/* Mersenne Twister pseudo-random number generator functions. Copyright 2002, 2003 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 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. 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 Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with the GNU MP Library. If not, see http://www.gnu.org/licenses/. */ #include "gmp.h" #include "gmp-impl.h" #include "randmt.h" /* Calculate (b^e) mod (2^n-k) for e=1074888996, n=19937 and k=20023, needed by the seeding function below. */ static void mangle_seed (mpz_ptr r, mpz_srcptr b_orig) { mpz_t t, b; unsigned long e = 0x40118124; unsigned long bit = 0x20000000; mpz_init (t); mpz_init_set (b, b_orig); /* in case r==b_orig */ mpz_set (r, b); do { mpz_mul (r, r, r); reduce: for (;;) { mpz_tdiv_q_2exp (t, r, 19937L); if (mpz_sgn (t) == 0) break; mpz_tdiv_r_2exp (r, r, 19937L); mpz_addmul_ui (r, t, 20023L); } if ((e & bit) != 0) { e &= ~bit; mpz_mul (r, r, b); goto reduce; } bit >>= 1; } while (bit != 0); mpz_clear (t); mpz_clear (b); } /* Seeding function. Uses powering modulo a non-Mersenne prime to obtain a permutation of the input seed space. The modulus is 2^19937-20023, which is probably prime. The power is 1074888996. In order to avoid seeds 0 and 1 generating invalid or strange output, the input seed is first manipulated as follows: seed1 = seed mod (2^19937-20027) + 2 so that seed1 lies between 2 and 2^19937-20026 inclusive. Then the powering is performed as follows: seed2 = (seed1^1074888996) mod (2^19937-20023) and then seed2 is used to bootstrap the buffer. This method aims to give guarantees that: a) seed2 will never be zero, b) seed2 will very seldom have a very low population of ones in its binary representation, and c) every seed between 0 and 2^19937-20028 (inclusive) will yield a different sequence. CAVEATS: The period of the seeding function is 2^19937-20027. This means that with seeds 2^19937-20027, 2^19937-20026, ... the exact same sequences are obtained as with seeds 0, 1, etc.; it also means that seed -1 produces the same sequence as seed 2^19937-20028, etc. */ static void randseed_mt (gmp_randstate_t rstate, mpz_srcptr seed) { int i; size_t cnt; gmp_rand_mt_struct *p; mpz_t mod; /* Modulus. */ mpz_t seed1; /* Intermediate result. */ p = (gmp_rand_mt_struct *) RNG_STATE (rstate); mpz_init (mod); mpz_init (seed1); mpz_set_ui (mod, 0L); mpz_setbit (mod, 19937L); mpz_sub_ui (mod, mod, 20027L); mpz_mod (seed1, seed, mod); /* Reduce `seed' modulo `mod'. */ mpz_add_ui (seed1, seed1, 2L); /* seed1 is now ready. */ mangle_seed (seed1, seed1); /* Perform the mangling by powering. */ /* Copy the last bit into bit 31 of mt[0] and clear it. */ p->mt[0] = (mpz_tstbit (seed1, 19936L) != 0) ? 0x80000000 : 0; mpz_clrbit (seed1, 19936L); /* Split seed1 into N-1 32-bit chunks. */ mpz_export (&p->mt[1], &cnt, -1, sizeof (p->mt[1]), 0, 8 * sizeof (p->mt[1]) - 32, seed1); cnt++; ASSERT (cnt <= N); while (cnt < N) p->mt[cnt++] = 0; mpz_clear (mod); mpz_clear (seed1); /* Warm the generator up if necessary. */ if (WARM_UP != 0) for (i = 0; i < WARM_UP / N; i++) __gmp_mt_recalc_buffer (p->mt); p->mti = WARM_UP % N; } static const gmp_randfnptr_t Mersenne_Twister_Generator = { randseed_mt, __gmp_randget_mt, __gmp_randclear_mt, __gmp_randiset_mt }; /* Initialize MT-specific data. */ void gmp_randinit_mt (gmp_randstate_t rstate) { __gmp_randinit_mt_noseed (rstate); RNG_FNPTR (rstate) = (void *) &Mersenne_Twister_Generator; }