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Upgraded pari-2.2 to pari-2.2.4.

/* $Id: level0.h,v 1.4 2002/09/10 23:46:52 karim Exp $

Copyright (C) 2000  The PARI group.

This file is part of the PARI/GP package.

PARI/GP 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. It is distributed in the hope that it will be useful, but WITHOUT
ANY WARRANTY WHATSOEVER.

Check the License for details. You should have received a copy of it, along
with the package; see the file 'COPYING'. If not, write to the Free Software
Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */

/* This file defines some "level 0" kernel functions                 */
/* These functions can be inline, with gcc                           */
/* If not gcc, they are defined externally with "level0.c"           */
/* NB: Those functions are not defined in mp.s                       */

/* level0.c includes this file and never needs to be changed         */
/* The following seven lines are necessary for level0.c and level1.c */
#ifdef  LEVEL0
#undef  INLINE
#define INLINE
#endif
#ifdef  LEVEL1
#undef  INLINE
#endif

#define LOCAL_OVERFLOW
#define SAVE_OVERFLOW
#define LOCAL_HIREMAINDER
#define SAVE_HIREMAINDER

#ifndef INLINE
BEGINEXTERN
  extern ulong overflow, hiremainder;
  extern long addll(ulong x, ulong y);
  extern long addllx(ulong x, ulong y);
  extern long subll(ulong x, ulong y);
  extern long subllx(ulong x, ulong y);
  extern long shiftl(ulong x, ulong y);
  extern long shiftlr(ulong x, ulong y);
  extern long mulll(ulong x, ulong y);
  extern long addmul(ulong x, ulong y);
  extern long divll(ulong x, ulong y);
  extern int  bfffo(ulong x);
ENDEXTERN

#else

ulong overflow;
ulong hiremainder;

INLINE long
addll(ulong x, ulong y)
{
  const ulong z = x+y;
  overflow=(z<x);
  return (long) z;
}

INLINE long
addllx(ulong x, ulong y)
{
  const ulong z = x+y+overflow;
  overflow = (z<x || (z==x && overflow));
  return (long) z;
}

INLINE long
subll(ulong x, ulong y)
{
  const ulong z = x-y;
  overflow = (z>x);
  return (long) z;
}

INLINE long
subllx(ulong x, ulong y)
{
  const ulong z = x-y-overflow;
  overflow = (z>x || (z==x && overflow));
  return (long) z;
}

INLINE long
shiftl(ulong x, ulong y)
{
  hiremainder=x>>(BITS_IN_LONG-y);
  return (x<<y);
}

INLINE long
shiftlr(ulong x, ulong y)
{
  hiremainder=x<<(BITS_IN_LONG-y);
  return (x>>y);
}

#define HIGHWORD(a) ((a) >> BITS_IN_HALFULONG)
#define LOWWORD(a) ((a) & LOWMASK)

/* Version Peter Montgomery */
/*
 *      Assume (for presentation) that BITS_IN_LONG = 32.
 *      Then 0 <= xhi, xlo, yhi, ylo <= 2^16 - 1.  Hence
 *
 * -2^31 + 2^16 <= (xhi-2^15)*(ylo-2^15) + (xlo-2^15)*(yhi-2^15) <= 2^31.
 *
 *      If xhi*ylo + xlo*yhi = 2^32*overflow + xymid, then
 *
 * -2^32 + 2^16 <= 2^32*overflow + xymid - 2^15*(xhi + ylo + xlo + yhi) <= 0.
 *
 * 2^16*overflow <= (xhi+xlo+yhi+ylo)/2 - xymid/2^16 <= 2^16*overflow + 2^16-1
 *
 *       This inequality was derived using exact (rational) arithmetic;
 *       it remains valid when we truncate the two middle terms.
 */
INLINE long
mulll(ulong x, ulong y)
{
  const ulong xlo = LOWWORD(x), xhi = HIGHWORD(x);
  const ulong ylo = LOWWORD(y), yhi = HIGHWORD(y);
  ulong xylo,xymid,xyhi,xymidhi,xymidlo;

  xylo = xlo*ylo; xyhi = xhi*yhi;
  xymid = (xhi+xlo)*(yhi+ylo) - (xyhi+xylo);

  xymidhi = HIGHWORD(xymid);
  xymidlo = xymid << BITS_IN_HALFULONG;

  xylo += xymidlo;
  hiremainder = xyhi + xymidhi + (xylo < xymidlo)
     + (((((xhi+xlo) + (yhi+ylo)) >> 1) - xymidhi) & HIGHMASK);

  return xylo;
}

INLINE long
addmul(ulong x, ulong y)
{
  const ulong xlo = LOWWORD(x), xhi = HIGHWORD(x);
  const ulong ylo = LOWWORD(y), yhi = HIGHWORD(y);
  ulong xylo,xymid,xyhi,xymidhi,xymidlo;

  xylo = xlo*ylo; xyhi = xhi*yhi;
  xymid = (xhi+xlo)*(yhi+ylo) - (xyhi+xylo);

  xylo += hiremainder; xyhi += (xylo < hiremainder);

  xymidhi = HIGHWORD(xymid);
  xymidlo = xymid << BITS_IN_HALFULONG;

  xylo += xymidlo;
  hiremainder = xyhi + xymidhi + (xylo < xymidlo)
     + (((((xhi+xlo) + (yhi+ylo)) >> 1) - xymidhi) & HIGHMASK);

  return xylo;
}

/* version Peter Montgomery */

INLINE int
bfffo(ulong x)
{
  int sc;
  static int tabshi[16]={4,3,2,2,1,1,1,1,0,0,0,0,0,0,0,0};

  sc = BITS_IN_LONG - 4;
#ifdef LONG_IS_64BIT
  if (x & 0xffffffff00000000) {sc -= 32; x >>= 32;}
#endif
  if (x > 0xffffUL) {sc -= 16; x >>= 16;}
  if (x > 0x00ffUL) {sc -= 8; x >>= 8;}
  if (x > 0x000fUL) {sc -= 4; x >>= 4;}
  return sc + tabshi[x];
}

/* Version Peter Montgomery */

INLINE long
divll(ulong x, ulong y)
{
#define GLUE(hi, lo) (((hi) << BITS_IN_HALFULONG) + (lo))
#define SPLIT(a, b, c) b = HIGHWORD(a); c = LOWWORD(a)

  ulong v1, v2, u3, u4, q1, q2, aux, aux1, aux2;
  int k;
  if (hiremainder >= y) err(talker, "Invalid arguments to divll");
  if (hiremainder == 0)
  {    /* Only one division needed */
    hiremainder = x % y;
    return x/y;
  }
  if (y <= LOWMASK)
  {    /* Use two half-word divisions */
    hiremainder = GLUE(hiremainder, HIGHWORD(x));
    q1 = hiremainder / y;
    hiremainder = GLUE(hiremainder % y, LOWWORD(x));
    q2 = hiremainder / y;
    hiremainder = hiremainder % y;
    return GLUE(q1, q2);
  }
  if (y & HIGHBIT) k = 0;
  else
  {
    k = bfffo(y);
    hiremainder = (hiremainder << k) + (x >> (BITS_IN_LONG - k));
    x <<= k; y <<= k;
  }
  SPLIT(y, v1, v2);
  SPLIT(x, u3, u4);
  q1 = hiremainder / v1; if (q1 > LOWMASK) q1 = LOWMASK;
  hiremainder -= q1 * v1;
  aux = v2 * q1;
again:
  SPLIT(aux, aux1, aux2);
  if (aux2 > u3) aux1++;
  if (aux1 > hiremainder) {q1--; hiremainder += v1; aux -= v2; goto again;}

  hiremainder = GLUE(hiremainder - aux1, LOWWORD(u3 - aux2));
  q2 = hiremainder / v1; if (q2 > LOWMASK) q2 = LOWMASK;
  hiremainder -= q2 * v1;
  aux = v2 * q2;
again2:
  SPLIT(aux, aux1, aux2);
  if (aux2 > u4) aux1++;
  if (aux1 > hiremainder) {q2--; hiremainder += v1; aux -= v2; goto again2;}
  hiremainder = GLUE(hiremainder - aux1, LOWWORD(u4 - aux2)) >> k;
  return GLUE(q1, q2);
#undef GLUE
#undef SPLIT
}

#endif