157 lines
3.9 KiB
C
157 lines
3.9 KiB
C
/* gmp_nextprime -- generate small primes reasonably efficiently for internal
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GMP needs.
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Contributed to the GNU project by Torbjorn Granlund. Miscellaneous
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improvements by Martin Boij.
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THE FUNCTIONS IN THIS FILE ARE INTERNAL WITH MUTABLE INTERFACES. IT IS ONLY
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SAFE TO REACH THEM THROUGH DOCUMENTED INTERFACES. IN FACT, IT IS ALMOST
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GUARANTEED THAT THEY WILL CHANGE OR DISAPPEAR IN A FUTURE GNU MP RELEASE.
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Copyright 2009 Free Software Foundation, Inc.
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This file is part of the GNU MP Library.
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The GNU MP Library is free software; you can redistribute it and/or modify
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it under the terms of the GNU Lesser General Public License as published by
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the Free Software Foundation; either version 3 of the License, or (at your
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option) any later version.
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The GNU MP Library is distributed in the hope that it will be useful, but
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WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
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or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public
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License for more details.
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You should have received a copy of the GNU Lesser General Public License
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along with the GNU MP Library. If not, see http://www.gnu.org/licenses/. */
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/*
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Optimisation ideas:
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1. Unroll the sieving loops. Should reach 1 write/cycle. That would be a 2x
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improvement.
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2. Separate sieving with primes p < SIEVESIZE and p >= SIEVESIZE. The latter
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will need at most one write, and thus not need any inner loop.
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3. For primes p >= SIEVESIZE, i.e., typically the majority of primes, we
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perform more than one division per sieving write. That might dominate the
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entire run time for the nextprime function. A incrementally initialised
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remainder table of Pi(65536) = 6542 16-bit entries could replace that
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division.
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*/
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#include "mpir.h"
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#include "gmp-impl.h"
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#include <string.h> /* for memset */
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mpir_ui
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gmp_nextprime (gmp_primesieve_t *ps)
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{
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mpir_ui p, d, pi;
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unsigned char *sp;
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static unsigned char addtab[] =
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{ 2,4,2,4,6,2,6,4,2,4,6,6,2,6,4,2,6,4,6,8,4,2,4,2,4,8,6,4,6,2,4,6,2,6,6,4,
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2,4,6,2,6,4,2,4,2,10,2,10 };
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unsigned char *addp = addtab;
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mpir_ui ai;
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/* Look for already sieved primes. A sentinel at the end of the sieving
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area allows us to use a very simple loop here. */
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d = ps->d;
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sp = ps->s + d;
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while (*sp != 0)
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sp++;
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if (sp != ps->s + SIEVESIZE)
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{
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d = sp - ps->s;
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ps->d = d + 1;
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return ps->s0 + 2 * d;
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}
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/* Handle the number 2 separately. */
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if (ps->s0 < 3)
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{
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ps->s0 = 3 - 2 * SIEVESIZE; /* Tricky */
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return 2;
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}
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/* Exhausted computed primes. Resieve, then call ourselves recursively. */
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#if 0
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for (sp = ps->s; sp < ps->s + SIEVESIZE; sp++)
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*sp = 0;
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#else
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memset (ps->s, 0, SIEVESIZE);
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#endif
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ps->s0 += 2 * SIEVESIZE;
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/* Update sqrt_s0 as needed. */
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while ((ps->sqrt_s0 + 1) * (ps->sqrt_s0 + 1) <= ps->s0 + 2 * SIEVESIZE - 1)
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ps->sqrt_s0++;
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pi = ((ps->s0 + 3) / 2) % 3;
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if (pi > 0)
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pi = 3 - pi;
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if (ps->s0 + 2 * pi <= 3)
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pi += 3;
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sp = ps->s + pi;
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while (sp < ps->s + SIEVESIZE)
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{
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*sp = 1, sp += 3;
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}
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pi = ((ps->s0 + 5) / 2) % 5;
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if (pi > 0)
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pi = 5 - pi;
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if (ps->s0 + 2 * pi <= 5)
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pi += 5;
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sp = ps->s + pi;
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while (sp < ps->s + SIEVESIZE)
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{
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*sp = 1, sp += 5;
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}
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pi = ((ps->s0 + 7) / 2) % 7;
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if (pi > 0)
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pi = 7 - pi;
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if (ps->s0 + 2 * pi <= 7)
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pi += 7;
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sp = ps->s + pi;
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while (sp < ps->s + SIEVESIZE)
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{
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*sp = 1, sp += 7;
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}
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p = 11;
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ai = 0;
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while (p <= ps->sqrt_s0)
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{
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pi = ((ps->s0 + p) / 2) % p;
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if (pi > 0)
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pi = p - pi;
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if (ps->s0 + 2 * pi <= p)
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pi += p;
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sp = ps->s + pi;
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while (sp < ps->s + SIEVESIZE)
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{
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*sp = 1, sp += p;
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}
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p += addp[ai];
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ai = (ai + 1) % 48;
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}
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ps->d = 0;
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return gmp_nextprime (ps);
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}
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void
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gmp_init_primesieve (gmp_primesieve_t *ps)
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{
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ps->s0 = 0;
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ps->sqrt_s0 = 0;
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ps->d = SIEVESIZE;
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ps->s[SIEVESIZE] = 0; /* sentinel */
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}
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