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/* primesieve (BIT_ARRAY, N) -- Fills the BIT_ARRAY with a mask for primes up to N.
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Contributed to the GNU project by Marco Bodrato.
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THE FUNCTION IN THIS FILE IS INTERNAL WITH A MUTABLE INTERFACE.
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IT IS ONLY SAFE TO REACH IT THROUGH DOCUMENTED INTERFACES.
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IN FACT, IT IS ALMOST GUARANTEED THAT IT WILL CHANGE OR
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DISAPPEAR IN A FUTURE GNU MP RELEASE.
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Copyright 2010-2012 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 either:
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  * the GNU Lesser General Public License as published by the Free
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    Software Foundation; either version 3 of the License, or (at your
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    option) any later version.
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or
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  * the GNU General Public License as published by the Free Software
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    Foundation; either version 2 of the License, or (at your option) any
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    later version.
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or both in parallel, as here.
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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 General Public License
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for more details.
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You should have received copies of the GNU General Public License and the
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GNU Lesser General Public License along with the GNU MP Library.  If not,
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see https://www.gnu.org/licenses/.  */
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#include "gmp.h"
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#include "gmp-impl.h"
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/**************************************************************/
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/* Section macros: common macros, for mswing/fac/bin (&sieve) */
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/**************************************************************/
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#define LOOP_ON_SIEVE_CONTINUE(prime,end,sieve)			\
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    __max_i = (end);						\
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								\
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    do {							\
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      ++__i;							\
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      if (((sieve)[__index] & __mask) == 0)			\
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	{							\
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	  (prime) = id_to_n(__i)
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#define LOOP_ON_SIEVE_BEGIN(prime,start,end,off,sieve)		\
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  do {								\
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    mp_limb_t __mask, __index, __max_i, __i;			\
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								\
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    __i = (start)-(off);					\
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    __index = __i / GMP_LIMB_BITS;				\
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    __mask = CNST_LIMB(1) << (__i % GMP_LIMB_BITS);		\
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    __i += (off);						\
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								\
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    LOOP_ON_SIEVE_CONTINUE(prime,end,sieve)
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#define LOOP_ON_SIEVE_STOP					\
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	}							\
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      __mask = __mask << 1 | __mask >> (GMP_LIMB_BITS-1);	\
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      __index += __mask & 1;					\
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    }  while (__i <= __max_i)					\
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#define LOOP_ON_SIEVE_END					\
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    LOOP_ON_SIEVE_STOP;						\
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  } while (0)
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/*********************************************************/
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/* Section sieve: sieving functions and tools for primes */
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/*********************************************************/
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#if 0
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static mp_limb_t
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bit_to_n (mp_limb_t bit) { return (bit*3+4)|1; }
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#endif
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/* id_to_n (x) = bit_to_n (x-1) = (id*3+1)|1*/
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static mp_limb_t
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id_to_n  (mp_limb_t id)  { return id*3+1+(id&1;; }
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/* n_to_bit (n) = ((n-1)&(-CNST_LIMB(2)))/3U-1 */
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static mp_limb_t
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n_to_bit (mp_limb_t n) { return ((n-5)|1)/3U; }
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#if 0
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static mp_size_t
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primesieve_size (mp_limb_t n) { return n_to_bit(n) / GMP_LIMB_BITS + 1; }
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#endif
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#if GMP_LIMB_BITS > 61
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#define SIEVE_SEED CNST_LIMB(0x3294C9E069128480)
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#define SEED_LIMIT 202
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#else
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#if GMP_LIMB_BITS > 30
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#define SIEVE_SEED CNST_LIMB(0x69128480)
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#define SEED_LIMIT 114
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#else
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#if GMP_LIMB_BITS > 15
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#define SIEVE_SEED CNST_LIMB(0x8480)
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#define SEED_LIMIT 54
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#else
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#if GMP_LIMB_BITS > 7
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#define SIEVE_SEED CNST_LIMB(0x80)
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#define SEED_LIMIT 34
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#else
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#define SIEVE_SEED CNST_LIMB(0x0)
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#define SEED_LIMIT 24
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#endif /* 7 */
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#endif /* 15 */
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#endif /* 30 */
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#endif /* 61 */
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static void
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first_block_primesieve (mp_ptr bit_array, mp_limb_t n)
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{
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  mp_size_t bits, limbs;
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  ASSERT (n > 4);
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  bits  = n_to_bit(n);
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  limbs = bits / GMP_LIMB_BITS + 1;
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  /* FIXME: We can skip 5 too, filling with a 5-part pattern. */
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  MPN_ZERO (bit_array, limbs);
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  bit_array[0] = SIEVE_SEED;
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  if ((bits + 1) % GMP_LIMB_BITS != 0)
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    bit_array[limbs-1] |= MP_LIMB_T_MAX << ((bits + 1) % GMP_LIMB_BITS);
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  if (n > SEED_LIMIT) {
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    mp_limb_t mask, index, i;
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    ASSERT (n > 49);
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    mask = 1;
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    index = 0;
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    i = 1;
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    do {
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      if ((bit_array[index] & mask) == 0)
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	{
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	  mp_size_t step, lindex;
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	  mp_limb_t lmask;
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	  unsigned  maskrot;
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	  step = id_to_n(i);
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/*	  lindex = n_to_bit(id_to_n(i)*id_to_n(i)); */
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	  lindex = i*(step+1)-1+(-(i&1)&(i+1));
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/*	  lindex = i*(step+1+(i&1))-1+(i&1;; */
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	  if (lindex > bits)
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	    break;
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	  step <<= 1;
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	  maskrot = step % GMP_LIMB_BITS;
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	  lmask = CNST_LIMB(1) << (lindex % GMP_LIMB_BITS);
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	  do {
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	    bit_array[lindex / GMP_LIMB_BITS] |= lmask;
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	    lmask = lmask << maskrot | lmask >> (GMP_LIMB_BITS - maskrot);
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	    lindex += step;
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	  } while (lindex <= bits);
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/*	  lindex = n_to_bit(id_to_n(i)*bit_to_n(i)); */
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	  lindex = i*(i*3+6)+(i&1;;
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	  lmask = CNST_LIMB(1) << (lindex % GMP_LIMB_BITS);
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	  for ( ; lindex <= bits; lindex += step) {
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	    bit_array[lindex / GMP_LIMB_BITS] |= lmask;
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	    lmask = lmask << maskrot | lmask >> (GMP_LIMB_BITS - maskrot);
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	  };
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	}
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      mask = mask << 1 | mask >> (GMP_LIMB_BITS-1);
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      index += mask & 1;
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      i++;
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    } while (1);
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  }
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}
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static void
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block_resieve (mp_ptr bit_array, mp_size_t limbs, mp_limb_t offset,
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		      mp_srcptr sieve, mp_limb_t sieve_bits)
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{
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  mp_size_t bits, step;
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  ASSERT (limbs > 0);
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  bits = limbs * GMP_LIMB_BITS - 1;
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  /* FIXME: We can skip 5 too, filling with a 5-part pattern. */
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  MPN_ZERO (bit_array, limbs);
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  LOOP_ON_SIEVE_BEGIN(step,0,sieve_bits,0,sieve);
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  {
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    mp_size_t lindex;
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    mp_limb_t lmask;
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    unsigned  maskrot;
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/*  lindex = n_to_bit(id_to_n(i)*id_to_n(i)); */
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    lindex = __i*(step+1)-1+(-(__i&1)&(__i+1));
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/*  lindex = __i*(step+1+(__i&1))-1+(__i&1;; */
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    if (lindex > bits + offset)
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      break;
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    step <<= 1;
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    maskrot = step % GMP_LIMB_BITS;
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    if (lindex < offset)
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      lindex += step * ((offset - lindex - 1) / step + 1);
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    lindex -= offset;
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    lmask = CNST_LIMB(1) << (lindex % GMP_LIMB_BITS);
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    for ( ; lindex <= bits; lindex += step) {
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      bit_array[lindex / GMP_LIMB_BITS] |= lmask;
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      lmask = lmask << maskrot | lmask >> (GMP_LIMB_BITS - maskrot);
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    };
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/*  lindex = n_to_bit(id_to_n(i)*bit_to_n(i)); */
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    lindex = __i*(__i*3+6)+(__i&1;;
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    if (lindex > bits + offset)
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      continue;
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    if (lindex < offset)
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      lindex += step * ((offset - lindex - 1) / step + 1);
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    lindex -= offset;
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    lmask = CNST_LIMB(1) << (lindex % GMP_LIMB_BITS);
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    for ( ; lindex <= bits; lindex += step) {
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      bit_array[lindex / GMP_LIMB_BITS] |= lmask;
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      lmask = lmask << maskrot | lmask >> (GMP_LIMB_BITS - maskrot);
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    };
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  }
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  LOOP_ON_SIEVE_END;
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}
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#define BLOCK_SIZE 2048
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/* Fills bit_array with the characteristic function of composite
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   numbers up to the parameter n. I.e. a bit set to "1" represent a
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   composite, a "0" represent a prime.
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   The primesieve_size(n) limbs pointed to by bit_array are
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   overwritten. The returned value counts prime integers in the
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   interval [4, n]. Note that n > 4.
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   Even numbers and multiples of 3 are excluded "a priori", only
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   numbers equivalent to +/- 1 mod 6 have their bit in the array.
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   Once sieved, if the bit b is ZERO it represent a prime, the
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   represented prime is bit_to_n(b), if the LSbit is bit 0, or
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   id_to_n(b), if you call "1" the first bit.
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 */
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mp_limb_t
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gmp_primesieve (mp_ptr bit_array, mp_limb_t n)
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{
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  mp_size_t size;
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  mp_limb_t bits;
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  ASSERT (n > 4);
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  bits = n_to_bit(n);
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  size = bits / GMP_LIMB_BITS + 1;
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  if (size > BLOCK_SIZE * 2) {
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    mp_size_t off;
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    off = BLOCK_SIZE + (size % BLOCK_SIZE);
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    first_block_primesieve (bit_array, id_to_n (off * GMP_LIMB_BITS));
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    for ( ; off < size; off += BLOCK_SIZE)
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      block_resieve (bit_array + off, BLOCK_SIZE, off * GMP_LIMB_BITS, bit_array, off * GMP_LIMB_BITS - 1);
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  } else {
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    first_block_primesieve (bit_array, n);
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  }
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  if ((bits + 1) % GMP_LIMB_BITS != 0)
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    bit_array[size-1] |= MP_LIMB_T_MAX << ((bits + 1) % GMP_LIMB_BITS);
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  return size * GMP_LIMB_BITS - mpn_popcount (bit_array, size);
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}
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#undef BLOCK_SIZE
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#undef SEED_LIMIT
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#undef SIEVE_SEED
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#undef LOOP_ON_SIEVE_END
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#undef LOOP_ON_SIEVE_STOP
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#undef LOOP_ON_SIEVE_BEGIN
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#undef LOOP_ON_SIEVE_CONTINUE

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