third_party/gmp/mini-gmp/tests/hex-random.c - RealtimeRoboticsGroup/test - Gitiles

 /*

 Copyright 2011, 2016, 2018 Free Software Foundation, Inc.

 This file is part of the GNU MP Library test suite.

 The GNU MP Library test suite is free software; you can redistribute it
 and/or modify it under the terms of the GNU General Public License as
 published by the Free Software Foundation; either version 3 of the License,
 or (at your option) any later version.

 The GNU MP Library test suite is distributed in the hope that it will be
 useful, but WITHOUT ANY WARRANTY; without even the implied warranty of
 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General
 Public License for more details.

 You should have received a copy of the GNU General Public License along with
 the GNU MP Library test suite.  If not, see https://www.gnu.org/licenses/.  */

 #include <stdio.h>
 #include <stdlib.h>

 #include <time.h>

 #ifdef __unix__
 # include <unistd.h>
 # include <sys/time.h>
 #endif

 #include "gmp.h"

 #include "hex-random.h"

 /* FIXME: gmp-impl.h included only for mpz_lucas_mod */
 /* #include "gmp-impl.h" */
 #if defined (__cplusplus)
 extern "C" {
 #endif

 #define mpz_lucas_mod  __gmpz_lucas_mod
 __GMP_DECLSPEC int mpz_lucas_mod (mpz_ptr, mpz_ptr, long, mp_bitcnt_t, mpz_srcptr, mpz_ptr, mpz_ptr);

 #if defined (__cplusplus)
 }
 #endif

 static gmp_randstate_t state;

 static void
 mkseed (mpz_t seed)
 {
   FILE *f = fopen ("/dev/urandom", "rb");
   if (f)
     {
       unsigned char buf[6];
       size_t res;

       setbuf (f, NULL);
       res = fread (buf, sizeof(buf), 1, f);
       fclose (f);

       if (res == 1)
 	{
 	  mpz_import (seed, sizeof(buf), 1, 1, 0, 0, buf);
 	  return;
 	}
     }

 #ifdef __unix__
   {
     struct timeval tv;
     mpz_t usec;
     mpz_init (usec);

     gettimeofday (&tv, NULL);
     mpz_set_ui (seed, tv.tv_sec);
     mpz_set_ui (usec, tv.tv_usec);
     /* usec fits in 20 bits, shift left to make it 48 bits. */
     mpz_mul_2exp (usec, usec, 28);
     mpz_xor (seed, seed, usec);

     mpz_clear (usec);
   }
 #else
   mpz_set_ui (seed, time (NULL));
 #endif
 }

 void
 hex_random_init (void)
 {
   mpz_t seed;
   char *env_seed;

   mpz_init (seed);

   env_seed = getenv ("GMP_CHECK_RANDOMIZE");
   if (env_seed && env_seed[0])
     {
       mpz_set_str (seed, env_seed, 0);
       if (mpz_cmp_ui (seed, 0) != 0)
 	gmp_printf ("Re-seeding with GMP_CHECK_RANDOMIZE=%Zd\n", seed);
       else
 	{
 	  mkseed (seed);
 	  gmp_printf ("Seed GMP_CHECK_RANDOMIZE=%Zd (include this in bug reports)\n", seed);
 	}
       fflush (stdout);
     }
   else
     mpz_set_ui (seed, 4711);

   gmp_randinit_default (state);
   gmp_randseed (state, seed);

   mpz_clear (seed);
 }

 char *
 hex_urandomb (unsigned long bits)
 {
   char *res;
   mpz_t x;

   mpz_init (x);
   mpz_urandomb (x, state, bits);
   gmp_asprintf (&res, "%Zx", x);
   mpz_clear (x);
   return res;
 }

 char *
 hex_rrandomb (unsigned long bits)
 {
   char *res;
   mpz_t x;

   mpz_init (x);
   mpz_rrandomb (x, state, bits);
   gmp_asprintf (&res, "%Zx", x);
   mpz_clear (x);
   return res;
 }

 char *
 hex_rrandomb_export (void *dst, size_t *countp,
 		     int order, size_t size, int endian, unsigned long bits)
 {
   char *res;
   mpz_t x;
   mpz_init (x);
   mpz_rrandomb (x, state, bits);
   gmp_asprintf (&res, "%Zx", x);
   mpz_export (dst, countp, order, size, endian, 0, x);
   mpz_clear (x);
   return res;
 }

 void hex_random_op2 (enum hex_random_op op,  unsigned long maxbits,
 		     char **ap, char **rp)
 {
   mpz_t a, r;
   unsigned long abits;
   unsigned signs;

   mpz_init (a);
   mpz_init (r);

   abits = gmp_urandomb_ui (state, 32) % maxbits;

   mpz_rrandomb (a, state, abits);

   signs = gmp_urandomb_ui (state, 1);
   if (signs & 1)
     mpz_neg (a, a);

   switch (op)
     {
     default:
       abort ();
     case OP_SQR:
       mpz_mul (r, a, a);
       break;
     }

   gmp_asprintf (ap, "%Zx", a);
   gmp_asprintf (rp, "%Zx", r);

   mpz_clear (a);
   mpz_clear (r);
 }

 void
 hex_random_op3 (enum hex_random_op op,  unsigned long maxbits,
 		char **ap, char **bp, char **rp)
 {
   mpz_t a, b, r;
   unsigned long abits, bbits;
   unsigned signs;

   mpz_init (a);
   mpz_init (b);
   mpz_init (r);

   abits = gmp_urandomb_ui (state, 32) % maxbits;
   bbits = gmp_urandomb_ui (state, 32) % maxbits;

   mpz_rrandomb (a, state, abits);
   mpz_rrandomb (b, state, bbits);

   signs = gmp_urandomb_ui (state, 3);
   if (signs & 1)
     mpz_neg (a, a);
   if (signs & 2)
     mpz_neg (b, b);

   switch (op)
     {
     default:
       abort ();
     case OP_ADD:
       mpz_add (r, a, b);
       break;
     case OP_SUB:
       mpz_sub (r, a, b);
       break;
     case OP_MUL:
       mpz_mul (r, a, b);
       break;
     case OP_GCD:
       if (signs & 4)
 	{
 	  /* Produce a large gcd */
 	  unsigned long gbits = gmp_urandomb_ui (state, 32) % maxbits;
 	  mpz_rrandomb (r, state, gbits);
 	  mpz_mul (a, a, r);
 	  mpz_mul (b, b, r);
 	}
       mpz_gcd (r, a, b);
       break;
     case OP_LCM:
       if (signs & 4)
 	{
 	  /* Produce a large gcd */
 	  unsigned long gbits = gmp_urandomb_ui (state, 32) % maxbits;
 	  mpz_rrandomb (r, state, gbits);
 	  mpz_mul (a, a, r);
 	  mpz_mul (b, b, r);
 	}
       mpz_lcm (r, a, b);
       break;
     case OP_AND:
       mpz_and (r, a, b);
       break;
     case OP_IOR:
       mpz_ior (r, a, b);
       break;
     case OP_XOR:
       mpz_xor (r, a, b);
       break;
     }

   gmp_asprintf (ap, "%Zx", a);
   gmp_asprintf (bp, "%Zx", b);
   gmp_asprintf (rp, "%Zx", r);

   mpz_clear (a);
   mpz_clear (b);
   mpz_clear (r);
 }

 void
 hex_random_op4 (enum hex_random_op op, unsigned long maxbits,
 		char **ap, char **bp, char **cp, char **dp)
 {
   mpz_t a, b, c, d;
   unsigned long abits, bbits;
   unsigned signs;

   mpz_init (a);
   mpz_init (b);
   mpz_init (c);
   mpz_init (d);

   if (op == OP_POWM)
     {
       unsigned long cbits;
       abits = gmp_urandomb_ui (state, 32) % maxbits;
       bbits = 1 + gmp_urandomb_ui (state, 32) % maxbits;
       cbits = 2 + gmp_urandomb_ui (state, 32) % maxbits;

       mpz_rrandomb (a, state, abits);
       mpz_rrandomb (b, state, bbits);
       mpz_rrandomb (c, state, cbits);

       signs = gmp_urandomb_ui (state, 3);
       if (signs & 1)
 	mpz_neg (a, a);
       if (signs & 2)
 	{
 	  mpz_t g;

 	  /* If we negate the exponent, must make sure that gcd(a, c) = 1 */
 	  if (mpz_sgn (a) == 0)
 	    mpz_set_ui (a, 1);
 	  else
 	    {
 	      mpz_init (g);

 	      for (;;)
 		{
 		  mpz_gcd (g, a, c);
 		  if (mpz_cmp_ui (g, 1) == 0)
 		    break;
 		  mpz_divexact (a, a, g);
 		}
 	      mpz_clear (g);
 	    }
 	  mpz_neg (b, b);
 	}
       if (signs & 4)
 	mpz_neg (c, c);

       mpz_powm (d, a, b, c);
     }
   else
     {
       unsigned long qbits;
       bbits = 1 + gmp_urandomb_ui (state, 32) % maxbits;
       qbits = gmp_urandomb_ui (state, 32) % maxbits;
       abits = bbits + qbits;
       if (abits > 30)
 	abits -= 30;
       else
 	abits = 0;

       mpz_rrandomb (a, state, abits);
       mpz_rrandomb (b, state, bbits);

       signs = gmp_urandomb_ui (state, 2);
       if (signs & 1)
 	mpz_neg (a, a);
       if (signs & 2)
 	mpz_neg (b, b);

       switch (op)
 	{
 	default:
 	  abort ();
 	case OP_CDIV:
 	  mpz_cdiv_qr (c, d, a, b);
 	  break;
 	case OP_FDIV:
 	  mpz_fdiv_qr (c, d, a, b);
 	  break;
 	case OP_TDIV:
 	  mpz_tdiv_qr (c, d, a, b);
 	  break;
 	}
     }
   gmp_asprintf (ap, "%Zx", a);
   gmp_asprintf (bp, "%Zx", b);
   gmp_asprintf (cp, "%Zx", c);
   gmp_asprintf (dp, "%Zx", d);

   mpz_clear (a);
   mpz_clear (b);
   mpz_clear (c);
   mpz_clear (d);
 }

 void
 hex_random_bit_op (enum hex_random_op op, unsigned long maxbits,
 		   char **ap, unsigned long *b, char **rp)
 {
   mpz_t a, r;
   unsigned long abits, bbits;
   unsigned signs;

   mpz_init (a);
   mpz_init (r);

   abits = gmp_urandomb_ui (state, 32) % maxbits;
   bbits = gmp_urandomb_ui (state, 32) % (maxbits + 100);

   mpz_rrandomb (a, state, abits);

   signs = gmp_urandomb_ui (state, 1);
   if (signs & 1)
     mpz_neg (a, a);

   switch (op)
     {
     default:
       abort ();

     case OP_SETBIT:
       mpz_set (r, a);
       mpz_setbit (r, bbits);
       break;
     case OP_CLRBIT:
       mpz_set (r, a);
       mpz_clrbit (r, bbits);
       break;
     case OP_COMBIT:
       mpz_set (r, a);
       mpz_combit (r, bbits);
       break;
     case OP_CDIV_Q_2:
       mpz_cdiv_q_2exp (r, a, bbits);
       break;
     case OP_CDIV_R_2:
       mpz_cdiv_r_2exp (r, a, bbits);
       break;
     case OP_FDIV_Q_2:
       mpz_fdiv_q_2exp (r, a, bbits);
       break;
     case OP_FDIV_R_2:
       mpz_fdiv_r_2exp (r, a, bbits);
       break;
     case OP_TDIV_Q_2:
       mpz_tdiv_q_2exp (r, a, bbits);
       break;
     case OP_TDIV_R_2:
       mpz_tdiv_r_2exp (r, a, bbits);
       break;
     }

   gmp_asprintf (ap, "%Zx", a);
   *b = bbits;
   gmp_asprintf (rp, "%Zx", r);

   mpz_clear (a);
   mpz_clear (r);
 }

 void
 hex_random_scan_op (enum hex_random_op op, unsigned long maxbits,
 		    char **ap, unsigned long *b, unsigned long *r)
 {
   mpz_t a;
   unsigned long abits, bbits;
   unsigned signs;

   mpz_init (a);

   abits = gmp_urandomb_ui (state, 32) % maxbits;
   bbits = gmp_urandomb_ui (state, 32) % (maxbits + 100);

   mpz_rrandomb (a, state, abits);

   signs = gmp_urandomb_ui (state, 1);
   if (signs & 1)
     mpz_neg (a, a);

   switch (op)
     {
     default:
       abort ();

     case OP_SCAN0:
       *r = mpz_scan0 (a, bbits);
       break;
     case OP_SCAN1:
       *r = mpz_scan1 (a, bbits);
       break;
     }
   gmp_asprintf (ap, "%Zx", a);
   *b = bbits;

   mpz_clear (a);
 }

 void
 hex_random_str_op (unsigned long maxbits,
 		   int base, char **ap, char **rp)
 {
   mpz_t a;
   unsigned long abits;
   unsigned signs;

   mpz_init (a);

   abits = gmp_urandomb_ui (state, 32) % maxbits;

   mpz_rrandomb (a, state, abits);

   signs = gmp_urandomb_ui (state, 2);
   if (signs & 1)
     mpz_neg (a, a);

   *ap = mpz_get_str (NULL, 16, a);
   *rp = mpz_get_str (NULL, base, a);

   mpz_clear (a);
 }

 void hex_random_lucm_op (unsigned long maxbits,
 			 char **vp, char **qp, char **mp,
 			 long *Q, unsigned long *b0, int *res)
 {
   mpz_t m, v, q, t1, t2;
   unsigned long mbits;

   mpz_init (m);
   mpz_init (v);
   mpz_init (q);
   mpz_init (t1);
   mpz_init (t2);

   *Q = gmp_urandomb_ui (state, 14) + 1;

   do
     {
       mbits = gmp_urandomb_ui (state, 32) % maxbits + 5;

       mpz_rrandomb (m, state, mbits);
       *b0 = gmp_urandomb_ui (state, 32) % (mbits - 3) + 2;
       /* The GMP  implementation uses the exponent (m >> b0) + 1. */
       /* mini-gmp implementation uses the exponent (m >> b0) | 1. */
       /* They are the same (and are used) only when (m >> b0) is even */
       mpz_clrbit (m, *b0);
       /* mini-gmp implementation only works if the modulus is odd. */
       mpz_setbit (m, 0);
     }
   while (mpz_gcd_ui (NULL, m, *Q) != 1);

   if (*Q == 1 || gmp_urandomb_ui (state, 1))
     *Q = - *Q;

 #if (__GNU_MP_VERSION == 6 && (__GNU_MP_VERSION_MINOR > 1 || __GNU_MP_VERSION_PATCHLEVEL > 9))
   *res = mpz_lucas_mod (v, q, *Q, *b0, m, t1, t2);
 #else
   *b0 = 0;
 #endif

   gmp_asprintf (vp, "%Zx", v);
   gmp_asprintf (qp, "%Zx", q);
   gmp_asprintf (mp, "%Zx", m);

   mpz_clear (m);
   mpz_clear (v);
   mpz_clear (q);
   mpz_clear (t1);
   mpz_clear (t2);
 }

 void
 hex_mpq_random_str_op (unsigned long maxbits,
 		       int base, char **ap, char **rp)
 {
   mpq_t a;
   unsigned long abits;
   unsigned signs;

   mpq_init (a);

   abits = gmp_urandomb_ui (state, 32) % maxbits;

   mpz_rrandomb (mpq_numref (a), state, abits);
   mpz_rrandomb (mpq_denref (a), state, abits);
   mpz_add_ui (mpq_denref (a), mpq_denref (a), 1);

   mpq_canonicalize (a);
   signs = gmp_urandomb_ui (state, 2);
   if (signs & 1)
     mpq_neg (a, a);

   *ap = mpq_get_str (NULL, 16, a);
   *rp = mpq_get_str (NULL, base, a);

   mpq_clear (a);
 }
	/*

	Copyright 2011, 2016, 2018 Free Software Foundation, Inc.

	This file is part of the GNU MP Library test suite.

	The GNU MP Library test suite is free software; you can redistribute it
	and/or modify it under the terms of the GNU General Public License as
	published by the Free Software Foundation; either version 3 of the License,
	or (at your option) any later version.

	The GNU MP Library test suite is distributed in the hope that it will be
	useful, but WITHOUT ANY WARRANTY; without even the implied warranty of
	MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General
	Public License for more details.

	You should have received a copy of the GNU General Public License along with
	the GNU MP Library test suite. If not, see https://www.gnu.org/licenses/. */

	#include <stdio.h>
	#include <stdlib.h>

	#include <time.h>

	#ifdef __unix__
	# include <unistd.h>
	# include <sys/time.h>
	#endif

	#include "gmp.h"

	#include "hex-random.h"

	/* FIXME: gmp-impl.h included only for mpz_lucas_mod */
	/* #include "gmp-impl.h" */
	#if defined (__cplusplus)
	extern "C" {
	#endif

	#define mpz_lucas_mod __gmpz_lucas_mod
	__GMP_DECLSPEC int mpz_lucas_mod (mpz_ptr, mpz_ptr, long, mp_bitcnt_t, mpz_srcptr, mpz_ptr, mpz_ptr);

	#if defined (__cplusplus)
	}
	#endif

	static gmp_randstate_t state;

	static void
	mkseed (mpz_t seed)
	{
	FILE *f = fopen ("/dev/urandom", "rb");
	if (f)
	{
	unsigned char buf[6];
	size_t res;

	setbuf (f, NULL);
	res = fread (buf, sizeof(buf), 1, f);
	fclose (f);

	if (res == 1)
	{
	mpz_import (seed, sizeof(buf), 1, 1, 0, 0, buf);
	return;
	}
	}

	#ifdef __unix__
	{
	struct timeval tv;
	mpz_t usec;
	mpz_init (usec);

	gettimeofday (&tv, NULL);
	mpz_set_ui (seed, tv.tv_sec);
	mpz_set_ui (usec, tv.tv_usec);
	/* usec fits in 20 bits, shift left to make it 48 bits. */
	mpz_mul_2exp (usec, usec, 28);
	mpz_xor (seed, seed, usec);

	mpz_clear (usec);
	}
	#else
	mpz_set_ui (seed, time (NULL));
	#endif
	}

	void
	hex_random_init (void)
	{
	mpz_t seed;
	char *env_seed;

	mpz_init (seed);

	env_seed = getenv ("GMP_CHECK_RANDOMIZE");
	if (env_seed && env_seed[0])
	{
	mpz_set_str (seed, env_seed, 0);
	if (mpz_cmp_ui (seed, 0) != 0)
	gmp_printf ("Re-seeding with GMP_CHECK_RANDOMIZE=%Zd\n", seed);
	else
	{
	mkseed (seed);
	gmp_printf ("Seed GMP_CHECK_RANDOMIZE=%Zd (include this in bug reports)\n", seed);
	}
	fflush (stdout);
	}
	else
	mpz_set_ui (seed, 4711);

	gmp_randinit_default (state);
	gmp_randseed (state, seed);

	mpz_clear (seed);
	}

	char *
	hex_urandomb (unsigned long bits)
	{
	char *res;
	mpz_t x;

	mpz_init (x);
	mpz_urandomb (x, state, bits);
	gmp_asprintf (&res, "%Zx", x);
	mpz_clear (x);
	return res;
	}

	char *
	hex_rrandomb (unsigned long bits)
	{
	char *res;
	mpz_t x;

	mpz_init (x);
	mpz_rrandomb (x, state, bits);
	gmp_asprintf (&res, "%Zx", x);
	mpz_clear (x);
	return res;
	}

	char *
	hex_rrandomb_export (void dst, size_t countp,
	int order, size_t size, int endian, unsigned long bits)
	{
	char *res;
	mpz_t x;
	mpz_init (x);
	mpz_rrandomb (x, state, bits);
	gmp_asprintf (&res, "%Zx", x);
	mpz_export (dst, countp, order, size, endian, 0, x);
	mpz_clear (x);
	return res;
	}

	void hex_random_op2 (enum hex_random_op op, unsigned long maxbits,
	char ap, char rp)
	{
	mpz_t a, r;
	unsigned long abits;
	unsigned signs;

	mpz_init (a);
	mpz_init (r);

	abits = gmp_urandomb_ui (state, 32) % maxbits;

	mpz_rrandomb (a, state, abits);

	signs = gmp_urandomb_ui (state, 1);
	if (signs & 1)
	mpz_neg (a, a);

	switch (op)
	{
	default:
	abort ();
	case OP_SQR:
	mpz_mul (r, a, a);
	break;
	}

	gmp_asprintf (ap, "%Zx", a);
	gmp_asprintf (rp, "%Zx", r);

	mpz_clear (a);
	mpz_clear (r);
	}

	void
	hex_random_op3 (enum hex_random_op op, unsigned long maxbits,
	char ap, char bp, char **rp)
	{
	mpz_t a, b, r;
	unsigned long abits, bbits;
	unsigned signs;

	mpz_init (a);
	mpz_init (b);
	mpz_init (r);

	abits = gmp_urandomb_ui (state, 32) % maxbits;
	bbits = gmp_urandomb_ui (state, 32) % maxbits;

	mpz_rrandomb (a, state, abits);
	mpz_rrandomb (b, state, bbits);

	signs = gmp_urandomb_ui (state, 3);
	if (signs & 1)
	mpz_neg (a, a);
	if (signs & 2)
	mpz_neg (b, b);

	switch (op)
	{
	default:
	abort ();
	case OP_ADD:
	mpz_add (r, a, b);
	break;
	case OP_SUB:
	mpz_sub (r, a, b);
	break;
	case OP_MUL:
	mpz_mul (r, a, b);
	break;
	case OP_GCD:
	if (signs & 4)
	{
	/* Produce a large gcd */
	unsigned long gbits = gmp_urandomb_ui (state, 32) % maxbits;
	mpz_rrandomb (r, state, gbits);
	mpz_mul (a, a, r);
	mpz_mul (b, b, r);
	}
	mpz_gcd (r, a, b);
	break;
	case OP_LCM:
	if (signs & 4)
	{
	/* Produce a large gcd */
	unsigned long gbits = gmp_urandomb_ui (state, 32) % maxbits;
	mpz_rrandomb (r, state, gbits);
	mpz_mul (a, a, r);
	mpz_mul (b, b, r);
	}
	mpz_lcm (r, a, b);
	break;
	case OP_AND:
	mpz_and (r, a, b);
	break;
	case OP_IOR:
	mpz_ior (r, a, b);
	break;
	case OP_XOR:
	mpz_xor (r, a, b);
	break;
	}

	gmp_asprintf (ap, "%Zx", a);
	gmp_asprintf (bp, "%Zx", b);
	gmp_asprintf (rp, "%Zx", r);

	mpz_clear (a);
	mpz_clear (b);
	mpz_clear (r);
	}

	void
	hex_random_op4 (enum hex_random_op op, unsigned long maxbits,
	char ap, char bp, char cp, char dp)
	{
	mpz_t a, b, c, d;
	unsigned long abits, bbits;
	unsigned signs;

	mpz_init (a);
	mpz_init (b);
	mpz_init (c);
	mpz_init (d);

	if (op == OP_POWM)
	{
	unsigned long cbits;
	abits = gmp_urandomb_ui (state, 32) % maxbits;
	bbits = 1 + gmp_urandomb_ui (state, 32) % maxbits;
	cbits = 2 + gmp_urandomb_ui (state, 32) % maxbits;

	mpz_rrandomb (a, state, abits);
	mpz_rrandomb (b, state, bbits);
	mpz_rrandomb (c, state, cbits);

	signs = gmp_urandomb_ui (state, 3);
	if (signs & 1)
	mpz_neg (a, a);
	if (signs & 2)
	{
	mpz_t g;

	/* If we negate the exponent, must make sure that gcd(a, c) = 1 */
	if (mpz_sgn (a) == 0)
	mpz_set_ui (a, 1);
	else
	{
	mpz_init (g);

	for (;;)
	{
	mpz_gcd (g, a, c);
	if (mpz_cmp_ui (g, 1) == 0)
	break;
	mpz_divexact (a, a, g);
	}
	mpz_clear (g);
	}
	mpz_neg (b, b);
	}
	if (signs & 4)
	mpz_neg (c, c);

	mpz_powm (d, a, b, c);
	}
	else
	{
	unsigned long qbits;
	bbits = 1 + gmp_urandomb_ui (state, 32) % maxbits;
	qbits = gmp_urandomb_ui (state, 32) % maxbits;
	abits = bbits + qbits;
	if (abits > 30)
	abits -= 30;
	else
	abits = 0;

	mpz_rrandomb (a, state, abits);
	mpz_rrandomb (b, state, bbits);

	signs = gmp_urandomb_ui (state, 2);
	if (signs & 1)
	mpz_neg (a, a);
	if (signs & 2)
	mpz_neg (b, b);

	switch (op)
	{
	default:
	abort ();
	case OP_CDIV:
	mpz_cdiv_qr (c, d, a, b);
	break;
	case OP_FDIV:
	mpz_fdiv_qr (c, d, a, b);
	break;
	case OP_TDIV:
	mpz_tdiv_qr (c, d, a, b);
	break;
	}
	}
	gmp_asprintf (ap, "%Zx", a);
	gmp_asprintf (bp, "%Zx", b);
	gmp_asprintf (cp, "%Zx", c);
	gmp_asprintf (dp, "%Zx", d);

	mpz_clear (a);
	mpz_clear (b);
	mpz_clear (c);
	mpz_clear (d);
	}

	void
	hex_random_bit_op (enum hex_random_op op, unsigned long maxbits,
	char *ap, unsigned long b, char **rp)
	{
	mpz_t a, r;
	unsigned long abits, bbits;
	unsigned signs;

	mpz_init (a);
	mpz_init (r);

	abits = gmp_urandomb_ui (state, 32) % maxbits;
	bbits = gmp_urandomb_ui (state, 32) % (maxbits + 100);

	mpz_rrandomb (a, state, abits);

	signs = gmp_urandomb_ui (state, 1);
	if (signs & 1)
	mpz_neg (a, a);

	switch (op)
	{
	default:
	abort ();

	case OP_SETBIT:
	mpz_set (r, a);
	mpz_setbit (r, bbits);
	break;
	case OP_CLRBIT:
	mpz_set (r, a);
	mpz_clrbit (r, bbits);
	break;
	case OP_COMBIT:
	mpz_set (r, a);
	mpz_combit (r, bbits);
	break;
	case OP_CDIV_Q_2:
	mpz_cdiv_q_2exp (r, a, bbits);
	break;
	case OP_CDIV_R_2:
	mpz_cdiv_r_2exp (r, a, bbits);
	break;
	case OP_FDIV_Q_2:
	mpz_fdiv_q_2exp (r, a, bbits);
	break;
	case OP_FDIV_R_2:
	mpz_fdiv_r_2exp (r, a, bbits);
	break;
	case OP_TDIV_Q_2:
	mpz_tdiv_q_2exp (r, a, bbits);
	break;
	case OP_TDIV_R_2:
	mpz_tdiv_r_2exp (r, a, bbits);
	break;
	}

	gmp_asprintf (ap, "%Zx", a);
	*b = bbits;
	gmp_asprintf (rp, "%Zx", r);

	mpz_clear (a);
	mpz_clear (r);
	}

	void
	hex_random_scan_op (enum hex_random_op op, unsigned long maxbits,
	char *ap, unsigned long b, unsigned long *r)
	{
	mpz_t a;
	unsigned long abits, bbits;
	unsigned signs;

	mpz_init (a);

	abits = gmp_urandomb_ui (state, 32) % maxbits;
	bbits = gmp_urandomb_ui (state, 32) % (maxbits + 100);

	mpz_rrandomb (a, state, abits);

	signs = gmp_urandomb_ui (state, 1);
	if (signs & 1)
	mpz_neg (a, a);

	switch (op)
	{
	default:
	abort ();

	case OP_SCAN0:
	*r = mpz_scan0 (a, bbits);
	break;
	case OP_SCAN1:
	*r = mpz_scan1 (a, bbits);
	break;
	}
	gmp_asprintf (ap, "%Zx", a);
	*b = bbits;

	mpz_clear (a);
	}

	void
	hex_random_str_op (unsigned long maxbits,
	int base, char ap, char rp)
	{
	mpz_t a;
	unsigned long abits;
	unsigned signs;

	mpz_init (a);

	abits = gmp_urandomb_ui (state, 32) % maxbits;

	mpz_rrandomb (a, state, abits);

	signs = gmp_urandomb_ui (state, 2);
	if (signs & 1)
	mpz_neg (a, a);

	*ap = mpz_get_str (NULL, 16, a);
	*rp = mpz_get_str (NULL, base, a);

	mpz_clear (a);
	}

	void hex_random_lucm_op (unsigned long maxbits,
	char vp, char qp, char **mp,
	long Q, unsigned long b0, int *res)
	{
	mpz_t m, v, q, t1, t2;
	unsigned long mbits;

	mpz_init (m);
	mpz_init (v);
	mpz_init (q);
	mpz_init (t1);
	mpz_init (t2);

	*Q = gmp_urandomb_ui (state, 14) + 1;

	do
	{
	mbits = gmp_urandomb_ui (state, 32) % maxbits + 5;

	mpz_rrandomb (m, state, mbits);
	*b0 = gmp_urandomb_ui (state, 32) % (mbits - 3) + 2;
	/* The GMP implementation uses the exponent (m >> b0) + 1. */
	/* mini-gmp implementation uses the exponent (m >> b0) \| 1. */
	/* They are the same (and are used) only when (m >> b0) is even */
	mpz_clrbit (m, *b0);
	/* mini-gmp implementation only works if the modulus is odd. */
	mpz_setbit (m, 0);
	}
	while (mpz_gcd_ui (NULL, m, *Q) != 1);

	if (*Q == 1 \|\| gmp_urandomb_ui (state, 1))
	Q = - Q;

	#if (__GNU_MP_VERSION == 6 && (__GNU_MP_VERSION_MINOR > 1 \|\| __GNU_MP_VERSION_PATCHLEVEL > 9))
	res = mpz_lucas_mod (v, q, Q, *b0, m, t1, t2);
	#else
	*b0 = 0;
	#endif

	gmp_asprintf (vp, "%Zx", v);
	gmp_asprintf (qp, "%Zx", q);
	gmp_asprintf (mp, "%Zx", m);

	mpz_clear (m);
	mpz_clear (v);
	mpz_clear (q);
	mpz_clear (t1);
	mpz_clear (t2);
	}

	void
	hex_mpq_random_str_op (unsigned long maxbits,
	int base, char ap, char rp)
	{
	mpq_t a;
	unsigned long abits;
	unsigned signs;

	mpq_init (a);

	abits = gmp_urandomb_ui (state, 32) % maxbits;

	mpz_rrandomb (mpq_numref (a), state, abits);
	mpz_rrandomb (mpq_denref (a), state, abits);
	mpz_add_ui (mpq_denref (a), mpq_denref (a), 1);

	mpq_canonicalize (a);
	signs = gmp_urandomb_ui (state, 2);
	if (signs & 1)
	mpq_neg (a, a);

	*ap = mpq_get_str (NULL, 16, a);
	*rp = mpq_get_str (NULL, base, a);

	mpq_clear (a);
	}