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openwrt-packages-dist/libs/nettle/patches/0001-Updated-mini-gmp.patch

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Added nettle library
10 years ago
 
  1. From 57700c26d73cf7fa6f5cfaec1145eccf388acab9 Mon Sep 17 00:00:00 2001
  2. From: Nikos Mavrogiannopoulos <nmav@gnutls.org>
  3. Date: Sun, 9 Mar 2014 11:27:42 +0100
  4. Subject: [PATCH 1/5] Updated mini-gmp
  5. 

  6. ---

  7.  mini-gmp.c | 890 +++++++++++++++++++++++++++++++++++++++----------------------
  8.  mini-gmp.h |  55 +++-
  9.  2 files changed, 618 insertions(+), 327 deletions(-)
  10. 

  11. diff --git a/mini-gmp.c b/mini-gmp.c

  12. index 8b6f070..766df30 100644

  13. --- a/mini-gmp.c

  14. +++ b/mini-gmp.c

  15. @@ -2,24 +2,33 @@

  16.  
  17.     Contributed to the GNU project by Niels Möller
  18.  
  19. -Copyright 1991, 1992, 1993, 1994, 1995, 1996, 1997, 1999, 2000, 2001,

  20. -2002, 2003, 2004, 2005, 2006, 2007, 2008, 2009, 2010, 2011, 2012, 2013

  21. -Free Software Foundation, Inc.

  22. +Copyright 1991-1997, 1999-2014 Free Software Foundation, Inc.

  23.  
  24.  This file is part of the GNU MP Library.
  25.  
  26.  The GNU MP Library is free software; you can redistribute it and/or modify
  27. -it under the terms of the GNU Lesser General Public License as published by

  28. -the Free Software Foundation; either version 3 of the License, or (at your

  29. -option) any later version.

  30. +it under the terms of either:

  31. +

  32. +  * the GNU Lesser General Public License as published by the Free

  33. +    Software Foundation; either version 3 of the License, or (at your

  34. +    option) any later version.

  35. +

  36. +or

  37. +

  38. +  * the GNU General Public License as published by the Free Software

  39. +    Foundation; either version 2 of the License, or (at your option) any

  40. +    later version.

  41. +

  42. +or both in parallel, as here.

  43.  
  44.  The GNU MP Library is distributed in the hope that it will be useful, but
  45.  WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
  46. -or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU Lesser General Public

  47. -License for more details.

  48. +or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License

  49. +for more details.

  50.  
  51. -You should have received a copy of the GNU Lesser General Public License

  52. -along with the GNU MP Library.  If not, see http://www.gnu.org/licenses/.  */

  53. +You should have received copies of the GNU General Public License and the

  54. +GNU Lesser General Public License along with the GNU MP Library.  If not,

  55. +see https://www.gnu.org/licenses/.  */

  56.  
  57.  /* NOTE: All functions in this file which are not declared in
  58.     mini-gmp.h are internal, and are not intended to be compatible
  59. @@ -222,11 +231,13 @@ along with the GNU MP Library.  If not, see http://www.gnu.org/licenses/.  */

  60.    } while (0)
  61.  #define MPZ_SRCPTR_SWAP(x, y)						\
  62.    do {									\
  63. -    mpz_srcptr __mpz_srcptr_swap__tmp = (x);			\

  64. +    mpz_srcptr __mpz_srcptr_swap__tmp = (x);				\

  65.      (x) = (y);								\
  66.      (y) = __mpz_srcptr_swap__tmp;					\
  67.    } while (0)
  68.  
  69. +const int mp_bits_per_limb = GMP_LIMB_BITS;

  70. +

  71.  
  72.  /* Memory allocation and other helper functions. */
  73.  static void
  74. @@ -342,12 +353,10 @@ mpn_copyd (mp_ptr d, mp_srcptr s, mp_size_t n)

  75.  int
  76.  mpn_cmp (mp_srcptr ap, mp_srcptr bp, mp_size_t n)
  77.  {
  78. -  for (; n > 0; n--)

  79. +  while (--n >= 0)

  80.      {
  81. -      if (ap[n-1] < bp[n-1])

  82. -	return -1;

  83. -      else if (ap[n-1] > bp[n-1])

  84. -	return 1;

  85. +      if (ap[n] != bp[n])

  86. +	return ap[n] > bp[n] ? 1 : -1;

  87.      }
  88.    return 0;
  89.  }
  90. @@ -355,10 +364,8 @@ mpn_cmp (mp_srcptr ap, mp_srcptr bp, mp_size_t n)

  91.  static int
  92.  mpn_cmp4 (mp_srcptr ap, mp_size_t an, mp_srcptr bp, mp_size_t bn)
  93.  {
  94. -  if (an > bn)

  95. -    return 1;

  96. -  else if (an < bn)

  97. -    return -1;

  98. +  if (an != bn)

  99. +    return an < bn ? -1 : 1;

  100.    else
  101.      return mpn_cmp (ap, bp, an);
  102.  }
  103. @@ -373,20 +380,31 @@ mpn_normalized_size (mp_srcptr xp, mp_size_t n)

  104.  
  105.  #define mpn_zero_p(xp, n) (mpn_normalized_size ((xp), (n)) == 0)
  106.  
  107. +void

  108. +mpn_zero (mp_ptr rp, mp_size_t n)

  109. +{

  110. +  mp_size_t i;

  111. +

  112. +  for (i = 0; i < n; i++)

  113. +    rp[i] = 0;

  114. +}

  115. +

  116.  mp_limb_t
  117.  mpn_add_1 (mp_ptr rp, mp_srcptr ap, mp_size_t n, mp_limb_t b)
  118.  {
  119.    mp_size_t i;
  120.  
  121.    assert (n > 0);
  122. -

  123. -  for (i = 0; i < n; i++)

  124. +  i = 0;

  125. +  do

  126.      {
  127.        mp_limb_t r = ap[i] + b;
  128.        /* Carry out */
  129.        b = (r < b);
  130.        rp[i] = r;
  131.      }
  132. +  while (++i < n);

  133. +

  134.    return b;
  135.  }
  136.  
  137. @@ -429,7 +447,8 @@ mpn_sub_1 (mp_ptr rp, mp_srcptr ap, mp_size_t n, mp_limb_t b)

  138.  
  139.    assert (n > 0);
  140.  
  141. -  for (i = 0; i < n; i++)

  142. +  i = 0;

  143. +  do

  144.      {
  145.        mp_limb_t a = ap[i];
  146.        /* Carry out */
  147. @@ -437,6 +456,8 @@ mpn_sub_1 (mp_ptr rp, mp_srcptr ap, mp_size_t n, mp_limb_t b)

  148.        rp[i] = a - b;
  149.        b = cy;
  150.      }
  151. +  while (++i < n);

  152. +

  153.    return b;
  154.  }
  155.  
  156. @@ -602,7 +623,7 @@ mpn_lshift (mp_ptr rp, mp_srcptr up, mp_size_t n, unsigned int cnt)

  157.    retval = low_limb >> tnc;
  158.    high_limb = (low_limb << cnt);
  159.  
  160. -  for (i = n - 1; i != 0; i--)

  161. +  for (i = n; --i != 0;)

  162.      {
  163.        low_limb = *--up;
  164.        *--rp = high_limb | (low_limb >> tnc);
  165. @@ -630,7 +651,7 @@ mpn_rshift (mp_ptr rp, mp_srcptr up, mp_size_t n, unsigned int cnt)

  166.    retval = (high_limb << tnc);
  167.    low_limb = high_limb >> cnt;
  168.  
  169. -  for (i = n - 1; i != 0; i--)

  170. +  for (i = n; --i != 0;)

  171.      {
  172.        high_limb = *up++;
  173.        *rp++ = low_limb | (high_limb << tnc);
  174. @@ -641,6 +662,46 @@ mpn_rshift (mp_ptr rp, mp_srcptr up, mp_size_t n, unsigned int cnt)

  175.    return retval;
  176.  }
  177.  
  178. +static mp_bitcnt_t

  179. +mpn_common_scan (mp_limb_t limb, mp_size_t i, mp_srcptr up, mp_size_t un,

  180. +		 mp_limb_t ux)

  181. +{

  182. +  unsigned cnt;

  183. +

  184. +  assert (ux == 0 || ux == GMP_LIMB_MAX);

  185. +  assert (0 <= i && i <= un );

  186. +

  187. +  while (limb == 0)

  188. +    {

  189. +      i++;

  190. +      if (i == un)

  191. +	return (ux == 0 ? ~(mp_bitcnt_t) 0 : un * GMP_LIMB_BITS);

  192. +      limb = ux ^ up[i];

  193. +    }

  194. +  gmp_ctz (cnt, limb);

  195. +  return (mp_bitcnt_t) i * GMP_LIMB_BITS + cnt;

  196. +}

  197. +

  198. +mp_bitcnt_t

  199. +mpn_scan1 (mp_srcptr ptr, mp_bitcnt_t bit)

  200. +{

  201. +  mp_size_t i;

  202. +  i = bit / GMP_LIMB_BITS;

  203. +

  204. +  return mpn_common_scan ( ptr[i] & (GMP_LIMB_MAX << (bit % GMP_LIMB_BITS)),

  205. +			  i, ptr, i, 0);

  206. +}

  207. +

  208. +mp_bitcnt_t

  209. +mpn_scan0 (mp_srcptr ptr, mp_bitcnt_t bit)

  210. +{

  211. +  mp_size_t i;

  212. +  i = bit / GMP_LIMB_BITS;

  213. +

  214. +  return mpn_common_scan (~ptr[i] & (GMP_LIMB_MAX << (bit % GMP_LIMB_BITS)),

  215. +			  i, ptr, i, GMP_LIMB_MAX);

  216. +}

  217. +

  218.  
  219.  /* MPN division interface. */
  220.  mp_limb_t
  221. @@ -715,8 +776,7 @@ mpn_invert_3by2 (mp_limb_t u1, mp_limb_t u0)

  222.        if (r < th)
  223.  	{
  224.  	  m--;
  225. -	  if (r > u1 || (r == u1 && tl > u0))

  226. -	    m--;

  227. +	  m -= ((r > u1) | ((r == u1) & (tl > u0)));

  228.  	}
  229.      }
  230.  
  231. @@ -836,14 +896,20 @@ mpn_div_qr_1 (mp_ptr qp, mp_srcptr np, mp_size_t nn, mp_limb_t d)

  232.    assert (d > 0);
  233.  
  234.    /* Special case for powers of two. */
  235. -  if (d > 1 && (d & (d-1)) == 0)

  236. +  if ((d & (d-1)) == 0)

  237.      {
  238. -      unsigned shift;

  239.        mp_limb_t r = np[0] & (d-1);
  240. -      gmp_ctz (shift, d);

  241.        if (qp)
  242. -	mpn_rshift (qp, np, nn, shift);

  243. -

  244. +	{

  245. +	  if (d <= 1)

  246. +	    mpn_copyi (qp, np, nn);

  247. +	  else

  248. +	    {

  249. +	      unsigned shift;

  250. +	      gmp_ctz (shift, d);

  251. +	      mpn_rshift (qp, np, nn, shift);

  252. +	    }

  253. +	}

  254.        return r;
  255.      }
  256.    else
  257. @@ -880,7 +946,8 @@ mpn_div_qr_2_preinv (mp_ptr qp, mp_ptr rp, mp_srcptr np, mp_size_t nn,

  258.  
  259.    r0 = np[nn - 1];
  260.  
  261. -  for (i = nn - 2; i >= 0; i--)

  262. +  i = nn - 2;

  263. +  do

  264.      {
  265.        mp_limb_t n0, q;
  266.        n0 = np[i];
  267. @@ -889,6 +956,7 @@ mpn_div_qr_2_preinv (mp_ptr qp, mp_ptr rp, mp_srcptr np, mp_size_t nn,

  268.        if (qp)
  269.  	qp[i] = q;
  270.      }
  271. +  while (--i >= 0);

  272.  
  273.    if (shift > 0)
  274.      {
  275. @@ -930,18 +998,19 @@ mpn_div_qr_pi1 (mp_ptr qp,

  276.  
  277.    assert (dn > 2);
  278.    assert (nn >= dn);
  279. -  assert ((dp[dn-1] & GMP_LIMB_HIGHBIT) != 0);

  280.  
  281.    d1 = dp[dn - 1];
  282.    d0 = dp[dn - 2];
  283.  
  284. +  assert ((d1 & GMP_LIMB_HIGHBIT) != 0);

  285.    /* Iteration variable is the index of the q limb.
  286.     *
  287.     * We divide <n1, np[dn-1+i], np[dn-2+i], np[dn-3+i],..., np[i]>
  288.     * by            <d1,          d0,        dp[dn-3],  ..., dp[0] >
  289.     */
  290.  
  291. -  for (i = nn - dn; i >= 0; i--)

  292. +  i = nn - dn;

  293. +  do

  294.      {
  295.        mp_limb_t n0 = np[dn-1+i];
  296.  
  297. @@ -973,6 +1042,7 @@ mpn_div_qr_pi1 (mp_ptr qp,

  298.        if (qp)
  299.  	qp[i] = q;
  300.      }
  301. +  while (--i >= 0);

  302.  
  303.    np[dn - 1] = n1;
  304.  }
  305. @@ -994,7 +1064,9 @@ mpn_div_qr_preinv (mp_ptr qp, mp_ptr np, mp_size_t nn,

  306.        mp_limb_t nh;
  307.        unsigned shift;
  308.  
  309. -      assert (dp[dn-1] & GMP_LIMB_HIGHBIT);

  310. +      assert (inv->d1 == dp[dn-1]);

  311. +      assert (inv->d0 == dp[dn-2]);

  312. +      assert ((inv->d1 & GMP_LIMB_HIGHBIT) != 0);

  313.  
  314.        shift = inv->shift;
  315.        if (shift > 0)
  316. @@ -1002,9 +1074,6 @@ mpn_div_qr_preinv (mp_ptr qp, mp_ptr np, mp_size_t nn,

  317.        else
  318.  	nh = 0;
  319.  
  320. -      assert (inv->d1 == dp[dn-1]);

  321. -      assert (inv->d0 == dp[dn-2]);

  322. -

  323.        mpn_div_qr_pi1 (qp, np, nn, nh, dp, dn, inv->di);
  324.  
  325.        if (shift > 0)
  326. @@ -1238,15 +1307,14 @@ mpn_set_str_other (mp_ptr rp, const unsigned char *sp, size_t sn,

  327.  {
  328.    mp_size_t rn;
  329.    mp_limb_t w;
  330. -  unsigned first;

  331.    unsigned k;
  332.    size_t j;
  333.  
  334. -  first = 1 + (sn - 1) % info->exp;

  335. +  k = 1 + (sn - 1) % info->exp;

  336.  
  337.    j = 0;
  338.    w = sp[j++];
  339. -  for (k = 1; k < first; k++)

  340. +  for (; --k > 0; )

  341.      w = w * b + sp[j++];
  342.  
  343.    rp[0] = w;
  344. @@ -1300,7 +1368,7 @@ mpz_init (mpz_t r)

  345.  }
  346.  
  347.  /* The utility of this function is a bit limited, since many functions
  348. -   assings the result variable using mpz_swap. */

  349. +   assigns the result variable using mpz_swap. */

  350.  void
  351.  mpz_init2 (mpz_t r, mp_bitcnt_t bits)
  352.  {
  353. @@ -1422,7 +1490,7 @@ mpz_fits_ulong_p (const mpz_t u)

  354.  {
  355.    mp_size_t us = u->_mp_size;
  356.  
  357. -  return us == 0 || us == 1;

  358. +  return (us == (us > 0));

  359.  }
  360.  
  361.  long int
  362. @@ -1459,6 +1527,48 @@ mpz_getlimbn (const mpz_t u, mp_size_t n)

  363.      return 0;
  364.  }
  365.  
  366. +void

  367. +mpz_realloc2 (mpz_t x, mp_bitcnt_t n)

  368. +{

  369. +  mpz_realloc (x, 1 + (n - (n != 0)) / GMP_LIMB_BITS);

  370. +}

  371. +

  372. +mp_srcptr

  373. +mpz_limbs_read (mpz_srcptr x)

  374. +{

  375. +  return x->_mp_d;;

  376. +}

  377. +

  378. +mp_ptr

  379. +mpz_limbs_modify (mpz_t x, mp_size_t n)

  380. +{

  381. +  assert (n > 0);

  382. +  return MPZ_REALLOC (x, n);

  383. +}

  384. +

  385. +mp_ptr

  386. +mpz_limbs_write (mpz_t x, mp_size_t n)

  387. +{

  388. +  return mpz_limbs_modify (x, n);

  389. +}

  390. +

  391. +void

  392. +mpz_limbs_finish (mpz_t x, mp_size_t xs)

  393. +{

  394. +  mp_size_t xn;

  395. +  xn = mpn_normalized_size (x->_mp_d, GMP_ABS (xs));

  396. +  x->_mp_size = xs < 0 ? -xn : xn;

  397. +}

  398. +

  399. +mpz_srcptr

  400. +mpz_roinit_n (mpz_t x, mp_srcptr xp, mp_size_t xs)

  401. +{

  402. +  x->_mp_alloc = 0;

  403. +  x->_mp_d = (mp_ptr) xp;

  404. +  mpz_limbs_finish (x, xs);

  405. +  return x;

  406. +}

  407. +

  408.  
  409.  /* Conversions and comparison to double. */
  410.  void
  411. @@ -1473,19 +1583,15 @@ mpz_set_d (mpz_t r, double x)

  412.  
  413.    /* x != x is true when x is a NaN, and x == x * 0.5 is true when x is
  414.       zero or infinity. */
  415. -  if (x == 0.0 || x != x || x == x * 0.5)

  416. +  if (x != x || x == x * 0.5)

  417.      {
  418.        r->_mp_size = 0;
  419.        return;
  420.      }
  421.  
  422. -  if (x < 0.0)

  423. -    {

  424. -      x = - x;

  425. -      sign = 1;

  426. -    }

  427. -  else

  428. -    sign = 0;

  429. +  sign = x < 0.0 ;

  430. +  if (sign)

  431. +    x = - x;

  432.  
  433.    if (x < 1.0)
  434.      {
  435. @@ -1502,8 +1608,9 @@ mpz_set_d (mpz_t r, double x)

  436.    f = (mp_limb_t) x;
  437.    x -= f;
  438.    assert (x < 1.0);
  439. -  rp[rn-1] = f;

  440. -  for (i = rn-1; i-- > 0; )

  441. +  i = rn-1;

  442. +  rp[i] = f;

  443. +  while (--i >= 0)

  444.      {
  445.        x = B * x;
  446.        f = (mp_limb_t) x;
  447. @@ -1611,12 +1718,7 @@ mpz_sgn (const mpz_t u)

  448.  {
  449.    mp_size_t usize = u->_mp_size;
  450.  
  451. -  if (usize > 0)

  452. -    return 1;

  453. -  else if (usize < 0)

  454. -    return -1;

  455. -  else

  456. -    return 0;

  457. +  return (usize > 0) - (usize < 0);

  458.  }
  459.  
  460.  int
  461. @@ -1635,10 +1737,9 @@ mpz_cmp_si (const mpz_t u, long v)

  462.        mp_limb_t ul = u->_mp_d[0];
  463.        if ((mp_limb_t)GMP_NEG_CAST (unsigned long int, v) < ul)
  464.  	return -1;
  465. -      else if ( (mp_limb_t)GMP_NEG_CAST (unsigned long int, v) > ul)

  466. -	return 1;

  467. +      else

  468. +	return (mp_limb_t)GMP_NEG_CAST (unsigned long int, v) > ul;

  469.      }
  470. -  return 0;

  471.  }
  472.  
  473.  int
  474. @@ -1653,12 +1754,8 @@ mpz_cmp_ui (const mpz_t u, unsigned long v)

  475.    else
  476.      {
  477.        mp_limb_t ul = (usize > 0) ? u->_mp_d[0] : 0;
  478. -      if (ul > v)

  479. -	return 1;

  480. -      else if (ul < v)

  481. -	return -1;

  482. +      return (ul > v) - (ul < v);

  483.      }
  484. -  return 0;

  485.  }
  486.  
  487.  int
  488. @@ -1667,16 +1764,12 @@ mpz_cmp (const mpz_t a, const mpz_t b)

  489.    mp_size_t asize = a->_mp_size;
  490.    mp_size_t bsize = b->_mp_size;
  491.  
  492. -  if (asize > bsize)

  493. -    return 1;

  494. -  else if (asize < bsize)

  495. -    return -1;

  496. -  else if (asize > 0)

  497. +  if (asize != bsize)

  498. +    return (asize < bsize) ? -1 : 1;

  499. +  else if (asize >= 0)

  500.      return mpn_cmp (a->_mp_d, b->_mp_d, asize);
  501. -  else if (asize < 0)

  502. -    return -mpn_cmp (a->_mp_d, b->_mp_d, -asize);

  503.    else
  504. -    return 0;

  505. +    return mpn_cmp (b->_mp_d, a->_mp_d, -asize);

  506.  }
  507.  
  508.  int
  509. @@ -1690,12 +1783,7 @@ mpz_cmpabs_ui (const mpz_t u, unsigned long v)

  510.  
  511.    ul = (un == 1) ? u->_mp_d[0] : 0;
  512.  
  513. -  if (ul > v)

  514. -    return 1;

  515. -  else if (ul < v)

  516. -    return -1;

  517. -  else

  518. -    return 0;

  519. +  return (ul > v) - (ul < v);

  520.  }
  521.  
  522.  int
  523. @@ -1753,7 +1841,7 @@ mpz_abs_add_ui (mpz_t r, const mpz_t a, unsigned long b)

  524.  
  525.    cy = mpn_add_1 (rp, a->_mp_d, an, b);
  526.    rp[an] = cy;
  527. -  an += (cy > 0);

  528. +  an += cy;

  529.  
  530.    return an;
  531.  }
  532. @@ -1815,20 +1903,21 @@ mpz_abs_add (mpz_t r, const mpz_t a, const mpz_t b)

  533.  {
  534.    mp_size_t an = GMP_ABS (a->_mp_size);
  535.    mp_size_t bn = GMP_ABS (b->_mp_size);
  536. -  mp_size_t rn;

  537.    mp_ptr rp;
  538.    mp_limb_t cy;
  539.  
  540. -  rn = GMP_MAX (an, bn);

  541. -  rp = MPZ_REALLOC (r, rn + 1);

  542. -  if (an >= bn)

  543. -    cy = mpn_add (rp, a->_mp_d, an, b->_mp_d, bn);

  544. -  else

  545. -    cy = mpn_add (rp, b->_mp_d, bn, a->_mp_d, an);

  546. +  if (an < bn)

  547. +    {

  548. +      MPZ_SRCPTR_SWAP (a, b);

  549. +      MP_SIZE_T_SWAP (an, bn);

  550. +    }

  551.  
  552. -  rp[rn] = cy;

  553. +  rp = MPZ_REALLOC (r, an + 1);

  554. +  cy = mpn_add (rp, a->_mp_d, an, b->_mp_d, bn);

  555. +

  556. +  rp[an] = cy;

  557.  
  558. -  return rn + (cy > 0);

  559. +  return an + cy;

  560.  }
  561.  
  562.  static mp_size_t
  563. @@ -1899,31 +1988,26 @@ mpz_mul_si (mpz_t r, const mpz_t u, long int v)

  564.  void
  565.  mpz_mul_ui (mpz_t r, const mpz_t u, unsigned long int v)
  566.  {
  567. -  mp_size_t un;

  568. -  mpz_t t;

  569. +  mp_size_t un, us;

  570.    mp_ptr tp;
  571.    mp_limb_t cy;
  572.  
  573. -  un = GMP_ABS (u->_mp_size);

  574. +  us = u->_mp_size;

  575.  
  576. -  if (un == 0 || v == 0)

  577. +  if (us == 0 || v == 0)

  578.      {
  579.        r->_mp_size = 0;
  580.        return;
  581.      }
  582.  
  583. -  mpz_init2 (t, (un + 1) * GMP_LIMB_BITS);

  584. +  un = GMP_ABS (us);

  585.  
  586. -  tp = t->_mp_d;

  587. +  tp = MPZ_REALLOC (r, un + 1);

  588.    cy = mpn_mul_1 (tp, u->_mp_d, un, v);
  589.    tp[un] = cy;
  590.  
  591. -  t->_mp_size = un + (cy > 0);

  592. -  if (u->_mp_size < 0)

  593. -    t->_mp_size = - t->_mp_size;

  594. -

  595. -  mpz_swap (r, t);

  596. -  mpz_clear (t);

  597. +  un += (cy > 0);

  598. +  r->_mp_size = (us < 0) ? - un : un;

  599.  }
  600.  
  601.  void
  602. @@ -1934,8 +2018,8 @@ mpz_mul (mpz_t r, const mpz_t u, const mpz_t v)

  603.    mpz_t t;
  604.    mp_ptr tp;
  605.  
  606. -  un = GMP_ABS (u->_mp_size);

  607. -  vn = GMP_ABS (v->_mp_size);

  608. +  un = u->_mp_size;

  609. +  vn = v->_mp_size;

  610.  
  611.    if (un == 0 || vn == 0)
  612.      {
  613. @@ -1943,7 +2027,10 @@ mpz_mul (mpz_t r, const mpz_t u, const mpz_t v)

  614.        return;
  615.      }
  616.  
  617. -  sign = (u->_mp_size ^ v->_mp_size) < 0;

  618. +  sign = (un ^ vn) < 0;

  619. +

  620. +  un = GMP_ABS (un);

  621. +  vn = GMP_ABS (vn);

  622.  
  623.    mpz_init2 (t, (un + vn) * GMP_LIMB_BITS);
  624.  
  625. @@ -1996,6 +2083,46 @@ mpz_mul_2exp (mpz_t r, const mpz_t u, mp_bitcnt_t bits)

  626.    r->_mp_size = (u->_mp_size < 0) ? - rn : rn;
  627.  }
  628.  
  629. +void

  630. +mpz_addmul_ui (mpz_t r, const mpz_t u, unsigned long int v)

  631. +{

  632. +  mpz_t t;

  633. +  mpz_init (t);

  634. +  mpz_mul_ui (t, u, v);

  635. +  mpz_add (r, r, t);

  636. +  mpz_clear (t);

  637. +}

  638. +

  639. +void

  640. +mpz_submul_ui (mpz_t r, const mpz_t u, unsigned long int v)

  641. +{

  642. +  mpz_t t;

  643. +  mpz_init (t);

  644. +  mpz_mul_ui (t, u, v);

  645. +  mpz_sub (r, r, t);

  646. +  mpz_clear (t);

  647. +}

  648. +

  649. +void

  650. +mpz_addmul (mpz_t r, const mpz_t u, const mpz_t v)

  651. +{

  652. +  mpz_t t;

  653. +  mpz_init (t);

  654. +  mpz_mul (t, u, v);

  655. +  mpz_add (r, r, t);

  656. +  mpz_clear (t);

  657. +}

  658. +

  659. +void

  660. +mpz_submul (mpz_t r, const mpz_t u, const mpz_t v)

  661. +{

  662. +  mpz_t t;

  663. +  mpz_init (t);

  664. +  mpz_mul (t, u, v);

  665. +  mpz_sub (r, r, t);

  666. +  mpz_clear (t);

  667. +}

  668. +

  669.  
  670.  /* MPZ division */
  671.  enum mpz_div_round_mode { GMP_DIV_FLOOR, GMP_DIV_CEIL, GMP_DIV_TRUNC };
  672. @@ -2060,8 +2187,7 @@ mpz_div_qr (mpz_t q, mpz_t r,

  673.        mp_size_t qn, rn;
  674.        mpz_t tq, tr;
  675.  
  676. -      mpz_init (tr);

  677. -      mpz_set (tr, n);

  678. +      mpz_init_set (tr, n);

  679.        np = tr->_mp_d;
  680.  
  681.        qn = nn - dn + 1;
  682. @@ -2171,10 +2297,7 @@ mpz_tdiv_r (mpz_t r, const mpz_t n, const mpz_t d)

  683.  void
  684.  mpz_mod (mpz_t r, const mpz_t n, const mpz_t d)
  685.  {
  686. -  if (d->_mp_size >= 0)

  687. -    mpz_div_qr (NULL, r, n, d, GMP_DIV_FLOOR);

  688. -  else

  689. -    mpz_div_qr (NULL, r, n, d, GMP_DIV_CEIL);

  690. +  mpz_div_qr (NULL, r, n, d, d->_mp_size >= 0 ? GMP_DIV_FLOOR : GMP_DIV_CEIL);

  691.  }
  692.  
  693.  static void
  694. @@ -2184,7 +2307,7 @@ mpz_div_q_2exp (mpz_t q, const mpz_t u, mp_bitcnt_t bit_index,

  695.    mp_size_t un, qn;
  696.    mp_size_t limb_cnt;
  697.    mp_ptr qp;
  698. -  mp_limb_t adjust;

  699. +  int adjust;

  700.  
  701.    un = u->_mp_size;
  702.    if (un == 0)
  703. @@ -2226,7 +2349,8 @@ mpz_div_q_2exp (mpz_t q, const mpz_t u, mp_bitcnt_t bit_index,

  704.  
  705.    q->_mp_size = qn;
  706.  
  707. -  mpz_add_ui (q, q, adjust);

  708. +  if (adjust)

  709. +    mpz_add_ui (q, q, 1);

  710.    if (un < 0)
  711.      mpz_neg (q, q);
  712.  }
  713. @@ -2303,7 +2427,7 @@ mpz_div_r_2exp (mpz_t r, const mpz_t u, mp_bitcnt_t bit_index,

  714.  	    {
  715.  	      /* r > 0, need to flip sign. */
  716.  	      rp[i] = ~rp[i] + 1;
  717. -	      for (i++; i < rn; i++)

  718. +	      while (++i < rn)

  719.  		rp[i] = ~rp[i];
  720.  
  721.  	      rp[rn-1] &= mask;
  722. @@ -2366,6 +2490,24 @@ mpz_divisible_p (const mpz_t n, const mpz_t d)

  723.    return mpz_div_qr (NULL, NULL, n, d, GMP_DIV_TRUNC) == 0;
  724.  }
  725.  
  726. +int

  727. +mpz_congruent_p (const mpz_t a, const mpz_t b, const mpz_t m)

  728. +{

  729. +  mpz_t t;

  730. +  int res;

  731. +

  732. +  /* a == b (mod 0) iff a == b */

  733. +  if (mpz_sgn (m) == 0)

  734. +    return (mpz_cmp (a, b) == 0);

  735. +

  736. +  mpz_init (t);

  737. +  mpz_sub (t, a, b);

  738. +  res = mpz_divisible_p (t, m);

  739. +  mpz_clear (t);

  740. +

  741. +  return res;

  742. +}

  743. +

  744.  static unsigned long
  745.  mpz_div_qr_ui (mpz_t q, mpz_t r,
  746.  	       const mpz_t n, unsigned long d, enum mpz_div_round_mode mode)
  747. @@ -2579,32 +2721,16 @@ mpz_gcd_ui (mpz_t g, const mpz_t u, unsigned long v)

  748.  }
  749.  
  750.  static mp_bitcnt_t
  751. -mpz_make_odd (mpz_t r, const mpz_t u)

  752. +mpz_make_odd (mpz_t r)

  753.  {
  754. -  mp_size_t un, rn, i;

  755. -  mp_ptr rp;

  756. -  unsigned shift;

  757. -

  758. -  un = GMP_ABS (u->_mp_size);

  759. -  assert (un > 0);

  760. +  mp_bitcnt_t shift;

  761.  
  762. -  for (i = 0; u->_mp_d[i] == 0; i++)

  763. -    ;

  764. -

  765. -  gmp_ctz (shift, u->_mp_d[i]);

  766. -

  767. -  rn = un - i;

  768. -  rp = MPZ_REALLOC (r, rn);

  769. -  if (shift > 0)

  770. -    {

  771. -      mpn_rshift (rp, u->_mp_d + i, rn, shift);

  772. -      rn -= (rp[rn-1] == 0);

  773. -    }

  774. -  else

  775. -    mpn_copyi (rp, u->_mp_d + i, rn);

  776. +  assert (r->_mp_size > 0);

  777. +  /* Count trailing zeros, equivalent to mpn_scan1, because we know that there is a 1 */

  778. +  shift = mpn_common_scan (r->_mp_d[0], 0, r->_mp_d, 0, 0);

  779. +  mpz_tdiv_q_2exp (r, r, shift);

  780.  
  781. -  r->_mp_size = rn;

  782. -  return i * GMP_LIMB_BITS + shift;

  783. +  return shift;

  784.  }
  785.  
  786.  void
  787. @@ -2627,8 +2753,10 @@ mpz_gcd (mpz_t g, const mpz_t u, const mpz_t v)

  788.    mpz_init (tu);
  789.    mpz_init (tv);
  790.  
  791. -  uz = mpz_make_odd (tu, u);

  792. -  vz = mpz_make_odd (tv, v);

  793. +  mpz_abs (tu, u);

  794. +  uz = mpz_make_odd (tu);

  795. +  mpz_abs (tv, v);

  796. +  vz = mpz_make_odd (tv);

  797.    gz = GMP_MIN (uz, vz);
  798.  
  799.    if (tu->_mp_size < tv->_mp_size)
  800. @@ -2644,7 +2772,7 @@ mpz_gcd (mpz_t g, const mpz_t u, const mpz_t v)

  801.        {
  802.  	int c;
  803.  
  804. -	mpz_make_odd (tu, tu);

  805. +	mpz_make_odd (tu);

  806.  	c = mpz_cmp (tu, tv);
  807.  	if (c == 0)
  808.  	  {
  809. @@ -2706,8 +2834,10 @@ mpz_gcdext (mpz_t g, mpz_t s, mpz_t t, const mpz_t u, const mpz_t v)

  810.    mpz_init (t0);
  811.    mpz_init (t1);
  812.  
  813. -  uz = mpz_make_odd (tu, u);

  814. -  vz = mpz_make_odd (tv, v);

  815. +  mpz_abs (tu, u);

  816. +  uz = mpz_make_odd (tu);

  817. +  mpz_abs (tv, v);

  818. +  vz = mpz_make_odd (tv);

  819.    gz = GMP_MIN (uz, vz);
  820.  
  821.    uz -= gz;
  822. @@ -2755,7 +2885,7 @@ mpz_gcdext (mpz_t g, mpz_t s, mpz_t t, const mpz_t u, const mpz_t v)

  823.    if (tu->_mp_size > 0)
  824.      {
  825.        mp_bitcnt_t shift;
  826. -      shift = mpz_make_odd (tu, tu);

  827. +      shift = mpz_make_odd (tu);

  828.        mpz_mul_2exp (t0, t0, shift);
  829.        mpz_mul_2exp (s0, s0, shift);
  830.        power += shift;
  831. @@ -2778,7 +2908,7 @@ mpz_gcdext (mpz_t g, mpz_t s, mpz_t t, const mpz_t u, const mpz_t v)

  832.  	      mpz_add (t0, t0, t1);
  833.  	      mpz_add (s0, s0, s1);
  834.  
  835. -	      shift = mpz_make_odd (tv, tv);

  836. +	      shift = mpz_make_odd (tv);

  837.  	      mpz_mul_2exp (t1, t1, shift);
  838.  	      mpz_mul_2exp (s1, s1, shift);
  839.  	    }
  840. @@ -2788,7 +2918,7 @@ mpz_gcdext (mpz_t g, mpz_t s, mpz_t t, const mpz_t u, const mpz_t v)

  841.  	      mpz_add (t1, t0, t1);
  842.  	      mpz_add (s1, s0, s1);
  843.  
  844. -	      shift = mpz_make_odd (tu, tu);

  845. +	      shift = mpz_make_odd (tu);

  846.  	      mpz_mul_2exp (t0, t0, shift);
  847.  	      mpz_mul_2exp (s0, s0, shift);
  848.  	    }
  849. @@ -2926,12 +3056,16 @@ mpz_pow_ui (mpz_t r, const mpz_t b, unsigned long e)

  850.    mpz_t tr;
  851.    mpz_init_set_ui (tr, 1);
  852.  
  853. -  for (bit = GMP_ULONG_HIGHBIT; bit > 0; bit >>= 1)

  854. +  bit = GMP_ULONG_HIGHBIT;

  855. +  do

  856.      {
  857.        mpz_mul (tr, tr, tr);
  858.        if (e & bit)
  859.  	mpz_mul (tr, tr, b);
  860. +      bit >>= 1;

  861.      }
  862. +  while (bit > 0);

  863. +

  864.    mpz_swap (r, tr);
  865.    mpz_clear (tr);
  866.  }
  867. @@ -2987,7 +3121,7 @@ mpz_powm (mpz_t r, const mpz_t b, const mpz_t e, const mpz_t m)

  868.    if (e->_mp_size < 0)
  869.      {
  870.        if (!mpz_invert (base, b, m))
  871. -	gmp_die ("mpz_powm: Negative exponent and non-invertibe base.");

  872. +	gmp_die ("mpz_powm: Negative exponent and non-invertible base.");

  873.      }
  874.    else
  875.      {
  876. @@ -3019,7 +3153,8 @@ mpz_powm (mpz_t r, const mpz_t b, const mpz_t e, const mpz_t m)

  877.        mp_limb_t w = e->_mp_d[en];
  878.        mp_limb_t bit;
  879.  
  880. -      for (bit = GMP_LIMB_HIGHBIT; bit > 0; bit >>= 1)

  881. +      bit = GMP_LIMB_HIGHBIT;

  882. +      do

  883.  	{
  884.  	  mpz_mul (tr, tr, tr);
  885.  	  if (w & bit)
  886. @@ -3029,7 +3164,9 @@ mpz_powm (mpz_t r, const mpz_t b, const mpz_t e, const mpz_t m)

  887.  	      mpn_div_qr_preinv (NULL, tr->_mp_d, tr->_mp_size, mp, mn, &minv);
  888.  	      tr->_mp_size = mpn_normalized_size (tr->_mp_d, mn);
  889.  	    }
  890. +	  bit >>= 1;

  891.  	}
  892. +      while (bit > 0);

  893.      }
  894.  
  895.    /* Final reduction */
  896. @@ -3064,21 +3201,26 @@ mpz_rootrem (mpz_t x, mpz_t r, const mpz_t y, unsigned long z)

  897.    mpz_t t, u;
  898.  
  899.    sgn = y->_mp_size < 0;
  900. -  if (sgn && (z & 1) == 0)

  901. +  if ((~z & sgn) != 0)

  902.      gmp_die ("mpz_rootrem: Negative argument, with even root.");
  903.    if (z == 0)
  904.      gmp_die ("mpz_rootrem: Zeroth root.");
  905.  
  906.    if (mpz_cmpabs_ui (y, 1) <= 0) {
  907. -    mpz_set (x, y);

  908. +    if (x)

  909. +      mpz_set (x, y);

  910.      if (r)
  911.        r->_mp_size = 0;
  912.      return;
  913.    }
  914.  
  915. -  mpz_init (t);

  916.    mpz_init (u);
  917. -  mpz_setbit (t, mpz_sizeinbase (y, 2) / z + 1);

  918. +  {

  919. +    mp_bitcnt_t tb;

  920. +    tb = mpz_sizeinbase (y, 2) / z + 1;

  921. +    mpz_init2 (t, tb);

  922. +    mpz_setbit (t, tb);

  923. +  }

  924.  
  925.    if (z == 2) /* simplify sqrt loop: z-1 == 1 */
  926.      do {
  927. @@ -3110,7 +3252,8 @@ mpz_rootrem (mpz_t x, mpz_t r, const mpz_t y, unsigned long z)

  928.      mpz_pow_ui (t, u, z);
  929.      mpz_sub (r, y, t);
  930.    }
  931. -  mpz_swap (x, u);

  932. +  if (x)

  933. +    mpz_swap (x, u);

  934.    mpz_clear (u);
  935.    mpz_clear (t);
  936.  }
  937. @@ -3142,19 +3285,56 @@ mpz_sqrt (mpz_t s, const mpz_t u)

  938.    mpz_rootrem (s, NULL, u, 2);
  939.  }
  940.  
  941. +int

  942. +mpz_perfect_square_p (const mpz_t u)

  943. +{

  944. +  if (u->_mp_size <= 0)

  945. +    return (u->_mp_size == 0);

  946. +  else

  947. +    return mpz_root (NULL, u, 2);

  948. +}

  949. +

  950. +int

  951. +mpn_perfect_square_p (mp_srcptr p, mp_size_t n)

  952. +{

  953. +  mpz_t t;

  954. +

  955. +  assert (n > 0);

  956. +  assert (p [n-1] != 0);

  957. +  return mpz_root (NULL, mpz_roinit_n (t, p, n), 2);

  958. +}

  959. +

  960. +mp_size_t

  961. +mpn_sqrtrem (mp_ptr sp, mp_ptr rp, mp_srcptr p, mp_size_t n)

  962. +{

  963. +  mpz_t s, r, u;

  964. +  mp_size_t res;

  965. +

  966. +  assert (n > 0);

  967. +  assert (p [n-1] != 0);

  968. +

  969. +  mpz_init (r);

  970. +  mpz_init (s);

  971. +  mpz_rootrem (s, r, mpz_roinit_n (u, p, n), 2);

  972. +

  973. +  assert (s->_mp_size == (n+1)/2);

  974. +  mpn_copyd (sp, s->_mp_d, s->_mp_size);

  975. +  mpz_clear (s);

  976. +  res = r->_mp_size;

  977. +  if (rp)

  978. +    mpn_copyd (rp, r->_mp_d, res);

  979. +  mpz_clear (r);

  980. +  return res;

  981. +}

  982.  
  983.  /* Combinatorics */
  984.  
  985.  void
  986.  mpz_fac_ui (mpz_t x, unsigned long n)
  987.  {
  988. -  if (n < 2) {

  989. -    mpz_set_ui (x, 1);

  990. -    return;

  991. -  }

  992. -  mpz_set_ui (x, n);

  993. -  for (;--n > 1;)

  994. -    mpz_mul_ui (x, x, n);

  995. +  mpz_set_ui (x, n + (n == 0));

  996. +  for (;n > 2;)

  997. +    mpz_mul_ui (x, x, --n);

  998.  }
  999.  
  1000.  void
  1001. @@ -3162,25 +3342,120 @@ mpz_bin_uiui (mpz_t r, unsigned long n, unsigned long k)

  1002.  {
  1003.    mpz_t t;
  1004.  
  1005. -  if (k > n) {

  1006. -    r->_mp_size = 0;

  1007. -    return;

  1008. -  }

  1009. -  mpz_fac_ui (r, n);

  1010. +  mpz_set_ui (r, k <= n);

  1011. +

  1012. +  if (k > (n >> 1))

  1013. +    k = (k <= n) ? n - k : 0;

  1014. +

  1015.    mpz_init (t);
  1016.    mpz_fac_ui (t, k);
  1017. -  mpz_divexact (r, r, t);

  1018. -  mpz_fac_ui (t, n - k);

  1019. +

  1020. +  for (; k > 0; k--)

  1021. +      mpz_mul_ui (r, r, n--);

  1022. +

  1023.    mpz_divexact (r, r, t);
  1024.    mpz_clear (t);
  1025.  }
  1026.  
  1027.  
  1028. +/* Primality testing */

  1029. +static int

  1030. +gmp_millerrabin (const mpz_t n, const mpz_t nm1, mpz_t y,

  1031. +		 const mpz_t q, mp_bitcnt_t k)

  1032. +{

  1033. +  mp_bitcnt_t i;

  1034. +

  1035. +  /* Caller must initialize y to the base. */

  1036. +  mpz_powm (y, y, q, n);

  1037. +

  1038. +  if (mpz_cmp_ui (y, 1) == 0 || mpz_cmp (y, nm1) == 0)

  1039. +    return 1;

  1040. +

  1041. +  for (i = 1; i < k; i++)

  1042. +    {

  1043. +      mpz_powm_ui (y, y, 2, n);

  1044. +      if (mpz_cmp (y, nm1) == 0)

  1045. +	return 1;

  1046. +      if (mpz_cmp_ui (y, 1) == 0)

  1047. +	return 0;

  1048. +    }

  1049. +  return 0;

  1050. +}

  1051. +

  1052. +/* This product is 0xc0cfd797, and fits in 32 bits. */

  1053. +#define GMP_PRIME_PRODUCT \

  1054. +  (3UL*5UL*7UL*11UL*13UL*17UL*19UL*23UL*29UL)

  1055. +

  1056. +/* Bit (p+1)/2 is set, for each odd prime <= 61 */

  1057. +#define GMP_PRIME_MASK 0xc96996dcUL

  1058. +

  1059. +int

  1060. +mpz_probab_prime_p (const mpz_t n, int reps)

  1061. +{

  1062. +  mpz_t nm1;

  1063. +  mpz_t q;

  1064. +  mpz_t y;

  1065. +  mp_bitcnt_t k;

  1066. +  int is_prime;

  1067. +  int j;

  1068. +

  1069. +  /* Note that we use the absolute value of n only, for compatibility

  1070. +     with the real GMP. */

  1071. +  if (mpz_even_p (n))

  1072. +    return (mpz_cmpabs_ui (n, 2) == 0) ? 2 : 0;

  1073. +

  1074. +  /* Above test excludes n == 0 */

  1075. +  assert (n->_mp_size != 0);

  1076. +  

  1077. +  if (mpz_cmpabs_ui (n, 64) < 0)

  1078. +    return (GMP_PRIME_MASK >> (n->_mp_d[0] >> 1)) & 2;

  1079. +

  1080. +  if (mpz_gcd_ui (NULL, n, GMP_PRIME_PRODUCT) != 1)

  1081. +    return 0;

  1082. +

  1083. +  /* All prime factors are >= 31. */

  1084. +  if (mpz_cmpabs_ui (n, 31*31) < 0)

  1085. +    return 2;

  1086. +  

  1087. +  /* Use Miller-Rabin, with a deterministic sequence of bases, a[j] =

  1088. +     j^2 + j + 41 using Euler's polynomial. We potentially stop early,

  1089. +     if a[j] >= n - 1. Since n >= 31*31, this can happen only if reps >

  1090. +     30 (a[30] == 971 > 31*31 == 961). */

  1091. +

  1092. +  mpz_init (nm1);

  1093. +  mpz_init (q);

  1094. +  mpz_init (y);

  1095. +

  1096. +  /* Find q and k, where q is odd and n = 1 + 2**k * q.  */

  1097. +  mpz_abs (nm1, n);

  1098. +  mpz_sub_ui (nm1, nm1, 1);

  1099. +  k = mpz_scan1 (nm1, 0);

  1100. +  mpz_tdiv_q_2exp (q, nm1, k);

  1101. +  

  1102. +  for (j = 0, is_prime = 1; is_prime && j < reps; j++)

  1103. +    {

  1104. +      mpz_set_ui (y, (unsigned long) j*j+j+41);

  1105. +      if (mpz_cmp (y, nm1) >= 0)

  1106. +	{

  1107. +	  /* Don't try any further bases. */

  1108. +	  assert (j >= 30);

  1109. +	  break;

  1110. +	}

  1111. +      is_prime &= gmp_millerrabin (n, nm1, y, q, k);

  1112. +    }

  1113. +  mpz_clear (nm1);

  1114. +  mpz_clear (q);

  1115. +  mpz_clear (y);

  1116. +    

  1117. +  return is_prime;

  1118. +}

  1119. +

  1120. +

  1121.  /* Logical operations and bit manipulation. */
  1122.  
  1123.  /* Numbers are treated as if represented in two's complement (and
  1124.     infinitely sign extended). For a negative values we get the two's
  1125. -   complement from -x = ~x + 1, where ~ is bitwise complementt.

  1126. +   complement from -x = ~x + 1, where ~ is bitwise complement.

  1127.     Negation transforms
  1128.  
  1129.       xxxx10...0
  1130. @@ -3374,7 +3649,8 @@ mpz_and (mpz_t r, const mpz_t u, const mpz_t v)

  1131.    up = u->_mp_d;
  1132.    vp = v->_mp_d;
  1133.  
  1134. -  for (i = 0; i < vn; i++)

  1135. +  i = 0;

  1136. +  do

  1137.      {
  1138.        ul = (up[i] ^ ux) + uc;
  1139.        uc = ul < uc;
  1140. @@ -3386,6 +3662,7 @@ mpz_and (mpz_t r, const mpz_t u, const mpz_t v)

  1141.        rc = rl < rc;
  1142.        rp[i] = rl;
  1143.      }
  1144. +  while (++i < vn);

  1145.    assert (vc == 0);
  1146.  
  1147.    for (; i < rn; i++)
  1148. @@ -3445,7 +3722,8 @@ mpz_ior (mpz_t r, const mpz_t u, const mpz_t v)

  1149.    up = u->_mp_d;
  1150.    vp = v->_mp_d;
  1151.  
  1152. -  for (i = 0; i < vn; i++)

  1153. +  i = 0;

  1154. +  do

  1155.      {
  1156.        ul = (up[i] ^ ux) + uc;
  1157.        uc = ul < uc;
  1158. @@ -3457,6 +3735,7 @@ mpz_ior (mpz_t r, const mpz_t u, const mpz_t v)

  1159.        rc = rl < rc;
  1160.        rp[i] = rl;
  1161.      }
  1162. +  while (++i < vn);

  1163.    assert (vc == 0);
  1164.  
  1165.    for (; i < rn; i++)
  1166. @@ -3512,7 +3791,8 @@ mpz_xor (mpz_t r, const mpz_t u, const mpz_t v)

  1167.    up = u->_mp_d;
  1168.    vp = v->_mp_d;
  1169.  
  1170. -  for (i = 0; i < vn; i++)

  1171. +  i = 0;

  1172. +  do

  1173.      {
  1174.        ul = (up[i] ^ ux) + uc;
  1175.        uc = ul < uc;
  1176. @@ -3524,6 +3804,7 @@ mpz_xor (mpz_t r, const mpz_t u, const mpz_t v)

  1177.        rc = rl < rc;
  1178.        rp[i] = rl;
  1179.      }
  1180. +  while (++i < vn);

  1181.    assert (vc == 0);
  1182.  
  1183.    for (; i < un; i++)
  1184. @@ -3561,20 +3842,28 @@ gmp_popcount_limb (mp_limb_t x)

  1185.  }
  1186.  
  1187.  mp_bitcnt_t
  1188. -mpz_popcount (const mpz_t u)

  1189. +mpn_popcount (mp_srcptr p, mp_size_t n)

  1190.  {
  1191. -  mp_size_t un, i;

  1192. +  mp_size_t i;

  1193.    mp_bitcnt_t c;
  1194.  
  1195. +  for (c = 0, i = 0; i < n; i++)

  1196. +    c += gmp_popcount_limb (p[i]);

  1197. +

  1198. +  return c;

  1199. +}

  1200. +

  1201. +mp_bitcnt_t

  1202. +mpz_popcount (const mpz_t u)

  1203. +{

  1204. +  mp_size_t un;

  1205. +

  1206.    un = u->_mp_size;
  1207.  
  1208.    if (un < 0)
  1209.      return ~(mp_bitcnt_t) 0;
  1210.  
  1211. -  for (c = 0, i = 0; i < un; i++)

  1212. -    c += gmp_popcount_limb (u->_mp_d[i]);

  1213. -

  1214. -  return c;

  1215. +  return mpn_popcount (u->_mp_d, un);

  1216.  }
  1217.  
  1218.  mp_bitcnt_t
  1219. @@ -3591,16 +3880,13 @@ mpz_hamdist (const mpz_t u, const mpz_t v)

  1220.    if ( (un ^ vn) < 0)
  1221.      return ~(mp_bitcnt_t) 0;
  1222.  
  1223. -  if (un < 0)

  1224. +  comp = - (uc = vc = (un < 0));

  1225. +  if (uc)

  1226.      {
  1227.        assert (vn < 0);
  1228.        un = -un;
  1229.        vn = -vn;
  1230. -      uc = vc = 1;

  1231. -      comp = - (mp_limb_t) 1;

  1232.      }
  1233. -  else

  1234. -    uc = vc = comp = 0;

  1235.  
  1236.    up = u->_mp_d;
  1237.    vp = v->_mp_d;
  1238. @@ -3636,10 +3922,8 @@ mpz_scan1 (const mpz_t u, mp_bitcnt_t starting_bit)

  1239.  {
  1240.    mp_ptr up;
  1241.    mp_size_t us, un, i;
  1242. -  mp_limb_t limb, ux, uc;

  1243. -  unsigned cnt;

  1244. +  mp_limb_t limb, ux;

  1245.  
  1246. -  up = u->_mp_d;

  1247.    us = u->_mp_size;
  1248.    un = GMP_ABS (us);
  1249.    i = starting_bit / GMP_LIMB_BITS;
  1250. @@ -3649,36 +3933,24 @@ mpz_scan1 (const mpz_t u, mp_bitcnt_t starting_bit)

  1251.    if (i >= un)
  1252.      return (us >= 0 ? ~(mp_bitcnt_t) 0 : starting_bit);
  1253.  
  1254. -  if (us < 0)

  1255. -    {

  1256. -      ux = GMP_LIMB_MAX;

  1257. -      uc = mpn_zero_p (up, i);

  1258. -    }

  1259. -  else

  1260. -    ux = uc = 0;

  1261. -

  1262. -  limb = (ux ^ up[i]) + uc;

  1263. -  uc = limb < uc;

  1264. -

  1265. -  /* Mask to 0 all bits before starting_bit, thus ignoring them. */

  1266. -  limb &= (GMP_LIMB_MAX << (starting_bit % GMP_LIMB_BITS));

  1267. +  up = u->_mp_d;

  1268. +  ux = 0;

  1269. +  limb = up[i];

  1270.  
  1271. -  while (limb == 0)

  1272. +  if (starting_bit != 0)

  1273.      {
  1274. -      i++;

  1275. -      if (i == un)

  1276. +      if (us < 0)

  1277.  	{
  1278. -	  assert (uc == 0);

  1279. -	  /* For the u > 0 case, this can happen only for the first

  1280. -	     masked limb. For the u < 0 case, it happens when the

  1281. -	     highest limbs of the absolute value are all ones. */

  1282. -	  return (us >= 0 ? ~(mp_bitcnt_t) 0 : un * GMP_LIMB_BITS);

  1283. +	  ux = mpn_zero_p (up, i);

  1284. +	  limb = ~ limb + ux;

  1285. +	  ux = - (mp_limb_t) (limb >= ux);

  1286.  	}
  1287. -      limb = (ux ^ up[i]) + uc;

  1288. -      uc = limb < uc;

  1289. +

  1290. +      /* Mask to 0 all bits before starting_bit, thus ignoring them. */

  1291. +      limb &= (GMP_LIMB_MAX << (starting_bit % GMP_LIMB_BITS));

  1292.      }
  1293. -  gmp_ctz (cnt, limb);

  1294. -  return (mp_bitcnt_t) i * GMP_LIMB_BITS + cnt;

  1295. +

  1296. +  return mpn_common_scan (limb, i, up, un, ux);

  1297.  }
  1298.  
  1299.  mp_bitcnt_t
  1300. @@ -3686,46 +3958,28 @@ mpz_scan0 (const mpz_t u, mp_bitcnt_t starting_bit)

  1301.  {
  1302.    mp_ptr up;
  1303.    mp_size_t us, un, i;
  1304. -  mp_limb_t limb, ux, uc;

  1305. -  unsigned cnt;

  1306. +  mp_limb_t limb, ux;

  1307.  
  1308. -  up = u->_mp_d;

  1309.    us = u->_mp_size;
  1310. +  ux = - (mp_limb_t) (us >= 0);

  1311.    un = GMP_ABS (us);
  1312.    i = starting_bit / GMP_LIMB_BITS;
  1313.  
  1314.    /* When past end, there's an immediate 0 bit for u>=0, or no 0 bits for
  1315.       u<0.  Notice this test picks up all cases of u==0 too. */
  1316.    if (i >= un)
  1317. -    return (us >= 0 ? starting_bit : ~(mp_bitcnt_t) 0);

  1318. +    return (ux ? starting_bit : ~(mp_bitcnt_t) 0);

  1319.  
  1320. -  if (us < 0)

  1321. -    {

  1322. -      ux = GMP_LIMB_MAX;

  1323. -      uc = mpn_zero_p (up, i);

  1324. -    }

  1325. -  else

  1326. -    ux = uc = 0;

  1327. +  up = u->_mp_d;

  1328. +  limb = up[i] ^ ux;

  1329.  
  1330. -  limb = (ux ^ up[i]) + uc;

  1331. -  uc = limb < uc;

  1332. +  if (ux == 0)

  1333. +    limb -= mpn_zero_p (up, i); /* limb = ~(~limb + zero_p) */

  1334.  
  1335. -  /* Mask to 1 all bits before starting_bit, thus ignoring them. */

  1336. -  limb |= ((mp_limb_t) 1 << (starting_bit % GMP_LIMB_BITS)) - 1;

  1337. +  /* Mask all bits before starting_bit, thus ignoring them. */

  1338. +  limb &= (GMP_LIMB_MAX << (starting_bit % GMP_LIMB_BITS));

  1339.  
  1340. -  while (limb == GMP_LIMB_MAX)

  1341. -    {

  1342. -      i++;

  1343. -      if (i == un)

  1344. -	{

  1345. -	  assert (uc == 0);

  1346. -	  return (us >= 0 ? un * GMP_LIMB_BITS : ~(mp_bitcnt_t) 0);

  1347. -	}

  1348. -      limb = (ux ^ up[i]) + uc;

  1349. -      uc = limb < uc;

  1350. -    }

  1351. -  gmp_ctz (cnt, ~limb);

  1352. -  return (mp_bitcnt_t) i * GMP_LIMB_BITS + cnt;

  1353. +  return mpn_common_scan (limb, i, up, un, ux);

  1354.  }
  1355.  
  1356.  
  1357. @@ -3771,11 +4025,15 @@ mpz_sizeinbase (const mpz_t u, int base)

  1358.    mpn_copyi (tp, up, un);
  1359.    mpn_div_qr_1_invert (&bi, base);
  1360.  
  1361. -  for (ndigits = 0; un > 0; ndigits++)

  1362. +  ndigits = 0;

  1363. +  do

  1364.      {
  1365. +      ndigits++;

  1366.        mpn_div_qr_1_preinv (tp, tp, un, &bi);
  1367.        un -= (tp[un-1] == 0);
  1368.      }
  1369. +  while (un > 0);

  1370. +

  1371.    gmp_free (tp);
  1372.    return ndigits;
  1373.  }
  1374. @@ -3852,7 +4110,6 @@ mpz_set_str (mpz_t r, const char *sp, int base)

  1375.    mp_size_t rn, alloc;
  1376.    mp_ptr rp;
  1377.    size_t sn;
  1378. -  size_t dn;

  1379.    int sign;
  1380.    unsigned char *dp;
  1381.  
  1382. @@ -3861,13 +4118,8 @@ mpz_set_str (mpz_t r, const char *sp, int base)

  1383.    while (isspace( (unsigned char) *sp))
  1384.      sp++;
  1385.  
  1386. -  if (*sp == '-')

  1387. -    {

  1388. -      sign = 1;

  1389. -      sp++;

  1390. -    }

  1391. -  else

  1392. -    sign = 0;

  1393. +  sign = (*sp == '-');

  1394. +  sp += sign;

  1395.  
  1396.    if (base == 0)
  1397.      {
  1398. @@ -3894,7 +4146,7 @@ mpz_set_str (mpz_t r, const char *sp, int base)

  1399.    sn = strlen (sp);
  1400.    dp = gmp_xalloc (sn + (sn == 0));
  1401.  
  1402. -  for (dn = 0; *sp; sp++)

  1403. +  for (sn = 0; *sp; sp++)

  1404.      {
  1405.        unsigned digit;
  1406.  
  1407. @@ -3916,7 +4168,7 @@ mpz_set_str (mpz_t r, const char *sp, int base)

  1408.  	  return -1;
  1409.  	}
  1410.  
  1411. -      dp[dn++] = digit;

  1412. +      dp[sn++] = digit;

  1413.      }
  1414.  
  1415.    bits = mpn_base_power_of_two_p (base);
  1416. @@ -3925,7 +4177,7 @@ mpz_set_str (mpz_t r, const char *sp, int base)

  1417.      {
  1418.        alloc = (sn * bits + GMP_LIMB_BITS - 1) / GMP_LIMB_BITS;
  1419.        rp = MPZ_REALLOC (r, alloc);
  1420. -      rn = mpn_set_str_bits (rp, dp, dn, bits);

  1421. +      rn = mpn_set_str_bits (rp, dp, sn, bits);

  1422.      }
  1423.    else
  1424.      {
  1425. @@ -3933,7 +4185,7 @@ mpz_set_str (mpz_t r, const char *sp, int base)

  1426.        mpn_get_base_info (&info, base);
  1427.        alloc = (sn + info.exp - 1) / info.exp;
  1428.        rp = MPZ_REALLOC (r, alloc);
  1429. -      rn = mpn_set_str_other (rp, dp, dn, base, &info);

  1430. +      rn = mpn_set_str_other (rp, dp, sn, base, &info);

  1431.      }
  1432.    assert (rn <= alloc);
  1433.    gmp_free (dp);
  1434. @@ -3967,14 +4219,9 @@ mpz_out_str (FILE *stream, int base, const mpz_t x)

  1435.  static int
  1436.  gmp_detect_endian (void)
  1437.  {
  1438. -  static const int i = 1;

  1439. +  static const int i = 2;

  1440.    const unsigned char *p = (const unsigned char *) &i;
  1441. -  if (*p == 1)

  1442. -    /* Little endian */

  1443. -    return -1;

  1444. -  else

  1445. -    /* Big endian */

  1446. -    return 1;

  1447. +  return 1 - *p;

  1448.  }
  1449.  
  1450.  /* Import and export. Does not support nails. */
  1451. @@ -4037,29 +4284,22 @@ mpz_import (mpz_t r, size_t count, int order, size_t size, int endian,

  1452.  	    }
  1453.  	}
  1454.      }
  1455. -  if (bytes > 0)

  1456. +  assert (i + (bytes > 0) == rn);

  1457. +  if (limb != 0)

  1458.      rp[i++] = limb;
  1459. -  assert (i == rn);

  1460. +  else

  1461. +    i = mpn_normalized_size (rp, i);

  1462.  
  1463. -  r->_mp_size = mpn_normalized_size (rp, i);

  1464. +  r->_mp_size = i;

  1465.  }
  1466.  
  1467.  void *
  1468.  mpz_export (void *r, size_t *countp, int order, size_t size, int endian,
  1469.  	    size_t nails, const mpz_t u)
  1470.  {
  1471. -  unsigned char *p;

  1472. -  ptrdiff_t word_step;

  1473. -  size_t count, k;

  1474. +  size_t count;

  1475.    mp_size_t un;
  1476.  
  1477. -  /* The current (partial) limb. */

  1478. -  mp_limb_t limb;

  1479. -  /* The number of bytes left to to in this limb. */

  1480. -  size_t bytes;

  1481. -  /* The index where the limb was read. */

  1482. -  mp_size_t i;

  1483. -

  1484.    if (nails != 0)
  1485.      gmp_die ("mpz_import: Nails not supported.");
  1486.  
  1487. @@ -4067,62 +4307,74 @@ mpz_export (void *r, size_t *countp, int order, size_t size, int endian,

  1488.    assert (endian >= -1 && endian <= 1);
  1489.    assert (size > 0 || u->_mp_size == 0);
  1490.  
  1491. -  un = GMP_ABS (u->_mp_size);

  1492. -  if (un == 0)

  1493. -    {

  1494. -      if (countp)

  1495. -	*countp = 0;

  1496. -      return r;

  1497. -    }

  1498. +  un = u->_mp_size;

  1499. +  count = 0;

  1500. +  if (un != 0)

  1501. +    {

  1502. +      size_t k;

  1503. +      unsigned char *p;

  1504. +      ptrdiff_t word_step;

  1505. +      /* The current (partial) limb. */

  1506. +      mp_limb_t limb;

  1507. +      /* The number of bytes left to to in this limb. */

  1508. +      size_t bytes;

  1509. +      /* The index where the limb was read. */

  1510. +      mp_size_t i;

  1511.  
  1512. -  /* Count bytes in top limb. */

  1513. -  for (limb = u->_mp_d[un-1], k = 0; limb > 0; k++, limb >>= CHAR_BIT)

  1514. -    ;

  1515. +      un = GMP_ABS (un);

  1516.  
  1517. -  assert (k > 0);

  1518. +      /* Count bytes in top limb. */

  1519. +      limb = u->_mp_d[un-1];

  1520. +      assert (limb != 0);

  1521.  
  1522. -  count = (k + (un-1) * sizeof (mp_limb_t) + size - 1) / size;

  1523. +      k = 0;

  1524. +      do {

  1525. +	k++; limb >>= CHAR_BIT;

  1526. +      } while (limb != 0);

  1527.  
  1528. -  if (!r)

  1529. -    r = gmp_xalloc (count * size);

  1530. +      count = (k + (un-1) * sizeof (mp_limb_t) + size - 1) / size;

  1531.  
  1532. -  if (endian == 0)

  1533. -    endian = gmp_detect_endian ();

  1534. +      if (!r)

  1535. +	r = gmp_xalloc (count * size);

  1536.  
  1537. -  p = (unsigned char *) r;

  1538. +      if (endian == 0)

  1539. +	endian = gmp_detect_endian ();

  1540.  
  1541. -  word_step = (order != endian) ? 2 * size : 0;

  1542. +      p = (unsigned char *) r;

  1543.  
  1544. -  /* Process bytes from the least significant end, so point p at the

  1545. -     least significant word. */

  1546. -  if (order == 1)

  1547. -    {

  1548. -      p += size * (count - 1);

  1549. -      word_step = - word_step;

  1550. -    }

  1551. +      word_step = (order != endian) ? 2 * size : 0;

  1552.  
  1553. -  /* And at least significant byte of that word. */

  1554. -  if (endian == 1)

  1555. -    p += (size - 1);

  1556. +      /* Process bytes from the least significant end, so point p at the

  1557. +	 least significant word. */

  1558. +      if (order == 1)

  1559. +	{

  1560. +	  p += size * (count - 1);

  1561. +	  word_step = - word_step;

  1562. +	}

  1563.  
  1564. -  for (bytes = 0, i = 0, k = 0; k < count; k++, p += word_step)

  1565. -      {

  1566. -	size_t j;

  1567. -	for (j = 0; j < size; j++, p -= (ptrdiff_t) endian)

  1568. -	  {

  1569. -	    if (bytes == 0)

  1570. -	      {

  1571. -		if (i < un)

  1572. -		  limb = u->_mp_d[i++];

  1573. -		bytes = sizeof (mp_limb_t);

  1574. -	      }

  1575. -	    *p = limb;

  1576. -	    limb >>= CHAR_BIT;

  1577. -	    bytes--;

  1578. -	  }

  1579. -      }

  1580. -  assert (i == un);

  1581. -  assert (k == count);

  1582. +      /* And at least significant byte of that word. */

  1583. +      if (endian == 1)

  1584. +	p += (size - 1);

  1585. +

  1586. +      for (bytes = 0, i = 0, k = 0; k < count; k++, p += word_step)

  1587. +	{

  1588. +	  size_t j;

  1589. +	  for (j = 0; j < size; j++, p -= (ptrdiff_t) endian)

  1590. +	    {

  1591. +	      if (bytes == 0)

  1592. +		{

  1593. +		  if (i < un)

  1594. +		    limb = u->_mp_d[i++];

  1595. +		  bytes = sizeof (mp_limb_t);

  1596. +		}

  1597. +	      *p = limb;

  1598. +	      limb >>= CHAR_BIT;

  1599. +	      bytes--;

  1600. +	    }

  1601. +	}

  1602. +      assert (i == un);

  1603. +      assert (k == count);

  1604. +    }

  1605.  
  1606.    if (countp)
  1607.      *countp = count;
  1608. diff --git a/mini-gmp.h b/mini-gmp.h

  1609. index 8c94ca2..d8f691f 100644

  1610. --- a/mini-gmp.h

  1611. +++ b/mini-gmp.h

  1612. @@ -1,21 +1,32 @@

  1613.  /* mini-gmp, a minimalistic implementation of a GNU GMP subset.
  1614.  
  1615. -Copyright 2011, 2012, 2013 Free Software Foundation, Inc.

  1616. +Copyright 2011-2014 Free Software Foundation, Inc.

  1617.  
  1618.  This file is part of the GNU MP Library.
  1619.  
  1620.  The GNU MP Library is free software; you can redistribute it and/or modify
  1621. -it under the terms of the GNU Lesser General Public License as published by

  1622. -the Free Software Foundation; either version 3 of the License, or (at your

  1623. -option) any later version.

  1624. +it under the terms of either:

  1625. +

  1626. +  * the GNU Lesser General Public License as published by the Free

  1627. +    Software Foundation; either version 3 of the License, or (at your

  1628. +    option) any later version.

  1629. +

  1630. +or

  1631. +

  1632. +  * the GNU General Public License as published by the Free Software

  1633. +    Foundation; either version 2 of the License, or (at your option) any

  1634. +    later version.

  1635. +

  1636. +or both in parallel, as here.

  1637.  
  1638.  The GNU MP Library is distributed in the hope that it will be useful, but
  1639.  WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
  1640. -or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU Lesser General Public

  1641. -License for more details.

  1642. +or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License

  1643. +for more details.

  1644.  
  1645. -You should have received a copy of the GNU Lesser General Public License

  1646. -along with the GNU MP Library.  If not, see http://www.gnu.org/licenses/.  */

  1647. +You should have received copies of the GNU General Public License and the

  1648. +GNU Lesser General Public License along with the GNU MP Library.  If not,

  1649. +see https://www.gnu.org/licenses/.  */

  1650.  
  1651.  /* About mini-gmp: This is a minimal implementation of a subset of the
  1652.     GMP interface. It is intended for inclusion into applications which
  1653. @@ -64,8 +75,11 @@ typedef __mpz_struct mpz_t[1];

  1654.  typedef __mpz_struct *mpz_ptr;
  1655.  typedef const __mpz_struct *mpz_srcptr;
  1656.  
  1657. +extern const int mp_bits_per_limb;

  1658. +

  1659.  void mpn_copyi (mp_ptr, mp_srcptr, mp_size_t);
  1660.  void mpn_copyd (mp_ptr, mp_srcptr, mp_size_t);
  1661. +void mpn_zero (mp_ptr, mp_size_t);

  1662.  
  1663.  int mpn_cmp (mp_srcptr, mp_srcptr, mp_size_t);
  1664.  
  1665. @@ -84,10 +98,17 @@ mp_limb_t mpn_submul_1 (mp_ptr, mp_srcptr, mp_size_t, mp_limb_t);

  1666.  mp_limb_t mpn_mul (mp_ptr, mp_srcptr, mp_size_t, mp_srcptr, mp_size_t);
  1667.  void mpn_mul_n (mp_ptr, mp_srcptr, mp_srcptr, mp_size_t);
  1668.  void mpn_sqr (mp_ptr, mp_srcptr, mp_size_t);
  1669. +int mpn_perfect_square_p (mp_srcptr, mp_size_t);

  1670. +mp_size_t mpn_sqrtrem (mp_ptr, mp_ptr, mp_srcptr, mp_size_t);

  1671.  
  1672.  mp_limb_t mpn_lshift (mp_ptr, mp_srcptr, mp_size_t, unsigned int);
  1673.  mp_limb_t mpn_rshift (mp_ptr, mp_srcptr, mp_size_t, unsigned int);
  1674.  
  1675. +mp_bitcnt_t mpn_scan0 (mp_srcptr, mp_bitcnt_t);

  1676. +mp_bitcnt_t mpn_scan1 (mp_srcptr, mp_bitcnt_t);

  1677. +

  1678. +mp_bitcnt_t mpn_popcount (mp_srcptr, mp_size_t);

  1679. +

  1680.  mp_limb_t mpn_invert_3by2 (mp_limb_t, mp_limb_t);
  1681.  #define mpn_invert_limb(x) mpn_invert_3by2 ((x), 0)
  1682.  
  1683. @@ -124,6 +145,10 @@ void mpz_mul_si (mpz_t, const mpz_t, long int);

  1684.  void mpz_mul_ui (mpz_t, const mpz_t, unsigned long int);
  1685.  void mpz_mul (mpz_t, const mpz_t, const mpz_t);
  1686.  void mpz_mul_2exp (mpz_t, const mpz_t, mp_bitcnt_t);
  1687. +void mpz_addmul_ui (mpz_t, const mpz_t, unsigned long int);

  1688. +void mpz_addmul (mpz_t, const mpz_t, const mpz_t);

  1689. +void mpz_submul_ui (mpz_t, const mpz_t, unsigned long int);

  1690. +void mpz_submul (mpz_t, const mpz_t, const mpz_t);

  1691.  
  1692.  void mpz_cdiv_qr (mpz_t, mpz_t, const mpz_t, const mpz_t);
  1693.  void mpz_fdiv_qr (mpz_t, mpz_t, const mpz_t, const mpz_t);
  1694. @@ -147,6 +172,7 @@ void mpz_mod (mpz_t, const mpz_t, const mpz_t);

  1695.  void mpz_divexact (mpz_t, const mpz_t, const mpz_t);
  1696.  
  1697.  int mpz_divisible_p (const mpz_t, const mpz_t);
  1698. +int mpz_congruent_p (const mpz_t, const mpz_t, const mpz_t);

  1699.  
  1700.  unsigned long mpz_cdiv_qr_ui (mpz_t, mpz_t, const mpz_t, unsigned long);
  1701.  unsigned long mpz_fdiv_qr_ui (mpz_t, mpz_t, const mpz_t, unsigned long);
  1702. @@ -176,6 +202,7 @@ int mpz_invert (mpz_t, const mpz_t, const mpz_t);

  1703.  
  1704.  void mpz_sqrtrem (mpz_t, mpz_t, const mpz_t);
  1705.  void mpz_sqrt (mpz_t, const mpz_t);
  1706. +int mpz_perfect_square_p (const mpz_t);

  1707.  
  1708.  void mpz_pow_ui (mpz_t, const mpz_t, unsigned long);
  1709.  void mpz_ui_pow_ui (mpz_t, unsigned long, unsigned long);
  1710. @@ -188,6 +215,9 @@ int mpz_root (mpz_t, const mpz_t, unsigned long);

  1711.  void mpz_fac_ui (mpz_t, unsigned long);
  1712.  void mpz_bin_uiui (mpz_t, unsigned long, unsigned long);
  1713.  
  1714. +int

  1715. +mpz_probab_prime_p (const mpz_t, int);

  1716. +

  1717.  int mpz_tstbit (const mpz_t, mp_bitcnt_t);
  1718.  void mpz_setbit (mpz_t, mp_bitcnt_t);
  1719.  void mpz_clrbit (mpz_t, mp_bitcnt_t);
  1720. @@ -211,6 +241,15 @@ double mpz_get_d (const mpz_t);

  1721.  size_t mpz_size (const mpz_t);
  1722.  mp_limb_t mpz_getlimbn (const mpz_t, mp_size_t);
  1723.  
  1724. +void mpz_realloc2 (mpz_t, mp_bitcnt_t);

  1725. +mp_srcptr mpz_limbs_read (mpz_srcptr);

  1726. +mp_ptr mpz_limbs_modify (mpz_t, mp_size_t);

  1727. +mp_ptr mpz_limbs_write (mpz_t, mp_size_t);

  1728. +void mpz_limbs_finish (mpz_t, mp_size_t);

  1729. +mpz_srcptr mpz_roinit_n (mpz_t, mp_srcptr, mp_size_t);

  1730. +

  1731. +#define MPZ_ROINIT_N(xp, xs) {{0, (xs),(xp) }}

  1732. +

  1733.  void mpz_set_si (mpz_t, signed long int);
  1734.  void mpz_set_ui (mpz_t, unsigned long int);
  1735.  void mpz_set (mpz_t, const mpz_t);
  1736. -- 

  1737. 1.9.2
  1738.