291 lines
8.0 KiB
C
291 lines
8.0 KiB
C
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/*=============================================================================
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This file is part of FLINT.
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FLINT is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 2 of the License, or
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(at your option) any later version.
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FLINT is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with FLINT; if not, write to the Free Software
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Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
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=============================================================================*/
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/******************************************************************************
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Copyright (C) 2011 Andy Novocin
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Copyright (C) 2011 Sebastian Pancratz
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******************************************************************************/
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#include <stdlib.h>
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#include "fmpz_poly.h"
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#define TRACE_ZASSENHAUS 0
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/*
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Let $f$ be a polynomial of degree $m = \deg(f) \geq 2$.
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If another polynomial $g$ divides $f$ then, for all
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$0 \leq j \leq \deg(g)$,
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\begin{equation*}
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\abs{b_j} \leq \binom{n-1}{j} \abs{f} + \binom{n-1}{j-1} \abs{a_m}
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\end{equation*}
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where $\abs{f}$ denotes the $2$-norm of $f$. This bound
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is due to Mignotte, see e.g., Cohen p.\ 134.
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This function sets $B$ such that, for all $0 \leq j \leq \deg(g)$,
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$\abs{b_j} \leq B$.
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Consequently, when proceeding with Hensel lifting, we
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proceed to choose an $a$ such that $p^a \geq 2 B + 1$,
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e.g., $a = \ceil{\log_p(2B + 1)}$.
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Note that the formula degenerates for $j = 0$ and $j = n$
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and so in this case we use that the leading (resp.\ constant)
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term of $g$ divides the leading (resp.\ constant) term of $f$.
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*/
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static void _fmpz_poly_factor_mignotte(fmpz_t B, const fmpz *f, slong m)
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{
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slong j;
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fmpz_t b, f2, lc, s, t;
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fmpz_init(b);
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fmpz_init(f2);
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fmpz_init(lc);
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fmpz_init(s);
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fmpz_init(t);
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for (j = 0; j <= m; j++)
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fmpz_addmul(f2, f + j, f + j);
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fmpz_sqrt(f2, f2);
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fmpz_add_ui(f2, f2, 1);
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fmpz_abs(lc, f + m);
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fmpz_abs(B, f + 0);
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/* We have $b = \binom{m-1}{j-1}$ on loop entry and
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$b = \binom{m-1}{j}$ on exit. */
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fmpz_set_ui(b, m-1);
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for (j = 1; j < m; j++)
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{
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fmpz_mul(t, b, lc);
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fmpz_mul_ui(b, b, m - j);
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fmpz_divexact_ui(b, b, j);
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fmpz_mul(s, b, f2);
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fmpz_add(s, s, t);
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if (fmpz_cmp(B, s) < 0)
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fmpz_set(B, s);
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}
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if (fmpz_cmp(B, lc) < 0)
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fmpz_set(B, lc);
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fmpz_clear(b);
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fmpz_clear(f2);
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fmpz_clear(lc);
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fmpz_clear(s);
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fmpz_clear(t);
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}
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static void fmpz_poly_factor_mignotte(fmpz_t B, const fmpz_poly_t f)
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{
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_fmpz_poly_factor_mignotte(B, f->coeffs, f->length - 1);
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}
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void _fmpz_poly_factor_zassenhaus(fmpz_poly_factor_t final_fac,
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slong exp, const fmpz_poly_t f, slong cutoff)
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{
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const slong lenF = f->length;
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#if TRACE_ZASSENHAUS == 1
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flint_printf("\n[Zassenhaus]\n");
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flint_printf("|f = "), fmpz_poly_print(f), flint_printf("\n");
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#endif
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if (lenF == 2)
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{
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fmpz_poly_factor_insert(final_fac, f, exp);
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}
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else
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{
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slong i;
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slong r = lenF;
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mp_limb_t p = 2;
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nmod_poly_t d, g, t;
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nmod_poly_factor_t fac;
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nmod_poly_factor_init(fac);
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nmod_poly_init_preinv(t, 1, 0);
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nmod_poly_init_preinv(d, 1, 0);
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nmod_poly_init_preinv(g, 1, 0);
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for (i = 0; i < 3; i++)
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{
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for ( ; ; p = n_nextprime(p, 0))
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{
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nmod_t mod;
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nmod_init(&mod, p);
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d->mod = mod;
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g->mod = mod;
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t->mod = mod;
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fmpz_poly_get_nmod_poly(t, f);
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if (t->length == lenF)
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{
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nmod_poly_derivative(d, t);
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nmod_poly_gcd(g, t, d);
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if (nmod_poly_is_one(g))
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{
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nmod_poly_factor_t temp_fac;
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nmod_poly_factor_init(temp_fac);
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nmod_poly_factor(temp_fac, t);
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if (temp_fac->num <= r)
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{
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r = temp_fac->num;
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nmod_poly_factor_set(fac, temp_fac);
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}
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nmod_poly_factor_clear(temp_fac);
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break;
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}
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}
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}
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p = n_nextprime(p, 0);
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}
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nmod_poly_clear(d);
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nmod_poly_clear(g);
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nmod_poly_clear(t);
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if (r > cutoff)
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{
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flint_printf("Exception (fmpz_poly_factor_zassenhaus). r > cutoff.\n");
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nmod_poly_factor_clear(fac);
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abort();
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}
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else if (r == 1)
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{
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fmpz_poly_factor_insert(final_fac, f, exp);
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}
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else
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{
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slong a;
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fmpz_poly_factor_t lifted_fac;
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fmpz_poly_factor_init(lifted_fac);
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p = (fac->p + 0)->mod.n;
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{
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fmpz_t B;
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fmpz_init(B);
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fmpz_poly_factor_mignotte(B, f);
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fmpz_mul_ui(B, B, 2);
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fmpz_add_ui(B, B, 1);
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a = fmpz_clog_ui(B, p);
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fmpz_clear(B);
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}
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/* TODO: Check if use_Hoeij_Novocin and try smaller a. */
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fmpz_poly_hensel_lift_once(lifted_fac, f, fac, a);
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#if TRACE_ZASSENHAUS == 1
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flint_printf("|p = %wd, a = %wd\n", p, a);
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flint_printf("|Pre hensel lift factorisation (nmod_poly):\n");
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nmod_poly_factor_print(fac);
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flint_printf("|Post hensel lift factorisation (fmpz_poly):\n");
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fmpz_poly_factor_print(lifted_fac);
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#endif
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/* Recombination */
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{
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fmpz_t P;
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fmpz_init(P);
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fmpz_set_ui(P, p);
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fmpz_pow_ui(P, P, a);
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fmpz_poly_factor_zassenhaus_recombination(final_fac, lifted_fac, f, P, exp);
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fmpz_clear(P);
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}
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fmpz_poly_factor_clear(lifted_fac);
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}
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nmod_poly_factor_clear(fac);
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}
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}
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void fmpz_poly_factor_zassenhaus(fmpz_poly_factor_t fac, const fmpz_poly_t G)
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{
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const slong lenG = G->length;
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fmpz_poly_t g;
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if (lenG == 0)
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{
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fmpz_set_ui(&fac->c, 0);
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return;
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}
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if (lenG == 1)
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{
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fmpz_set(&fac->c, G->coeffs);
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return;
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}
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fmpz_poly_init(g);
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if (lenG == 2)
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{
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fmpz_poly_content(&fac->c, G);
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if (fmpz_sgn(fmpz_poly_lead(G)) < 0)
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fmpz_neg(&fac->c, &fac->c);
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fmpz_poly_scalar_divexact_fmpz(g, G, &fac->c);
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fmpz_poly_factor_insert(fac, g, 1);
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}
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else
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{
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slong j, k;
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fmpz_poly_factor_t sq_fr_fac;
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/* Does a presearch for a factor of form x^k */
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for (k = 0; fmpz_is_zero(G->coeffs + k); k++) ;
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if (k != 0)
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{
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fmpz_poly_t t;
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fmpz_poly_init(t);
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fmpz_poly_set_coeff_ui(t, 1, 1);
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fmpz_poly_factor_insert(fac, t, k);
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fmpz_poly_clear(t);
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}
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fmpz_poly_shift_right(g, G, k);
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/* Could make other tests for x-1 or simple things
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maybe take advantage of the composition algorithm */
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fmpz_poly_factor_init(sq_fr_fac);
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fmpz_poly_factor_squarefree(sq_fr_fac, g);
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fmpz_set(&fac->c, &sq_fr_fac->c);
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/* Factor each square-free part */
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for (j = 0; j < sq_fr_fac->num; j++)
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_fmpz_poly_factor_zassenhaus(fac, sq_fr_fac->exp[j], sq_fr_fac->p + j, 10);
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fmpz_poly_factor_clear(sq_fr_fac);
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}
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fmpz_poly_clear(g);
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}
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#undef TRACE_ZASSENHAUS
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