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  1.   473bb95ce6b7b4e0f588ba2c1ee13efc35e4a7c7
  2.   mpn
  3.   generic
  4.   hgcd_matrix.c
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/* hgcd_matrix.c.
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   THE FUNCTIONS IN THIS FILE ARE INTERNAL WITH MUTABLE INTERFACES.  IT IS ONLY
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   SAFE TO REACH THEM THROUGH DOCUMENTED INTERFACES.  IN FACT, IT IS ALMOST
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   GUARANTEED THAT THEY'LL CHANGE OR DISAPPEAR IN A FUTURE GNU MP RELEASE.
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Copyright 2003-2005, 2008, 2012 Free Software Foundation, Inc.
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This file is part of the GNU MP Library.
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The GNU MP Library is free software; you can redistribute it and/or modify
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it under the terms of either:
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  * the GNU Lesser General Public License as published by the Free
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    Software Foundation; either version 3 of the License, or (at your
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    option) any later version.
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or
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  * the GNU General Public License as published by the Free Software
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    Foundation; either version 2 of the License, or (at your option) any
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    later version.
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or both in parallel, as here.
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The GNU MP Library is distributed in the hope that it will be useful, but
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WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
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or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
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for more details.
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You should have received copies of the GNU General Public License and the
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GNU Lesser General Public License along with the GNU MP Library.  If not,
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see https://www.gnu.org/licenses/.  */
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#include "gmp.h"
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#include "gmp-impl.h"
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#include "longlong.h"
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/* For input of size n, matrix elements are of size at most ceil(n/2)
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   - 1, but we need two limbs extra. */
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void
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mpn_hgcd_matrix_init (struct hgcd_matrix *M, mp_size_t n, mp_ptr p)
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{
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  mp_size_t s = (n+1)/2 + 1;
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  M->alloc = s;
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  M->n = 1;
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  MPN_ZERO (p, 4 * s);
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  M->p[0][0] = p;
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  M->p[0][1] = p + s;
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  M->p[1][0] = p + 2 * s;
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  M->p[1][1] = p + 3 * s;
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  M->p[0][0][0] = M->p[1][1][0] = 1;
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}
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/* Update column COL, adding in Q * column (1-COL). Temporary storage:
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 * qn + n <= M->alloc, where n is the size of the largest element in
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 * column 1 - COL. */
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void
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mpn_hgcd_matrix_update_q (struct hgcd_matrix *M, mp_srcptr qp, mp_size_t qn,
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			  unsigned col, mp_ptr tp)
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{
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  ASSERT (col < 2);
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  if (qn == 1)
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    {
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      mp_limb_t q = qp[0];
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      mp_limb_t c0, c1;
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      c0 = mpn_addmul_1 (M->p[0][col], M->p[0][1-col], M->n, q);
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      c1 = mpn_addmul_1 (M->p[1][col], M->p[1][1-col], M->n, q);
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      M->p[0][col][M->n] = c0;
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      M->p[1][col][M->n] = c1;
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      M->n += (c0 | c1) != 0;
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    }
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  else
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    {
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      unsigned row;
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      /* Carries for the unlikely case that we get both high words
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	 from the multiplication and carries from the addition. */
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      mp_limb_t c[2];
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      mp_size_t n;
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      /* The matrix will not necessarily grow in size by qn, so we
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	 need normalization in order not to overflow M. */
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      for (n = M->n; n + qn > M->n; n--)
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	{
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	  ASSERT (n > 0);
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	  if (M->p[0][1-col][n-1] > 0 || M->p[1][1-col][n-1] > 0)
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	    break;
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	}
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      ASSERT (qn + n <= M->alloc);
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      for (row = 0; row < 2; row++)
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	{
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	  if (qn <= n)
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	    mpn_mul (tp, M->p[row][1-col], n, qp, qn);
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	  else
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	    mpn_mul (tp, qp, qn, M->p[row][1-col], n);
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	  ASSERT (n + qn >= M->n);
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	  c[row] = mpn_add (M->p[row][col], tp, n + qn, M->p[row][col], M->n);
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	}
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      n += qn;
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      if (c[0] | c[1])
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	{
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	  M->p[0][col][n] = c[0];
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	  M->p[1][col][n] = c[1];
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	  n++;
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	}
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      else
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	{
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	  n -= (M->p[0][col][n-1] | M->p[1][col][n-1]) == 0;
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	  ASSERT (n >= M->n);
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	}
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      M->n = n;
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    }
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  ASSERT (M->n < M->alloc);
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}
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/* Multiply M by M1 from the right. Since the M1 elements fit in
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   GMP_NUMB_BITS - 1 bits, M grows by at most one limb. Needs
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   temporary space M->n */
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void
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mpn_hgcd_matrix_mul_1 (struct hgcd_matrix *M, const struct hgcd_matrix1 *M1,
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		       mp_ptr tp)
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{
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  mp_size_t n0, n1;
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  /* Could avoid copy by some swapping of pointers. */
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  MPN_COPY (tp, M->p[0][0], M->n);
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  n0 = mpn_hgcd_mul_matrix1_vector (M1, M->p[0][0], tp, M->p[0][1], M->n);
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  MPN_COPY (tp, M->p[1][0], M->n);
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  n1 = mpn_hgcd_mul_matrix1_vector (M1, M->p[1][0], tp, M->p[1][1], M->n);
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  /* Depends on zero initialization */
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  M->n = MAX(n0, n1);
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  ASSERT (M->n < M->alloc);
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}
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/* Multiply M by M1 from the right. Needs 3*(M->n + M1->n) + 5 limbs
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   of temporary storage (see mpn_matrix22_mul_itch). */
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void
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mpn_hgcd_matrix_mul (struct hgcd_matrix *M, const struct hgcd_matrix *M1,
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		     mp_ptr tp)
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{
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  mp_size_t n;
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  /* About the new size of M:s elements. Since M1's diagonal elements
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     are > 0, no element can decrease. The new elements are of size
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     M->n + M1->n, one limb more or less. The computation of the
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     matrix product produces elements of size M->n + M1->n + 1. But
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     the true size, after normalization, may be three limbs smaller.
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     The reason that the product has normalized size >= M->n + M1->n -
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     2 is subtle. It depends on the fact that M and M1 can be factored
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     as products of (1,1; 0,1) and (1,0; 1,1), and that we can't have
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     M ending with a large power and M1 starting with a large power of
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     the same matrix. */
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  /* FIXME: Strassen multiplication gives only a small speedup. In FFT
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     multiplication range, this function could be sped up quite a lot
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     using invariance. */
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  ASSERT (M->n + M1->n < M->alloc);
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  ASSERT ((M->p[0][0][M->n-1] | M->p[0][1][M->n-1]
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	   | M->p[1][0][M->n-1] | M->p[1][1][M->n-1]) > 0);
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  ASSERT ((M1->p[0][0][M1->n-1] | M1->p[0][1][M1->n-1]
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	   | M1->p[1][0][M1->n-1] | M1->p[1][1][M1->n-1]) > 0);
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  mpn_matrix22_mul (M->p[0][0], M->p[0][1],
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		    M->p[1][0], M->p[1][1], M->n,
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		    M1->p[0][0], M1->p[0][1],
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		    M1->p[1][0], M1->p[1][1], M1->n, tp);
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  /* Index of last potentially non-zero limb, size is one greater. */
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  n = M->n + M1->n;
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  n -= ((M->p[0][0][n] | M->p[0][1][n] | M->p[1][0][n] | M->p[1][1][n]) == 0);
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  n -= ((M->p[0][0][n] | M->p[0][1][n] | M->p[1][0][n] | M->p[1][1][n]) == 0);
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  n -= ((M->p[0][0][n] | M->p[0][1][n] | M->p[1][0][n] | M->p[1][1][n]) == 0);
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  ASSERT ((M->p[0][0][n] | M->p[0][1][n] | M->p[1][0][n] | M->p[1][1][n]) > 0);
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  M->n = n + 1;
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}
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/* Multiplies the least significant p limbs of (a;b) by M^-1.
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   Temporary space needed: 2 * (p + M->n)*/
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mp_size_t
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mpn_hgcd_matrix_adjust (const struct hgcd_matrix *M,
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			mp_size_t n, mp_ptr ap, mp_ptr bp,
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			mp_size_t p, mp_ptr tp)
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{
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  /* M^-1 (a;b) = (r11, -r01; -r10, r00) (a ; b)
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     = (r11 a - r01 b; - r10 a + r00 b */
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  mp_ptr t0 = tp;
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  mp_ptr t1 = tp + p + M->n;
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  mp_limb_t ah, bh;
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  mp_limb_t cy;
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  ASSERT (p + M->n  < n);
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  /* First compute the two values depending on a, before overwriting a */
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  if (M->n >= p)
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    {
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      mpn_mul (t0, M->p[1][1], M->n, ap, p);
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      mpn_mul (t1, M->p[1][0], M->n, ap, p);
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    }
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  else
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    {
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      mpn_mul (t0, ap, p, M->p[1][1], M->n);
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      mpn_mul (t1, ap, p, M->p[1][0], M->n);
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    }
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  /* Update a */
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  MPN_COPY (ap, t0, p);
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  ah = mpn_add (ap + p, ap + p, n - p, t0 + p, M->n);
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  if (M->n >= p)
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    mpn_mul (t0, M->p[0][1], M->n, bp, p);
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  else
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    mpn_mul (t0, bp, p, M->p[0][1], M->n);
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  cy = mpn_sub (ap, ap, n, t0, p + M->n);
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  ASSERT (cy <= ah);
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  ah -= cy;
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  /* Update b */
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  if (M->n >= p)
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    mpn_mul (t0, M->p[0][0], M->n, bp, p);
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  else
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    mpn_mul (t0, bp, p, M->p[0][0], M->n);
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  MPN_COPY (bp, t0, p);
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  bh = mpn_add (bp + p, bp + p, n - p, t0 + p, M->n);
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  cy = mpn_sub (bp, bp, n, t1, p + M->n);
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  ASSERT (cy <= bh);
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  bh -= cy;
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  if (ah > 0 || bh > 0)
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    {
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      ap[n] = ah;
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      bp[n] = bh;
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      n++;
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    }
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  else
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    {
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      /* The subtraction can reduce the size by at most one limb. */
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      if (ap[n-1] == 0 && bp[n-1] == 0)
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	n--;
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    }
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  ASSERT (ap[n-1] > 0 || bp[n-1] > 0);
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  return n;
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}

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