364 lines
11 KiB
C
364 lines
11 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) 2008, 2009 William Hart
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Copyright (C) 2010 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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static void
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__fmpz_poly_pseudo_divrem_divconquer(fmpz * Q, fmpz * R,
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ulong * d, const fmpz * A, slong lenA,
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const fmpz * B, slong lenB, const fmpz_preinvn_t inv)
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{
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if (lenB <= 16 || (lenA > 2 * lenB - 1 && lenA < 128))
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{
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_fmpz_poly_pseudo_divrem_basecase(Q, R, d, A, lenA, B, lenB, inv);
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}
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else
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{
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const slong n2 = lenB / 2;
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const slong n1 = lenB - n2;
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const fmpz * d1 = B + n2;
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const fmpz * d2 = B;
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const fmpz * d3 = B + n1;
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const fmpz * d4 = B;
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if (lenA <= lenB + n2 - 1)
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{
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fmpz *p1, *r1, *d2q1;
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fmpz *f;
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/*
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Shift A right by n1, zero the bottom n2 - 1 coeffs; call this p1
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*/
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p1 = (fmpz *) flint_malloc((lenA - n1) * sizeof(fmpz));
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{
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slong i;
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flint_mpn_zero((mp_ptr) p1, n2 - 1);
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for (i = n2 - 1; i < lenA - n1; i++)
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p1[i] = (A + n1)[i];
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}
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/*
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Compute p1 div d3, at most a 2 n2 - 1 by n2 division, leaving
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lenA - lenB + 1 <= n2 terms in the quotient
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*/
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r1 = R + n1;
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_fmpz_poly_pseudo_divrem_divconquer(Q, r1, d, p1, lenA - n1, d3, n2, inv);
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flint_free(p1);
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/*
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Push the relevant {n2 - 1} terms of the remainder to the
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top of {R, lenA}
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*/
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{
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slong i;
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for (i = n2 - 2; i >= 0; i--)
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fmpz_swap(R + lenA - (n2 - 1) + i, r1 + i);
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r1 = R + lenA - (n2 - 1);
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}
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/*
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Compute d2q1 = Q d4 of length lenA - n2, which is
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at most n1 + n2 - 1 terms
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*/
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d2q1 = R;
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_fmpz_poly_mul(d2q1, d4, n1, Q, lenA - lenB + 1);
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/*
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Compute R = L^d R', where R' is the terms of A we have not dealt,
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of which there are at most n1 + n2 - 1; that is,
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Set R to {A, n1 + n2 - 1} * f + r1 x^n1 - d2q1
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*/
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_fmpz_vec_neg(R, R, lenA - n2);
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_fmpz_vec_add(R + n1, R + n1, R + lenA - n2 + 1, lenA - lenB);
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_fmpz_vec_swap(R + lenA - n2, R + 2 * lenA - lenB + 1 - n2, n2 - (lenA - lenB + 1));
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f = R + lenB - 1;
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fmpz_pow_ui(f, B + (lenB - 1), *d);
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_fmpz_vec_scalar_addmul_fmpz(R, A, n1 + n2 - 1, f);
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}
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else if (lenA > 2 * lenB - 1)
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{
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/*
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XXX: In this case, we expect A to be modifiable
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*/
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ulong s1, s2;
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const slong shift = lenA - 2 * lenB + 1;
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fmpz * q1 = Q + shift;
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fmpz * q2 = Q;
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fmpz * r1 = R;
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fmpz *p1, *t;
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fmpz_t f;
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fmpz_init(f);
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/*
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Shift A right until it is of length 2 lenB - 1, call this p1;
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zero the bottom lenB - 1 coeffs
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*/
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p1 = (fmpz *) flint_malloc((2 * lenB - 1) * sizeof(fmpz));
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{
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slong i;
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flint_mpn_zero((mp_ptr) p1, lenB - 1);
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for (i = lenB - 1; i < 2*lenB - 1; i++)
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p1[i] = (A + shift)[i];
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}
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/*
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Set q1 to p1 div B, a 2 lenB - 1 by lenB division, so q1 ends up
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being at most length lenB; r1 is of length at most lenB - 1
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*/
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_fmpz_poly_pseudo_divrem_divconquer(q1, r1, &s1, p1, 2 * lenB - 1, B, lenB, inv);
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flint_free(p1);
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/*
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Compute t = L^s1 a2 + r1 x^shift, of length at most lenA - lenB
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since r1 is of length at most lenB - 1. Here a2 is what remains
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of A after the first lenR coefficients are removed
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*/
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t = (fmpz *) A;
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fmpz_pow_ui(f, B + (lenB - 1), s1);
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_fmpz_vec_scalar_mul_fmpz(t, A, lenA - lenB, f);
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_fmpz_vec_add(t + shift, t + shift, r1, lenB - 1);
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/*
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Compute q2 = t div B; it is a smaller division than the original
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since len(t) <= lenA - lenB, and r2 has length at most lenB - 1
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*/
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_fmpz_poly_pseudo_divrem_divconquer(q2, R, &s2, t, lenA - lenB, B, lenB, inv);
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/*
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Write out Q = L^s2 q1 x^shift + q2, of length at most
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lenB + shift. Note q2 has length at most shift since it is at
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most an lenA - lenB by lenB division; q1 cannot have length zero
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since we are doing pseudo division
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*/
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fmpz_pow_ui(f, B + (lenB - 1), s2);
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_fmpz_vec_scalar_mul_fmpz(q1, q1, lenB, f);
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*d = s1 + s2;
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fmpz_clear(f);
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}
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else /* n1 + 2 n2 - 1 < lenA <= 2 lenB - 1 */
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{
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fmpz * q1 = Q + n2;
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fmpz * q2 = Q;
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fmpz * r1 = R;
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fmpz * d2q1 = R + (n1 - 1);
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fmpz *p1, *t;
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fmpz_t f;
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ulong s1, s2;
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fmpz_init(f);
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/*
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Set p1 to the top lenA - 2 n2 coeffs of A, clearing the bottom
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n1 - 1 coeffs
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*/
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p1 = (fmpz *) flint_malloc((lenA - 2 * n2) * sizeof(fmpz));
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{
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slong i;
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flint_mpn_zero((mp_ptr) p1, n1 - 1);
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for (i = n1 - 1; i < lenA - 2 * n2; i++)
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p1[i] = (A + 2 * n2)[i];
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}
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/*
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Set q1 to p1 div d1, at most a 2 n1 - 1 by n1 division, so q1 ends
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up being of length at most n1; r1 is of length n1 - 1
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*/
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_fmpz_poly_pseudo_divrem_divconquer(q1, r1, &s1, p1, lenA - 2 * n2, d1, n1, inv);
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flint_free(p1);
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/*
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Compute d2q1 = d2q1, of length lenA - lenB
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Note lenA - lenB <= lenB - 1 <= 2 n2 and lenA - (n1 - 1) > 2 n2,
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so we can store d2q1 in the top 2 n2 coeffs of R
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*/
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if (n2 >= lenA - n1 - 2 * n2 + 1)
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_fmpz_poly_mul(d2q1, d2, n2, q1, lenA - (n1 + 2 * n2 - 1));
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else
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_fmpz_poly_mul(d2q1, q1, lenA - (n1 + 2 * n2 - 1), d2, n2);
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/*
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Compute
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t = L^s1 * (a2 x^{n1 + n2 - 1} + a3)
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+ r1 x^{2 n2} - d2q1 x^n2
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of length at most lenB + n2 - 1, since r1 is of length at most
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n1 - 1 and d2q1 is of length at most n1 + n2 - 1
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*/
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t = _fmpz_vec_init(n1 + 2 * n2 - 1);
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fmpz_pow_ui(f, B + (lenB - 1), s1);
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_fmpz_vec_scalar_mul_fmpz(t, A, n1 + 2 * n2 - 1, f);
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_fmpz_vec_add(t + 2 * n2, t + 2 * n2, r1, n1 - 1);
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_fmpz_vec_sub(t + n2, t + n2, d2q1, lenA - lenB);
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/*
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Compute q2 = t div B and set R to the remainder, at most a
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lenB + n2 - 1 by lenB division, so q2 is of length at most n2
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*/
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_fmpz_poly_pseudo_divrem_divconquer(q2, R, &s2, t, lenB + n2 - 1, B, lenB, inv);
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_fmpz_vec_clear(t, n1 + 2 * n2 - 1);
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/*
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Write Q = L^s2 q1 x^n2 + q2; note len(q1) is non-zero since
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we are performing pseudo division
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*/
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fmpz_pow_ui(f, B + (lenB - 1), s2);
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_fmpz_vec_scalar_mul_fmpz(q1, q1, lenA - lenB + 1 - n2, f);
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*d = s1 + s2;
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fmpz_clear(f);
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}
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}
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}
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void
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_fmpz_poly_pseudo_divrem_divconquer(fmpz * Q, fmpz * R,
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ulong * d, const fmpz * A, slong lenA,
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const fmpz * B, slong lenB, const fmpz_preinvn_t inv)
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{
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if (lenA <= 2 * lenB - 1)
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{
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__fmpz_poly_pseudo_divrem_divconquer(Q, R, d, A, lenA, B, lenB, inv);
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}
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else /* lenA > 2 * lenB - 1 */
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{
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fmpz *S = _fmpz_vec_init(lenA);
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_fmpz_vec_set(S, A, lenA);
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__fmpz_poly_pseudo_divrem_divconquer(Q, R, d, S, lenA, B, lenB, inv);
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_fmpz_vec_clear(S, lenA);
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}
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}
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void
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fmpz_poly_pseudo_divrem_divconquer(fmpz_poly_t Q, fmpz_poly_t R,
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ulong * d, const fmpz_poly_t A,
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const fmpz_poly_t B)
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{
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slong lenq, lenr;
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fmpz *q, *r;
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if (B->length == 0)
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{
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flint_printf("Exception (fmpz_poly_pseudo_divrem_divconquer). Division by zero.\n");
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abort();
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}
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if (Q == R)
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{
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flint_printf("Exception (fmpz_poly_pseudo_divrem_divconquer). \n"
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"Output arguments Q and R may not be aliased.\n");
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abort();
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}
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if (A->length < B->length)
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{
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fmpz_poly_zero(Q);
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fmpz_poly_set(R, A);
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*d = 0;
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return;
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}
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lenq = A->length - B->length + 1;
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lenr = A->length;
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if (Q == A || Q == B)
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q = _fmpz_vec_init(lenq);
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else
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{
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fmpz_poly_fit_length(Q, lenq);
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q = Q->coeffs;
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}
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if (R == A || R == B)
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r = _fmpz_vec_init(lenr);
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else
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{
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fmpz_poly_fit_length(R, lenr);
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r = R->coeffs;
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}
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_fmpz_poly_pseudo_divrem_divconquer(q, r, d, A->coeffs, A->length,
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B->coeffs, B->length, NULL);
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lenr = B->length - 1;
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FMPZ_VEC_NORM(r, lenr);
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if (Q == A || Q == B)
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{
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_fmpz_vec_clear(Q->coeffs, Q->alloc);
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Q->coeffs = q;
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Q->alloc = lenq;
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Q->length = lenq;
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}
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else
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_fmpz_poly_set_length(Q, lenq);
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if (R == A || R == B)
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{
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_fmpz_vec_clear(R->coeffs, R->alloc);
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R->coeffs = r;
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R->alloc = A->length;
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R->length = lenr;
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}
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else
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_fmpz_poly_set_length(R, lenr);
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}
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