/*============================================================================= This file is part of FLINT. FLINT 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. FLINT 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 FLINT; if not, write to the Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA =============================================================================*/ /****************************************************************************** Copyright (C) 2010 William Hart ******************************************************************************/ #include #include #include "flint.h" #include "nmod_vec.h" #include "nmod_poly.h" #include "ulong_extras.h" /* Assumes poly1 and poly2 are not length 0. */ void _nmod_poly_mulhigh_classical(mp_ptr res, mp_srcptr poly1, slong len1, mp_srcptr poly2, slong len2, slong start, nmod_t mod) { slong m, n; _nmod_vec_zero(res, start); if (len1 == 1) /* Special case if the length of both inputs is 1 */ { if (start == 0) res[0] = n_mulmod2_preinv(poly1[0], poly2[0], mod.n, mod.ninv); } else /* Ordinary case */ { slong i; slong bits = FLINT_BITS - (slong) mod.norm; slong log_len = FLINT_BIT_COUNT(len2); if (2 * bits + log_len <= FLINT_BITS) { /* Set res[i] = poly1[i]*poly2[0] */ if (start < len1) mpn_mul_1(res + start, poly1 + start, len1 - start, poly2[0]); if (len2 != 1) { /* Set res[i+len1-1] = in1[len1-1]*in2[i] */ m = FLINT_MAX(len1 - 1, start); mpn_mul_1(res + m, poly2 + m - len1 + 1, len2 - 1 + len1 - m, poly1[len1 - 1]); /* out[i+j] += in1[i]*in2[j] */ m = FLINT_MAX(start, len2 - 1); for (i = m - len2 + 1; i < len1 - 1; i++) { n = FLINT_MAX(i + 1, start); mpn_addmul_1(res + n, poly2 + n - i, len2 + i - n, poly1[i]); } } _nmod_vec_reduce(res, res, len1 + len2 - 1, mod); } else { /* Set res[i] = poly1[i]*poly2[0] */ if (start < len1) _nmod_vec_scalar_mul_nmod(res + start, poly1 + start, len1 - start, poly2[0], mod); if (len2 == 1) return; /* Set res[i+len1-1] = in1[len1-1]*in2[i] */ m = FLINT_MAX(len1 - 1, start); _nmod_vec_scalar_mul_nmod(res + m, poly2 + m - len1 + 1, len2 - 1 + len1 - m, poly1[len1 - 1], mod); /* out[i+j] += in1[i]*in2[j] */ m = FLINT_MAX(start, len2 - 1); for (i = m - len2 + 1; i < len1 - 1; i++) { n = FLINT_MAX(i + 1, start); _nmod_vec_scalar_addmul_nmod(res + n, poly2 + n - i, len2 + i - n, poly1[i], mod); } } } } void nmod_poly_mulhigh_classical(nmod_poly_t res, const nmod_poly_t poly1, const nmod_poly_t poly2, slong start) { slong len_out = poly1->length + poly2->length - 1; if (poly1->length == 0 || poly2->length == 0 || start >= len_out) { nmod_poly_zero(res); return; } if (res == poly1 || res == poly2) { nmod_poly_t temp; nmod_poly_init2_preinv(temp, poly1->mod.n, poly1->mod.ninv, len_out); if (poly1->length >= poly2->length) _nmod_poly_mulhigh_classical(temp->coeffs, poly1->coeffs, poly1->length, poly2->coeffs, poly2->length, start, poly1->mod); else _nmod_poly_mulhigh_classical(temp->coeffs, poly2->coeffs, poly2->length, poly1->coeffs, poly1->length, start, poly1->mod); nmod_poly_swap(res, temp); nmod_poly_clear(temp); } else { nmod_poly_fit_length(res, len_out); if (poly1->length >= poly2->length) _nmod_poly_mulhigh_classical(res->coeffs, poly1->coeffs, poly1->length, poly2->coeffs, poly2->length, start, poly1->mod); else _nmod_poly_mulhigh_classical(res->coeffs, poly2->coeffs, poly2->length, poly1->coeffs, poly1->length, start, poly1->mod); } res->length = len_out; _nmod_poly_normalise(res); }