/*============================================================================= 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) 2011 William Hart Copyright (C) 2011 Sebastian Pancratz ******************************************************************************/ #include #include #include #include "flint.h" #include "nmod_poly.h" #include "ulong_extras.h" #include "mpn_extras.h" #define __mul(C, lenC, A, lenA, B, lenB) \ do { \ if ((lenA) != 0 && (lenB) != 0) \ { \ if ((lenA) >= (lenB)) \ _nmod_poly_mul((C), (A), (lenA), (B), (lenB), mod); \ else \ _nmod_poly_mul((C), (B), (lenB), (A), (lenA), mod); \ (lenC) = (lenA) + (lenB) - 1; \ } \ else \ { \ (lenC) = 0; \ } \ } while (0) int main(void) { int i, result; FLINT_TEST_INIT(state); flint_printf("hgcd...."); fflush(stdout); /* Find coprime polys, multiply by another poly and check the GCD is that poly */ for (i = 0; i < 100 * flint_test_multiplier(); i++) { nmod_poly_t a, b, c, d, c1, d1, s, t; mp_ptr M[4]; slong lenM[4]; slong sgnM; mp_limb_t n = n_randprime(state, FLINT_BITS, 0); nmod_poly_init(a, n); nmod_poly_init(b, n); nmod_poly_init(c, n); nmod_poly_init(d, n); nmod_poly_init(c1, n); nmod_poly_init(d1, n); nmod_poly_init(s, n); nmod_poly_init(t, n); do { nmod_poly_randtest_not_zero(a, state, n_randint(state, 800) + 1); nmod_poly_randtest_not_zero(b, state, n_randint(state, 800) + 1); } while (a->length == b->length); if (a->length < b->length) nmod_poly_swap(a, b); M[0] = _nmod_vec_init(a->length); M[1] = _nmod_vec_init(a->length); M[2] = _nmod_vec_init(a->length); M[3] = _nmod_vec_init(a->length); nmod_poly_fit_length(c, a->length); nmod_poly_fit_length(d, b->length); sgnM = _nmod_poly_hgcd(M, lenM, c->coeffs, &(c->length), d->coeffs, &(d->length), a->coeffs, a->length, b->coeffs, b->length, a->mod); nmod_poly_fit_length(s, 2 * a->length); nmod_poly_fit_length(t, 2 * a->length); /* [c1,d1] := sgnM * M^{-1} [a,b] */ { const nmod_t mod = a->mod; MPN_SWAP(M[0], lenM[0], M[3], lenM[3]); _nmod_vec_neg(M[1], M[1], lenM[1], mod); _nmod_vec_neg(M[2], M[2], lenM[2], mod); __mul(s->coeffs, s->length, M[0], lenM[0], a->coeffs, a->length); __mul(t->coeffs, t->length, M[1], lenM[1], b->coeffs, b->length); nmod_poly_add(c1, s, t); __mul(s->coeffs, s->length, M[2], lenM[2], a->coeffs, a->length); __mul(t->coeffs, t->length, M[3], lenM[3], b->coeffs, b->length); nmod_poly_add(d1, s, t); } if (sgnM < 0) { nmod_poly_neg(c1, c1); nmod_poly_neg(d1, d1); } result = (nmod_poly_equal(c, c1) && nmod_poly_equal(d, d1)); if (!result) { flint_printf("FAIL:\n"); flint_printf("a = "), nmod_poly_print(a), flint_printf("\n\n"); flint_printf("b = "), nmod_poly_print(b), flint_printf("\n\n"); flint_printf("c = "), nmod_poly_print(c), flint_printf("\n\n"); flint_printf("d = "), nmod_poly_print(d), flint_printf("\n\n"); flint_printf("c1 = "), nmod_poly_print(c1), flint_printf("\n\n"); flint_printf("d1 = "), nmod_poly_print(d1), flint_printf("\n\n"); abort(); } nmod_poly_clear(a); nmod_poly_clear(b); nmod_poly_clear(c); nmod_poly_clear(d); nmod_poly_clear(c1); nmod_poly_clear(d1); nmod_poly_clear(s); nmod_poly_clear(t); _nmod_vec_clear(M[0]); _nmod_vec_clear(M[1]); _nmod_vec_clear(M[2]); _nmod_vec_clear(M[3]); } FLINT_TEST_CLEANUP(state); flint_printf("PASS\n"); return 0; } #undef __mul