vec_add(W1 + n2 - (n1 - 1), d1q1, d2q1 + n2, n1 - 1, mod); /* Compute t = A/x^n2 - dq1, which has length 2 n1 + n2 - 1, but we are not interested in the top n1 coeffs as they will be zero, so this has effective length n1 + n2 - 1 For the following division, we want to set {p2, 2 n2 - 1} to the top 2 n2 - 1 coeffs of this Since the bottom n2 - 1 coeffs of p2 are irrelevant for the division, we in fact set {t, n2} to the relevant coeffs */ t = W1; _nmod_vec_sub(t, A + n2 + (n1 - 1), t, n2, mod); p2 = t - (n2 - 1); /* Compute q2 = t div d3, a 2 n2 - 1 by n2 division, so q2 will have length n2; */ _nmod_poly_div_divconquer_recursive(q2, W2, V, p2, d3, n2, mod); /* Note Q = q1 x^n2 + q2 */ } }