/src/gmp-6.2.1/rand/randmt.c

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/* Mersenne Twister pseudo-random number generator functions.

   THE FUNCTIONS IN THIS FILE ARE FOR INTERNAL USE ONLY.  THEY'RE ALMOST
   CERTAIN TO BE SUBJECT TO INCOMPATIBLE CHANGES OR DISAPPEAR COMPLETELY IN
   FUTURE GNU MP RELEASES.

Copyright 2002, 2003, 2006 Free Software Foundation, Inc.

This file is part of the GNU MP Library.

The GNU MP Library is free software; you can redistribute it and/or modify
it under the terms of either:

  * the GNU Lesser General Public License as published by the Free
    Software Foundation; either version 3 of the License, or (at your
    option) any later version.

or

  * the GNU General Public License as published by the Free Software
    Foundation; either version 2 of the License, or (at your option) any
    later version.

or both in parallel, as here.

The GNU MP Library 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 copies of the GNU General Public License and the
GNU Lesser General Public License along with the GNU MP Library.  If not,
see https://www.gnu.org/licenses/.  */

#include <stdio.h>   /* for NULL */

#include "gmp-impl.h"
#include "randmt.h"


/* This code implements the Mersenne Twister pseudorandom number generator
   by Takuji Nishimura and Makoto Matsumoto.  The buffer initialization
   function is different in order to permit seeds greater than 2^32-1.

   This file contains a special __gmp_randinit_mt_noseed which excludes the
   seeding function from the gmp_randfnptr_t routines.  This is for use by
   mpn_random and mpn_random2 on the global random generator.  MT seeding
   uses mpz functions, and we don't want mpn routines dragging mpz functions
   into the link.  */


/* Default seed to use when the generator is not initialized.  */
#define DEFAULT_SEED 5489 /* was 4357 */

/* Tempering masks.  */
#define MASK_1 0x9D2C5680
#define MASK_2 0xEFC60000

/* Initial state of buffer when initialized with default seed.  */
static const gmp_uint_least32_t default_state[N] =
{
  0xD247B233,0x9E5AA8F1,0x0FFA981B,0x9DCB0980,0x74200F2B,0xA576D044,
  0xE9F05ADF,0x1538BFF5,0x59818BBF,0xCF9E58D8,0x09FCE032,0x6A1C663F,
  0x5116E78A,0x69B3E0FA,0x6D92D665,0xD0A8BE98,0xF669B734,0x41AC1B68,
  0x630423F1,0x4B8D6B8A,0xC2C46DD7,0x5680747D,0x43703E8F,0x3B6103D2,
  0x49E5EB3F,0xCBDAB4C1,0x9C988E23,0x747BEE0B,0x9111E329,0x9F031B5A,
  0xECCA71B9,0x2AFE4EF8,0x8421C7ED,0xAC89AFF1,0xAED90DF3,0x2DD74F01,
  0x14906A13,0x75873FA9,0xFF83F877,0x5028A0C9,0x11B4C41D,0x7CAEDBC4,
  0x8672D0A7,0x48A7C109,0x8320E59F,0xBC0B3D5F,0x75A30886,0xF9E0D128,
  0x41AF7580,0x239BB94D,0xC67A3C81,0x74EEBD6E,0xBC02B53C,0x727EA449,
  0x6B8A2806,0x5853B0DA,0xBDE032F4,0xCE234885,0x320D6145,0x48CC053F,
  0x00DBC4D2,0xD55A2397,0xE1059B6F,0x1C3E05D1,0x09657C64,0xD07CB661,
  0x6E982E34,0x6DD1D777,0xEDED1071,0xD79DFD65,0xF816DDCE,0xB6FAF1E4,
  0x1C771074,0x311835BD,0x18F952F7,0xF8F40350,0x4ECED354,0x7C8AC12B,
  0x31A9994D,0x4FD47747,0xDC227A23,0x6DFAFDDF,0x6796E748,0x0C6F634F,
  0xF992FA1D,0x4CF670C9,0x067DFD31,0xA7A3E1A5,0x8CD7D9DF,0x972CCB34,
  0x67C82156,0xD548F6A8,0x045CEC21,0xF3240BFB,0xDEF656A7,0x43DE08C5,
  0xDAD1F92F,0x3726C56B,0x1409F19A,0x942FD147,0xB926749C,0xADDC31B8,
  0x53D0D869,0xD1BA52FE,0x6722DF8C,0x22D95A74,0x7DC1B52A,0x1DEC6FD5,
  0x7262874D,0x0A725DC9,0xE6A8193D,0xA052835A,0xDC9AD928,0xE59EBB90,
  0x70DBA9FF,0xD612749D,0x5A5A638C,0x6086EC37,0x2A579709,0x1449EA3A,
  0xBC8E3C06,0x2F900666,0xFBE74FD1,0x6B35B911,0xF8335008,0xEF1E979D,
  0x738AB29D,0xA2DC0FDC,0x7696305D,0xF5429DAC,0x8C41813B,0x8073E02E,
  0xBEF83CCD,0x7B50A95A,0x05EE5862,0x00829ECE,0x8CA1958C,0xBE4EA2E2,
  0x4293BB73,0x656F7B23,0x417316D8,0x4467D7CF,0x2200E63B,0x109050C8,
  0x814CBE47,0x36B1D4A8,0x36AF9305,0x308327B3,0xEBCD7344,0xA738DE27,
  0x5A10C399,0x4142371D,0x64A18528,0x0B31E8B2,0x641057B9,0x6AFC363B,
  0x108AD953,0x9D4DA234,0x0C2D9159,0x1C8A1A1F,0x310C66BA,0x87AA1070,
  0xDAC832FF,0x0A433422,0x7AF15812,0x2D8D9BD0,0x995A25E9,0x25326CAC,
  0xA34384DB,0x4C8421CC,0x4F0315EC,0x29E8649E,0xA7732D6F,0x2E94D3E3,
  0x7D98A340,0x397C4D74,0x659DB4DE,0x747D4E9A,0xD9DB8435,0x4659DBE9,
  0x313E6DC5,0x29D104DC,0x9F226CBA,0x452F18B0,0xD0BC5068,0x844CA299,
  0x782B294E,0x4AE2EB7B,0xA4C475F8,0x70A81311,0x4B3E8BCC,0x7E20D4BA,
  0xABCA33C9,0x57BE2960,0x44F9B419,0x2E567746,0x72EB757A,0x102CC0E8,
  0xB07F32B9,0xD0DABD59,0xBA85AD6B,0xF3E20667,0x98D77D81,0x197AFA47,
  0x518EE9AC,0xE10CE5A2,0x01CF2C2A,0xD3A3AF3D,0x16DDFD65,0x669232F8,
  0x1C50A301,0xB93D9151,0x9354D3F4,0x847D79D0,0xD5FE2EC6,0x1F7B0610,
  0xFA6B90A5,0xC5879041,0x2E7DC05E,0x423F1F32,0xEF623DDB,0x49C13280,
  0x98714E92,0xC7B6E4AD,0xC4318466,0x0737F312,0x4D3C003F,0x9ACC1F1F,
  0x5F1C926D,0x085FA771,0x185A83A2,0xF9AA159D,0x0B0B0132,0xF98E7A43,
  0xCD9EBDBE,0x0190CB29,0x10D93FB6,0x3B8A4D97,0x66A65A41,0xE43E766F,
  0x77BE3C41,0xB9686364,0xCB36994D,0x6846A287,0x567E77F7,0x36178DD8,
  0xBDE6B1F2,0xB6EFDC64,0x82950324,0x42053F47,0xC09BE51C,0x0942D762,
  0x35F92C7F,0x367DEC61,0x6EE3D983,0xDBAAF78A,0x265D2C47,0x8EB4BF5C,
  0x33B232D7,0xB0137E77,0x373C39A7,0x8D2B2E76,0xC7510F01,0x50F9E032,
  0x7B1FDDDB,0x724C2AAE,0xB10ECB31,0xCCA3D1B8,0x7F0BCF10,0x4254BBBD,
  0xE3F93B97,0x2305039B,0x53120E22,0x1A2F3B9A,0x0FDDBD97,0x0118561E,
  0x0A798E13,0x9E0B3ACD,0xDB6C9F15,0xF512D0A2,0x9E8C3A28,0xEE2184AE,
  0x0051EC2F,0x2432F74F,0xB0AA66EA,0x55128D88,0xF7D83A38,0x4DAE8E82,
  0x3FDC98D6,0x5F0BD341,0x7244BE1D,0xC7B48E78,0x2D473053,0x43892E20,
  0xBA0F1F2A,0x524D4895,0x2E10BCB1,0x4C372D81,0x5C3E50CD,0xCF61CC2E,
  0x931709AB,0x81B3AEFC,0x39E9405E,0x7FFE108C,0x4FBB3FF8,0x06ABE450,
  0x7F5BF51E,0xA4E3CDFD,0xDB0F6C6F,0x159A1227,0x3B9FED55,0xD20B6F7F,
  0xFBE9CC83,0x64856619,0xBF52B8AF,0x9D7006B0,0x71165BC6,0xAE324AEE,
  0x29D27F2C,0x794C2086,0x74445CE2,0x782915CC,0xD4CE6886,0x3289AE7C,
  0x53DEF297,0x4185F7ED,0x88B72400,0x3C09DC11,0xBCE3AAB6,0x6A75934A,
  0xB267E399,0x000DF1BF,0x193BA5E2,0xFA3E1977,0x179E14F6,0x1EEDE298,
  0x691F0B06,0xB84F78AC,0xC1C15316,0xFFFF3AD6,0x0B457383,0x518CD612,
  0x05A00F3E,0xD5B7D275,0x4C5ECCD7,0xE02CD0BE,0x5558E9F2,0x0C89BBF0,
  0xA3D96227,0x2832D2B2,0xF667B897,0xD4556554,0xF9D2F01F,0xFA1E3FAE,
  0x52C2E1EE,0xE5451F31,0x7E849729,0xDABDB67A,0x54BF5E7E,0xF831C271,
  0x5F1A17E3,0x9D140AFE,0x92741C47,0x48CFABCE,0x9CBBE477,0x9C3EE57F,
  0xB07D4C39,0xCC21BCE2,0x697708B1,0x58DA2A6B,0x2370DB16,0x6E641948,
  0xACC5BD52,0x868F24CC,0xCA1DB0F5,0x4CADA492,0x3F443E54,0xC4A4D5E9,
  0xF00AD670,0xE93C86E0,0xFE90651A,0xDDE532A3,0xA66458DF,0xAB7D7151,
  0x0E2E775F,0xC9109F99,0x8D96D59F,0x73CEF14C,0xC74E88E9,0x02712DC0,
  0x04F41735,0x2E5914A2,0x59F4B2FB,0x0287FC83,0x80BC0343,0xF6B32559,
  0xC74178D4,0xF1D99123,0x383CCC07,0xACC0637D,0x0863A548,0xA6FCAC85,
  0x2A13EFF0,0xAF2EEDB1,0x41E72750,0xE0C6B342,0x5DA22B46,0x635559E0,
  0xD2EA40AC,0x10AA98C0,0x19096497,0x112C542B,0x2C85040C,0xA868E7D0,
  0x6E260188,0xF596D390,0xC3BB5D7A,0x7A2AA937,0xDFD15032,0x6780AE3B,
  0xDB5F9CD8,0x8BD266B0,0x7744AF12,0xB463B1B0,0x589629C9,0xE30DBC6E,
  0x880F5569,0x209E6E16,0x9DECA50C,0x02987A57,0xBED3EA57,0xD3A678AA,
  0x70DD030D,0x0CFD9C5D,0x92A18E99,0xF5740619,0x7F6F0A7D,0x134CAF9A,
  0x70F5BAE4,0x23DCA7B5,0x4D788FCD,0xC7F07847,0xBCF77DA1,0x9071D568,
  0xFC627EA1,0xAE004B77,0x66B54BCB,0x7EF2DAAC,0xDCD5AC30,0xB9BDF730,
  0x505A97A7,0x9D881FD3,0xADB796CC,0x94A1D202,0x97535D7F,0x31EC20C0,
  0xB1887A98,0xC1475069,0xA6F73AF3,0x71E4E067,0x46A569DE,0xD2ADE430,
  0x6F0762C7,0xF50876F4,0x53510542,0x03741C3E,0x53502224,0xD8E54D60,
  0x3C44AB1A,0x34972B46,0x74BFA89D,0xD7D768E0,0x37E605DC,0xE13D1BDF,
  0x5051C421,0xB9E057BE,0xB717A14C,0xA1730C43,0xB99638BE,0xB5D5F36D,
  0xE960D9EA,0x6B1388D3,0xECB6D3B6,0xBDBE8B83,0x2E29AFC5,0x764D71EC,
  0x4B8F4F43,0xC21DDC00,0xA63F657F,0x82678130,0xDBF535AC,0xA594FC58,
  0x942686BC,0xBD9B657B,0x4A0F9B61,0x44FF184F,0x38E10A2F,0x61910626,
  0x5E247636,0x7106D137,0xC62802F0,0xBD1D1F00,0x7CC0DCB2,0xED634909,
  0xDC13B24E,0x9799C499,0xD77E3D6A,0x14773B68,0x967A4FB7,0x35EECFB1,
  0x2A5110B8,0xE2F0AF94,0x9D09DEA5,0x20255D27,0x5771D34B,0xE1089EE4,
  0x246F330B,0x8F7CAEE5,0xD3064712,0x75CAFBEE,0xB94F7028,0xED953666,
  0x5D1975B4,0x5AF81271,0x13BE2025,0x85194659,0x30805331,0xEC9D46C0,
  0xBC027C36,0x2AF84188,0xC2141B80,0xC02B1E4A,0x04D36177,0xFC50E9D7,
  0x39CE79DA,0x917E0A00,0xEF7A0BF4,0xA98BD8D1,0x19424DD2,0x9439DF1F,
  0xC42AF746,0xADDBE83E,0x85221F0D,0x45563E90,0x9095EC52,0x77887B25,
  0x8AE46064,0xBD43B71A,0xBB541956,0x7366CF9D,0xEE8E1737,0xB5A727C9,
  0x5076B3E7,0xFC70BACA,0xCE135B75,0xC4E91AA3,0xF0341911,0x53430C3F,
  0x886B0824,0x6BB5B8B7,0x33E21254,0xF193B456,0x5B09617F,0x215FFF50,
  0x48D97EF1,0x356479AB,0x6EA9DDC4,0x0D352746,0xA2F5CE43,0xB226A1B3,
  0x1329EA3C,0x7A337CC2,0xB5CCE13D,0x563E3B5B,0x534E8E8F,0x561399C9,
  0xE1596392,0xB0F03125,0x4586645B,0x1F371847,0x94EAABD1,0x41F97EDD,
  0xE3E5A39B,0x71C774E2,0x507296F4,0x5960133B,0x7852C494,0x3F5B2691,
  0xA3F87774,0x5A7AF89E,0x17DA3F28,0xE9D9516D,0xFCC1C1D5,0xE4618628,
  0x04081047,0xD8E4DB5F,0xDC380416,0x8C4933E2,0x95074D53,0xB1B0032D,
  0xCC8102EA,0x71641243,0x98D6EB6A,0x90FEC945,0xA0914345,0x6FAB037D,
  0x70F49C4D,0x05BF5B0E,0x927AAF7F,0xA1940F61,0xFEE0756F,0xF815369F,
  0x5C00253B,0xF2B9762F,0x4AEB3CCC,0x1069F386,0xFBA4E7B9,0x70332665,
  0x6BCA810E,0x85AB8058,0xAE4B2B2F,0x9D120712,0xBEE8EACB,0x776A1112
};

void
__gmp_mt_recalc_buffer (gmp_uint_least32_t mt[])
{
  gmp_uint_least32_t y;
  int kk;

  for (kk = 0; kk < N - M; kk++)
    {
      y = (mt[kk] & 0x80000000) | (mt[kk + 1] & 0x7FFFFFFF);
      mt[kk] = mt[kk + M] ^ (y >> 1) ^ ((y & 0x01) != 0 ? MATRIX_A : 0);
    }
  for (; kk < N - 1; kk++)
    {
      y = (mt[kk] & 0x80000000) | (mt[kk + 1] & 0x7FFFFFFF);
      mt[kk] = mt[kk - (N - M)] ^ (y >> 1) ^ ((y & 0x01) != 0 ? MATRIX_A : 0);
    }

  y = (mt[N - 1] & 0x80000000) | (mt[0] & 0x7FFFFFFF);
  mt[N - 1] = mt[M - 1] ^ (y >> 1) ^ ((y & 0x01) != 0 ? MATRIX_A : 0);
}


/* Get nbits bits of output from the generator into dest.
   Note that Mersenne Twister is designed to produce outputs in
   32-bit words.  */
void
__gmp_randget_mt (gmp_randstate_t rstate, mp_ptr dest, unsigned long int nbits)
{
  gmp_uint_least32_t y;
  int rbits;
  mp_size_t i;
  mp_size_t nlimbs;
  int *pmti;
  gmp_uint_least32_t *mt;

  pmti = &((gmp_rand_mt_struct *) RNG_STATE (rstate))->mti;
  mt = ((gmp_rand_mt_struct *) RNG_STATE (rstate))->mt;

  nlimbs = nbits / GMP_NUMB_BITS;
  rbits = nbits % GMP_NUMB_BITS;

#define NEXT_RANDOM     \
  do          \
    {         \
      if (*pmti >= N)     \
  {       \
    __gmp_mt_recalc_buffer (mt);  \
    *pmti = 0;      \
  }        \
      y = mt[(*pmti)++];    \
      y ^= (y >> 11);     \
      y ^= (y << 7) & MASK_1;   \
      y ^= (y << 15) & MASK_2;   \
      y ^= (y >> 18);     \
    }         \
  while (0)


  /* Handle the common cases of 32- or 64-bit limbs with fast,
     optimized routines, and the rest of cases with a general
     routine.  In all cases, no more than 31 bits are rejected
     for the last limb so that every version of the code is
     consistent with the others.  */

#if (GMP_NUMB_BITS == 32)

  for (i = 0; i < nlimbs; i++)
    {
      NEXT_RANDOM;
      dest[i] = (mp_limb_t) y;
    }
  if (rbits)
    {
      NEXT_RANDOM;
      dest[nlimbs] = (mp_limb_t) (y & ~(ULONG_MAX << rbits));
    }

#else /* GMP_NUMB_BITS != 32 */
#if (GMP_NUMB_BITS == 64)

  for (i = 0; i < nlimbs; i++)
    {
      NEXT_RANDOM;
      dest[i] = (mp_limb_t) y;
      NEXT_RANDOM;
      dest[i] |= (mp_limb_t) y << 32;
    }
  if (rbits)
    {
      if (rbits < 32)
  {
    NEXT_RANDOM;
    dest[nlimbs] = (mp_limb_t) (y & ~(ULONG_MAX << rbits));
  }
      else
  {
    NEXT_RANDOM;
    dest[nlimbs] = (mp_limb_t) y;
    if (rbits > 32)
      {
        NEXT_RANDOM;
        dest[nlimbs] |=
    ((mp_limb_t) (y & ~(ULONG_MAX << (rbits-32)))) << 32;
      }
  }
    }

#else /* GMP_NUMB_BITS != 64 */

  {
    /* Fall back to a general algorithm.  This algorithm works by
       keeping a pool of up to 64 bits (2 outputs from MT) acting
       as a shift register from which bits are consumed as needed.
       Bits are consumed using the LSB bits of bitpool_l, and
       inserted via bitpool_h and shifted to the right place.  */

    gmp_uint_least32_t bitpool_h = 0;
    gmp_uint_least32_t bitpool_l = 0;
    int bits_in_pool = 0; /* Holds number of valid bits in the pool.  */
    int bits_to_fill;   /* Holds total number of bits to put in
           destination.  */
    int bitidx;     /* Holds the destination bit position.  */
    mp_size_t nlimbs2;    /* Number of whole+partial limbs to fill.  */

    nlimbs2 = nlimbs + (rbits != 0);

    for (i = 0; i < nlimbs2; i++)
      {
  bitidx = 0;
  if (i < nlimbs)
    bits_to_fill = GMP_NUMB_BITS;
  else
    bits_to_fill = rbits;

  dest[i] = CNST_LIMB (0);
  while (bits_to_fill >= 32) /* Process whole 32-bit blocks first.  */
    {
      if (bits_in_pool < 32)  /* Need more bits.  */
        {
    /* 64-bit right shift.  */
    NEXT_RANDOM;
    bitpool_h = y;
    bitpool_l |= (bitpool_h << bits_in_pool) & 0xFFFFFFFF;
    if (bits_in_pool == 0)
      bitpool_h = 0;
    else
      bitpool_h >>= 32 - bits_in_pool;
    bits_in_pool += 32; /* We've got 32 more bits.  */
        }

      /* Fill a 32-bit chunk.  */
      dest[i] |= ((mp_limb_t) bitpool_l) << bitidx;
      bitpool_l = bitpool_h;
      bits_in_pool -= 32;
      bits_to_fill -= 32;
      bitidx += 32;
    }

  /* Cover the case where GMP_NUMB_BITS is not a multiple of 32.  */
  if (bits_to_fill != 0)
    {
      if (bits_in_pool < bits_to_fill)
        {
    NEXT_RANDOM;
    bitpool_h = y;
    bitpool_l |= (bitpool_h << bits_in_pool) & 0xFFFFFFFF;
    if (bits_in_pool == 0)
      bitpool_h = 0;
    else
      bitpool_h >>= 32 - bits_in_pool;
    bits_in_pool += 32;
        }

      dest[i] |= (((mp_limb_t) bitpool_l
       & ~(~CNST_LIMB (0) << bits_to_fill))
      << bitidx);
      bitpool_l = ((bitpool_l >> bits_to_fill)
       | (bitpool_h << (32 - bits_to_fill))) & 0xFFFFFFFF;
      bitpool_h >>= bits_to_fill;
      bits_in_pool -= bits_to_fill;
    }
      }
  }

#endif /* GMP_NUMB_BITS != 64 */
#endif /* GMP_NUMB_BITS != 32 */
}

void
__gmp_randclear_mt (gmp_randstate_t rstate)
{
  (*__gmp_free_func) ((void *) RNG_STATE (rstate),
          ALLOC (rstate->_mp_seed) * GMP_LIMB_BYTES);
}

void __gmp_randiset_mt (gmp_randstate_ptr, gmp_randstate_srcptr);

static const gmp_randfnptr_t Mersenne_Twister_Generator_Noseed = {
  NULL,
  __gmp_randget_mt,
  __gmp_randclear_mt,
  __gmp_randiset_mt
};

void
__gmp_randiset_mt (gmp_randstate_ptr dst, gmp_randstate_srcptr src)
{
  const mp_size_t sz = ((sizeof (gmp_rand_mt_struct) - 1) / GMP_LIMB_BYTES) + 1;
  gmp_rand_mt_struct *dstp, *srcp;
  mp_size_t i;

  /* Set the generator functions.  */
  RNG_FNPTR (dst) = RNG_FNPTR(src);

  /* Allocate the MT-specific state.  */
  dstp = (gmp_rand_mt_struct *) __GMP_ALLOCATE_FUNC_LIMBS (sz);
  RNG_STATE (dst) = (mp_ptr) dstp;
  ALLOC (dst->_mp_seed) = sz;     /* Initialize alloc field to placate Camm.  */

  /* Copy state.  */
  srcp = (gmp_rand_mt_struct *) RNG_STATE (src);
  for (i = 0; i < N; i++)
    dstp->mt[i] = srcp->mt[i];

  dstp->mti = srcp->mti;
}

void
__gmp_randinit_mt_noseed (gmp_randstate_ptr dst)
{
  const mp_size_t sz = ((sizeof (gmp_rand_mt_struct) - 1) / GMP_LIMB_BYTES) + 1;
  gmp_rand_mt_struct *dstp;
  mp_size_t i;

  /* Set the generator functions.  */
  RNG_FNPTR (dst) = (void *) &Mersenne_Twister_Generator_Noseed;

  /* Allocate the MT-specific state.  */
  dstp = (gmp_rand_mt_struct *) __GMP_ALLOCATE_FUNC_LIMBS (sz);
  RNG_STATE (dst) = (mp_ptr) dstp;
  ALLOC (dst->_mp_seed) = sz;     /* Initialize alloc field to placate Camm.  */

  /* Set state for default seed.  */
  for (i = 0; i < N; i++)
    dstp->mt[i] = default_state[i];

  dstp->mti = WARM_UP % N;
}

Coverage Report

Created: 2023-02-22 06:39

Line	Count	Source (jump to first uncovered line)
1		/* Mersenne Twister pseudo-random number generator functions.
2
3		THE FUNCTIONS IN THIS FILE ARE FOR INTERNAL USE ONLY. THEY'RE ALMOST
4		CERTAIN TO BE SUBJECT TO INCOMPATIBLE CHANGES OR DISAPPEAR COMPLETELY IN
5		FUTURE GNU MP RELEASES.
6
7		Copyright 2002, 2003, 2006 Free Software Foundation, Inc.
8
9		This file is part of the GNU MP Library.
10
11		The GNU MP Library is free software; you can redistribute it and/or modify
12		it under the terms of either:
13
14		* the GNU Lesser General Public License as published by the Free
15		Software Foundation; either version 3 of the License, or (at your
16		option) any later version.
17
18		or
19
20		* the GNU General Public License as published by the Free Software
21		Foundation; either version 2 of the License, or (at your option) any
22		later version.
23
24		or both in parallel, as here.
25
26		The GNU MP Library is distributed in the hope that it will be useful, but
27		WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
28		or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
29		for more details.
30
31		You should have received copies of the GNU General Public License and the
32		GNU Lesser General Public License along with the GNU MP Library. If not,
33		see https://www.gnu.org/licenses/. */
34
35		#include <stdio.h> /* for NULL */
36
37		#include "gmp-impl.h"
38		#include "randmt.h"
39
40
41		/* This code implements the Mersenne Twister pseudorandom number generator
42		by Takuji Nishimura and Makoto Matsumoto. The buffer initialization
43		function is different in order to permit seeds greater than 2^32-1.
44
45		This file contains a special __gmp_randinit_mt_noseed which excludes the
46		seeding function from the gmp_randfnptr_t routines. This is for use by
47		mpn_random and mpn_random2 on the global random generator. MT seeding
48		uses mpz functions, and we don't want mpn routines dragging mpz functions
49		into the link. */
50
51
52		/* Default seed to use when the generator is not initialized. */
53		#define DEFAULT_SEED 5489 /* was 4357 */
54
55		/* Tempering masks. */
56	0	#define MASK_1 0x9D2C5680
57	0	#define MASK_2 0xEFC60000
58
59		/* Initial state of buffer when initialized with default seed. */
60		static const gmp_uint_least32_t default_state[N] =
61		{
62		0xD247B233,0x9E5AA8F1,0x0FFA981B,0x9DCB0980,0x74200F2B,0xA576D044,
63		0xE9F05ADF,0x1538BFF5,0x59818BBF,0xCF9E58D8,0x09FCE032,0x6A1C663F,
64		0x5116E78A,0x69B3E0FA,0x6D92D665,0xD0A8BE98,0xF669B734,0x41AC1B68,
65		0x630423F1,0x4B8D6B8A,0xC2C46DD7,0x5680747D,0x43703E8F,0x3B6103D2,
66		0x49E5EB3F,0xCBDAB4C1,0x9C988E23,0x747BEE0B,0x9111E329,0x9F031B5A,
67		0xECCA71B9,0x2AFE4EF8,0x8421C7ED,0xAC89AFF1,0xAED90DF3,0x2DD74F01,
68		0x14906A13,0x75873FA9,0xFF83F877,0x5028A0C9,0x11B4C41D,0x7CAEDBC4,
69		0x8672D0A7,0x48A7C109,0x8320E59F,0xBC0B3D5F,0x75A30886,0xF9E0D128,
70		0x41AF7580,0x239BB94D,0xC67A3C81,0x74EEBD6E,0xBC02B53C,0x727EA449,
71		0x6B8A2806,0x5853B0DA,0xBDE032F4,0xCE234885,0x320D6145,0x48CC053F,
72		0x00DBC4D2,0xD55A2397,0xE1059B6F,0x1C3E05D1,0x09657C64,0xD07CB661,
73		0x6E982E34,0x6DD1D777,0xEDED1071,0xD79DFD65,0xF816DDCE,0xB6FAF1E4,
74		0x1C771074,0x311835BD,0x18F952F7,0xF8F40350,0x4ECED354,0x7C8AC12B,
75		0x31A9994D,0x4FD47747,0xDC227A23,0x6DFAFDDF,0x6796E748,0x0C6F634F,
76		0xF992FA1D,0x4CF670C9,0x067DFD31,0xA7A3E1A5,0x8CD7D9DF,0x972CCB34,
77		0x67C82156,0xD548F6A8,0x045CEC21,0xF3240BFB,0xDEF656A7,0x43DE08C5,
78		0xDAD1F92F,0x3726C56B,0x1409F19A,0x942FD147,0xB926749C,0xADDC31B8,
79		0x53D0D869,0xD1BA52FE,0x6722DF8C,0x22D95A74,0x7DC1B52A,0x1DEC6FD5,
80		0x7262874D,0x0A725DC9,0xE6A8193D,0xA052835A,0xDC9AD928,0xE59EBB90,
81		0x70DBA9FF,0xD612749D,0x5A5A638C,0x6086EC37,0x2A579709,0x1449EA3A,
82		0xBC8E3C06,0x2F900666,0xFBE74FD1,0x6B35B911,0xF8335008,0xEF1E979D,
83		0x738AB29D,0xA2DC0FDC,0x7696305D,0xF5429DAC,0x8C41813B,0x8073E02E,
84		0xBEF83CCD,0x7B50A95A,0x05EE5862,0x00829ECE,0x8CA1958C,0xBE4EA2E2,
85		0x4293BB73,0x656F7B23,0x417316D8,0x4467D7CF,0x2200E63B,0x109050C8,
86		0x814CBE47,0x36B1D4A8,0x36AF9305,0x308327B3,0xEBCD7344,0xA738DE27,
87		0x5A10C399,0x4142371D,0x64A18528,0x0B31E8B2,0x641057B9,0x6AFC363B,
88		0x108AD953,0x9D4DA234,0x0C2D9159,0x1C8A1A1F,0x310C66BA,0x87AA1070,
89		0xDAC832FF,0x0A433422,0x7AF15812,0x2D8D9BD0,0x995A25E9,0x25326CAC,
90		0xA34384DB,0x4C8421CC,0x4F0315EC,0x29E8649E,0xA7732D6F,0x2E94D3E3,
91		0x7D98A340,0x397C4D74,0x659DB4DE,0x747D4E9A,0xD9DB8435,0x4659DBE9,
92		0x313E6DC5,0x29D104DC,0x9F226CBA,0x452F18B0,0xD0BC5068,0x844CA299,
93		0x782B294E,0x4AE2EB7B,0xA4C475F8,0x70A81311,0x4B3E8BCC,0x7E20D4BA,
94		0xABCA33C9,0x57BE2960,0x44F9B419,0x2E567746,0x72EB757A,0x102CC0E8,
95		0xB07F32B9,0xD0DABD59,0xBA85AD6B,0xF3E20667,0x98D77D81,0x197AFA47,
96		0x518EE9AC,0xE10CE5A2,0x01CF2C2A,0xD3A3AF3D,0x16DDFD65,0x669232F8,
97		0x1C50A301,0xB93D9151,0x9354D3F4,0x847D79D0,0xD5FE2EC6,0x1F7B0610,
98		0xFA6B90A5,0xC5879041,0x2E7DC05E,0x423F1F32,0xEF623DDB,0x49C13280,
99		0x98714E92,0xC7B6E4AD,0xC4318466,0x0737F312,0x4D3C003F,0x9ACC1F1F,
100		0x5F1C926D,0x085FA771,0x185A83A2,0xF9AA159D,0x0B0B0132,0xF98E7A43,
101		0xCD9EBDBE,0x0190CB29,0x10D93FB6,0x3B8A4D97,0x66A65A41,0xE43E766F,
102		0x77BE3C41,0xB9686364,0xCB36994D,0x6846A287,0x567E77F7,0x36178DD8,
103		0xBDE6B1F2,0xB6EFDC64,0x82950324,0x42053F47,0xC09BE51C,0x0942D762,
104		0x35F92C7F,0x367DEC61,0x6EE3D983,0xDBAAF78A,0x265D2C47,0x8EB4BF5C,
105		0x33B232D7,0xB0137E77,0x373C39A7,0x8D2B2E76,0xC7510F01,0x50F9E032,
106		0x7B1FDDDB,0x724C2AAE,0xB10ECB31,0xCCA3D1B8,0x7F0BCF10,0x4254BBBD,
107		0xE3F93B97,0x2305039B,0x53120E22,0x1A2F3B9A,0x0FDDBD97,0x0118561E,
108		0x0A798E13,0x9E0B3ACD,0xDB6C9F15,0xF512D0A2,0x9E8C3A28,0xEE2184AE,
109		0x0051EC2F,0x2432F74F,0xB0AA66EA,0x55128D88,0xF7D83A38,0x4DAE8E82,
110		0x3FDC98D6,0x5F0BD341,0x7244BE1D,0xC7B48E78,0x2D473053,0x43892E20,
111		0xBA0F1F2A,0x524D4895,0x2E10BCB1,0x4C372D81,0x5C3E50CD,0xCF61CC2E,
112		0x931709AB,0x81B3AEFC,0x39E9405E,0x7FFE108C,0x4FBB3FF8,0x06ABE450,
113		0x7F5BF51E,0xA4E3CDFD,0xDB0F6C6F,0x159A1227,0x3B9FED55,0xD20B6F7F,
114		0xFBE9CC83,0x64856619,0xBF52B8AF,0x9D7006B0,0x71165BC6,0xAE324AEE,
115		0x29D27F2C,0x794C2086,0x74445CE2,0x782915CC,0xD4CE6886,0x3289AE7C,
116		0x53DEF297,0x4185F7ED,0x88B72400,0x3C09DC11,0xBCE3AAB6,0x6A75934A,
117		0xB267E399,0x000DF1BF,0x193BA5E2,0xFA3E1977,0x179E14F6,0x1EEDE298,
118		0x691F0B06,0xB84F78AC,0xC1C15316,0xFFFF3AD6,0x0B457383,0x518CD612,
119		0x05A00F3E,0xD5B7D275,0x4C5ECCD7,0xE02CD0BE,0x5558E9F2,0x0C89BBF0,
120		0xA3D96227,0x2832D2B2,0xF667B897,0xD4556554,0xF9D2F01F,0xFA1E3FAE,
121		0x52C2E1EE,0xE5451F31,0x7E849729,0xDABDB67A,0x54BF5E7E,0xF831C271,
122		0x5F1A17E3,0x9D140AFE,0x92741C47,0x48CFABCE,0x9CBBE477,0x9C3EE57F,
123		0xB07D4C39,0xCC21BCE2,0x697708B1,0x58DA2A6B,0x2370DB16,0x6E641948,
124		0xACC5BD52,0x868F24CC,0xCA1DB0F5,0x4CADA492,0x3F443E54,0xC4A4D5E9,
125		0xF00AD670,0xE93C86E0,0xFE90651A,0xDDE532A3,0xA66458DF,0xAB7D7151,
126		0x0E2E775F,0xC9109F99,0x8D96D59F,0x73CEF14C,0xC74E88E9,0x02712DC0,
127		0x04F41735,0x2E5914A2,0x59F4B2FB,0x0287FC83,0x80BC0343,0xF6B32559,
128		0xC74178D4,0xF1D99123,0x383CCC07,0xACC0637D,0x0863A548,0xA6FCAC85,
129		0x2A13EFF0,0xAF2EEDB1,0x41E72750,0xE0C6B342,0x5DA22B46,0x635559E0,
130		0xD2EA40AC,0x10AA98C0,0x19096497,0x112C542B,0x2C85040C,0xA868E7D0,
131		0x6E260188,0xF596D390,0xC3BB5D7A,0x7A2AA937,0xDFD15032,0x6780AE3B,
132		0xDB5F9CD8,0x8BD266B0,0x7744AF12,0xB463B1B0,0x589629C9,0xE30DBC6E,
133		0x880F5569,0x209E6E16,0x9DECA50C,0x02987A57,0xBED3EA57,0xD3A678AA,
134		0x70DD030D,0x0CFD9C5D,0x92A18E99,0xF5740619,0x7F6F0A7D,0x134CAF9A,
135		0x70F5BAE4,0x23DCA7B5,0x4D788FCD,0xC7F07847,0xBCF77DA1,0x9071D568,
136		0xFC627EA1,0xAE004B77,0x66B54BCB,0x7EF2DAAC,0xDCD5AC30,0xB9BDF730,
137		0x505A97A7,0x9D881FD3,0xADB796CC,0x94A1D202,0x97535D7F,0x31EC20C0,
138		0xB1887A98,0xC1475069,0xA6F73AF3,0x71E4E067,0x46A569DE,0xD2ADE430,
139		0x6F0762C7,0xF50876F4,0x53510542,0x03741C3E,0x53502224,0xD8E54D60,
140		0x3C44AB1A,0x34972B46,0x74BFA89D,0xD7D768E0,0x37E605DC,0xE13D1BDF,
141		0x5051C421,0xB9E057BE,0xB717A14C,0xA1730C43,0xB99638BE,0xB5D5F36D,
142		0xE960D9EA,0x6B1388D3,0xECB6D3B6,0xBDBE8B83,0x2E29AFC5,0x764D71EC,
143		0x4B8F4F43,0xC21DDC00,0xA63F657F,0x82678130,0xDBF535AC,0xA594FC58,
144		0x942686BC,0xBD9B657B,0x4A0F9B61,0x44FF184F,0x38E10A2F,0x61910626,
145		0x5E247636,0x7106D137,0xC62802F0,0xBD1D1F00,0x7CC0DCB2,0xED634909,
146		0xDC13B24E,0x9799C499,0xD77E3D6A,0x14773B68,0x967A4FB7,0x35EECFB1,
147		0x2A5110B8,0xE2F0AF94,0x9D09DEA5,0x20255D27,0x5771D34B,0xE1089EE4,
148		0x246F330B,0x8F7CAEE5,0xD3064712,0x75CAFBEE,0xB94F7028,0xED953666,
149		0x5D1975B4,0x5AF81271,0x13BE2025,0x85194659,0x30805331,0xEC9D46C0,
150		0xBC027C36,0x2AF84188,0xC2141B80,0xC02B1E4A,0x04D36177,0xFC50E9D7,
151		0x39CE79DA,0x917E0A00,0xEF7A0BF4,0xA98BD8D1,0x19424DD2,0x9439DF1F,
152		0xC42AF746,0xADDBE83E,0x85221F0D,0x45563E90,0x9095EC52,0x77887B25,
153		0x8AE46064,0xBD43B71A,0xBB541956,0x7366CF9D,0xEE8E1737,0xB5A727C9,
154		0x5076B3E7,0xFC70BACA,0xCE135B75,0xC4E91AA3,0xF0341911,0x53430C3F,
155		0x886B0824,0x6BB5B8B7,0x33E21254,0xF193B456,0x5B09617F,0x215FFF50,
156		0x48D97EF1,0x356479AB,0x6EA9DDC4,0x0D352746,0xA2F5CE43,0xB226A1B3,
157		0x1329EA3C,0x7A337CC2,0xB5CCE13D,0x563E3B5B,0x534E8E8F,0x561399C9,
158		0xE1596392,0xB0F03125,0x4586645B,0x1F371847,0x94EAABD1,0x41F97EDD,
159		0xE3E5A39B,0x71C774E2,0x507296F4,0x5960133B,0x7852C494,0x3F5B2691,
160		0xA3F87774,0x5A7AF89E,0x17DA3F28,0xE9D9516D,0xFCC1C1D5,0xE4618628,
161		0x04081047,0xD8E4DB5F,0xDC380416,0x8C4933E2,0x95074D53,0xB1B0032D,
162		0xCC8102EA,0x71641243,0x98D6EB6A,0x90FEC945,0xA0914345,0x6FAB037D,
163		0x70F49C4D,0x05BF5B0E,0x927AAF7F,0xA1940F61,0xFEE0756F,0xF815369F,
164		0x5C00253B,0xF2B9762F,0x4AEB3CCC,0x1069F386,0xFBA4E7B9,0x70332665,
165		0x6BCA810E,0x85AB8058,0xAE4B2B2F,0x9D120712,0xBEE8EACB,0x776A1112
166		};
167
168		void
169		__gmp_mt_recalc_buffer (gmp_uint_least32_t mt[])
170	6	{
171	6	gmp_uint_least32_t y;
172	6	int kk;
173
174	1.36k	for (kk = 0; kk < N - M; kk++)
175	1.36k	{
176	1.36k	y = (mt[kk] & 0x80000000) \| (mt[kk + 1] & 0x7FFFFFFF);
177	1.36k	mt[kk] = mt[kk + M] ^ (y >> 1) ^ ((y & 0x01) != 0 ? MATRIX_A : 0);
178	1.36k	}
179	2.38k	for (; kk < N - 1; kk++)
180	2.37k	{
181	2.37k	y = (mt[kk] & 0x80000000) \| (mt[kk + 1] & 0x7FFFFFFF);
182	2.37k	mt[kk] = mt[kk - (N - M)] ^ (y >> 1) ^ ((y & 0x01) != 0 ? MATRIX_A : 0);
183	2.37k	}
184
185	6	y = (mt[N - 1] & 0x80000000) \| (mt[0] & 0x7FFFFFFF);
186	6	mt[N - 1] = mt[M - 1] ^ (y >> 1) ^ ((y & 0x01) != 0 ? MATRIX_A : 0);
187	6	}
188
189
190		/* Get nbits bits of output from the generator into dest.
191		Note that Mersenne Twister is designed to produce outputs in
192		32-bit words. */
193		void
194		__gmp_randget_mt (gmp_randstate_t rstate, mp_ptr dest, unsigned long int nbits)
195	0	{
196	0	gmp_uint_least32_t y;
197	0	int rbits;
198	0	mp_size_t i;
199	0	mp_size_t nlimbs;
200	0	int *pmti;
201	0	gmp_uint_least32_t *mt;
202
203	0	pmti = &((gmp_rand_mt_struct *) RNG_STATE (rstate))->mti;
204	0	mt = ((gmp_rand_mt_struct *) RNG_STATE (rstate))->mt;
205
206	0	nlimbs = nbits / GMP_NUMB_BITS;
207	0	rbits = nbits % GMP_NUMB_BITS;
208
209	0	#define NEXT_RANDOM \
210	0	do \
211	0	{ \
212	0	if (*pmti >= N) \
213	0	{ \
214	0	__gmp_mt_recalc_buffer (mt); \
215	0	*pmti = 0; \
216	0	} \
217	0	y = mt[(*pmti)++]; \
218	0	y ^= (y >> 11); \
219	0	y ^= (y << 7) & MASK_1; \
220	0	y ^= (y << 15) & MASK_2; \
221	0	y ^= (y >> 18); \
222	0	} \
223	0	while (0)
224
225
226		/* Handle the common cases of 32- or 64-bit limbs with fast,
227		optimized routines, and the rest of cases with a general
228		routine. In all cases, no more than 31 bits are rejected
229		for the last limb so that every version of the code is
230		consistent with the others. */
231
232		#if (GMP_NUMB_BITS == 32)
233
234		for (i = 0; i < nlimbs; i++)
235		{
236		NEXT_RANDOM;
237		dest[i] = (mp_limb_t) y;
238		}
239		if (rbits)
240		{
241		NEXT_RANDOM;
242		dest[nlimbs] = (mp_limb_t) (y & ~(ULONG_MAX << rbits));
243		}
244
245		#else /* GMP_NUMB_BITS != 32 */
246	0	#if (GMP_NUMB_BITS == 64)
247
248	0	for (i = 0; i < nlimbs; i++)
249	0	{
250	0	NEXT_RANDOM;
251	0	dest[i] = (mp_limb_t) y;
252	0	NEXT_RANDOM;
253	0	dest[i] \|= (mp_limb_t) y << 32;
254	0	}
255	0	if (rbits)
256	0	{
257	0	if (rbits < 32)
258	0	{
259	0	NEXT_RANDOM;
260	0	dest[nlimbs] = (mp_limb_t) (y & ~(ULONG_MAX << rbits));
261	0	}
262	0	else
263	0	{
264	0	NEXT_RANDOM;
265	0	dest[nlimbs] = (mp_limb_t) y;
266	0	if (rbits > 32)
267	0	{
268	0	NEXT_RANDOM;
269	0	dest[nlimbs] \|=
270	0	((mp_limb_t) (y & ~(ULONG_MAX << (rbits-32)))) << 32;
271	0	}
272	0	}
273	0	}
274
275		#else /* GMP_NUMB_BITS != 64 */
276
277		{
278		/* Fall back to a general algorithm. This algorithm works by
279		keeping a pool of up to 64 bits (2 outputs from MT) acting
280		as a shift register from which bits are consumed as needed.
281		Bits are consumed using the LSB bits of bitpool_l, and
282		inserted via bitpool_h and shifted to the right place. */
283
284		gmp_uint_least32_t bitpool_h = 0;
285		gmp_uint_least32_t bitpool_l = 0;
286		int bits_in_pool = 0; /* Holds number of valid bits in the pool. */
287		int bits_to_fill; /* Holds total number of bits to put in
288		destination. */
289		int bitidx; /* Holds the destination bit position. */
290		mp_size_t nlimbs2; /* Number of whole+partial limbs to fill. */
291
292		nlimbs2 = nlimbs + (rbits != 0);
293
294		for (i = 0; i < nlimbs2; i++)
295		{
296		bitidx = 0;
297		if (i < nlimbs)
298		bits_to_fill = GMP_NUMB_BITS;
299		else
300		bits_to_fill = rbits;
301
302		dest[i] = CNST_LIMB (0);
303		while (bits_to_fill >= 32) /* Process whole 32-bit blocks first. */
304		{
305		if (bits_in_pool < 32) /* Need more bits. */
306		{
307		/* 64-bit right shift. */
308		NEXT_RANDOM;
309		bitpool_h = y;
310		bitpool_l \|= (bitpool_h << bits_in_pool) & 0xFFFFFFFF;
311		if (bits_in_pool == 0)
312		bitpool_h = 0;
313		else
314		bitpool_h >>= 32 - bits_in_pool;
315		bits_in_pool += 32; /* We've got 32 more bits. */
316		}
317
318		/* Fill a 32-bit chunk. */
319		dest[i] \|= ((mp_limb_t) bitpool_l) << bitidx;
320		bitpool_l = bitpool_h;
321		bits_in_pool -= 32;
322		bits_to_fill -= 32;
323		bitidx += 32;
324		}
325
326		/* Cover the case where GMP_NUMB_BITS is not a multiple of 32. */
327		if (bits_to_fill != 0)
328		{
329		if (bits_in_pool < bits_to_fill)
330		{
331		NEXT_RANDOM;
332		bitpool_h = y;
333		bitpool_l \|= (bitpool_h << bits_in_pool) & 0xFFFFFFFF;
334		if (bits_in_pool == 0)
335		bitpool_h = 0;
336		else
337		bitpool_h >>= 32 - bits_in_pool;
338		bits_in_pool += 32;
339		}
340
341		dest[i] \|= (((mp_limb_t) bitpool_l
342		& ~(~CNST_LIMB (0) << bits_to_fill))
343		<< bitidx);
344		bitpool_l = ((bitpool_l >> bits_to_fill)
345		\| (bitpool_h << (32 - bits_to_fill))) & 0xFFFFFFFF;
346		bitpool_h >>= bits_to_fill;
347		bits_in_pool -= bits_to_fill;
348		}
349		}
350		}
351
352		#endif /* GMP_NUMB_BITS != 64 */
353	0	#endif /* GMP_NUMB_BITS != 32 */
354	0	}
355
356		void
357		__gmp_randclear_mt (gmp_randstate_t rstate)
358	0	{
359	0	(__gmp_free_func) ((void ) RNG_STATE (rstate),
360	0	ALLOC (rstate->_mp_seed) * GMP_LIMB_BYTES);
361	0	}
362
363		void __gmp_randiset_mt (gmp_randstate_ptr, gmp_randstate_srcptr);
364
365		static const gmp_randfnptr_t Mersenne_Twister_Generator_Noseed = {
366		NULL,
367		__gmp_randget_mt,
368		__gmp_randclear_mt,
369		__gmp_randiset_mt
370		};
371
372		void
373		__gmp_randiset_mt (gmp_randstate_ptr dst, gmp_randstate_srcptr src)
374	0	{
375	0	const mp_size_t sz = ((sizeof (gmp_rand_mt_struct) - 1) / GMP_LIMB_BYTES) + 1;
376	0	gmp_rand_mt_struct dstp, srcp;
377	0	mp_size_t i;
378
379		/* Set the generator functions. */
380	0	RNG_FNPTR (dst) = RNG_FNPTR(src);
381
382		/* Allocate the MT-specific state. */
383	0	dstp = (gmp_rand_mt_struct *) __GMP_ALLOCATE_FUNC_LIMBS (sz);
384	0	RNG_STATE (dst) = (mp_ptr) dstp;
385	0	ALLOC (dst->_mp_seed) = sz; /* Initialize alloc field to placate Camm. */
386
387		/* Copy state. */
388	0	srcp = (gmp_rand_mt_struct *) RNG_STATE (src);
389	0	for (i = 0; i < N; i++)
390	0	dstp->mt[i] = srcp->mt[i];
391
392	0	dstp->mti = srcp->mti;
393	0	}
394
395		void
396		__gmp_randinit_mt_noseed (gmp_randstate_ptr dst)
397	2	{
398	2	const mp_size_t sz = ((sizeof (gmp_rand_mt_struct) - 1) / GMP_LIMB_BYTES) + 1;
399	2	gmp_rand_mt_struct *dstp;
400	2	mp_size_t i;
401
402		/* Set the generator functions. */
403	2	RNG_FNPTR (dst) = (void *) &Mersenne_Twister_Generator_Noseed;
404
405		/* Allocate the MT-specific state. */
406	2	dstp = (gmp_rand_mt_struct *) __GMP_ALLOCATE_FUNC_LIMBS (sz);
407	2	RNG_STATE (dst) = (mp_ptr) dstp;
408	2	ALLOC (dst->_mp_seed) = sz; /* Initialize alloc field to placate Camm. */
409
410		/* Set state for default seed. */
411	1.25k	for (i = 0; i < N; i++)
412	1.24k	dstp->mt[i] = default_state[i];
413
414	2	dstp->mti = WARM_UP % N;
415	2	}