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/*

 * fp.c -- floating point arithmetic

 */

#include "fp.h"

#define sign_bit ((unsigned) 0x80000000)

#define ROUND_OFF 1

#define ROUND_UP 2

#define ROUND_DOWN 3

#define ROUND_NEAR 4

#define X_BIT (1<<8)

#define Z_BIT (1<<9)

#define U_BIT (1<<10)

#define O_BIT (1<<11)

#define I_BIT (1<<12)

#define W_BIT (1<<13)

#define V_BIT (1<<14)

#define D_BIT (1<<15)

#define E_BIT (1<<18)

#define zero_exponent (-1000)

#define bignum_prec 157

#define magic_offset 2112

#define origin 37

#define buf0 (buf+8)

#define buf_max (buf+777)

#include <stdio.h>

#include <string.h>

#include <ctype.h>

typedef struct {

  int a;

  int b;

  tetra dat[bignum_prec];

} bignum;

octa zero_octa;

octa neg_one = { -1, -1 };

octa inf_octa = { 0x7ff00000, 0 };

octa standard_NaN = { 0x7ff80000, 0 };

octa aux;

bool overflow;

int cur_round;

int exceptions;

octa val;

char *next_char;

static char buf[785] = "00000000";

static void bignum_times_ten (bignum *);

static void bignum_dec (bignum *, bignum *, tetra);

static int bignum_compare (bignum *, bignum *);

static void bignum_double (bignum *);

octa oplus(octa y, octa z) {

  octa x;

  x.h = y.h + z.h;

  x.l = y.l + z.l;

  if (x.l < y.l)

    x.h++;

  return x;

}

octa ominus(octa y, octa z) {

  octa x;

  x.h = y.h - z.h;

  x.l = y.l - z.l;

  if (x.l > y.l)

    x.h--;

  return x;

}

octa incr(octa y, int delta) {

  octa x;

  x.h = y.h;

  x.l = y.l + delta;

  if (delta >= 0)

    {

      if (x.l < y.l)

        x.h++;

    }

  else if (x.l > y.l)

    x.h--;

  return x;

}

octa shift_left(octa y, int s) {

  while (s >= 32)

    y.h = y.l, y.l = 0, s -= 32;

  if (s)

    {

      tetra yhl = y.h << s, ylh = y.l >> (32 - s);

      y.h = yhl + ylh;

      y.l <<= s;

    }

  return y;

}

octa shift_right(octa y, int s, int u) {

  while (s >= 32)

    y.l = y.h, y.h = (u ? 0 : -(y.h >> 31)), s -= 32;

  if (s)

    {

      tetra yhl = y.h << (32 - s), ylh = y.l >> s;

      y.h = (u ? 0 : (-(y.h >> 31)) << (32 - s)) + (y.h >> s);

      y.l = yhl + ylh;

    }

  return y;

}

octa omult(octa y, octa z) {

  int i, j, k;

  tetra u[4], v[4], w[8];

  tetra t;

  octa acc;

  u[3] = y.h >> 16, u[2] = y.h & 0xffff, u[1] = y.l >> 16, u[0] =

    y.l & 0xffff;

  v[3] = z.h >> 16, v[2] = z.h & 0xffff, v[1] = z.l >> 16, v[0] =

    z.l & 0xffff;

  for (j = 0; j < 4; j++)

    w[j] = 0;

  for (j = 0; j < 4; j++)

    if (!v[j])

      w[j + 4] = 0;

    else

      {

        for (i = k = 0; i < 4; i++)

          {

            t = u[i] * v[j] + w[i + j] + k;

            w[i + j] = t & 0xffff, k = t >> 16;

          }

        w[j + 4] = k;

      }

  aux.h = (w[7] << 16) + w[6], aux.l = (w[5] << 16) + w[4];

  acc.h = (w[3] << 16) + w[2], acc.l = (w[1] << 16) + w[0];

  return acc;

}

octa odiv(octa x, octa y, octa z) {

  int i, j, k, n, d;

  tetra u[8], v[4], q[4], mask, qhat, rhat, vh, vmh;

  tetra t;

  octa acc;

  if (x.h > z.h || (x.h == z.h && x.l >= z.l))

    {

      aux = y;

      return x;

    }

  u[7] = x.h >> 16, u[6] = x.h & 0xffff, u[5] = x.l >> 16, u[4] =

    x.l & 0xffff;

  u[3] = y.h >> 16, u[2] = y.h & 0xffff, u[1] = y.l >> 16, u[0] =

    y.l & 0xffff;

  v[3] = z.h >> 16, v[2] = z.h & 0xffff, v[1] = z.l >> 16, v[0] =

    z.l & 0xffff;

  for (n = 4; v[n - 1] == 0; n--);

  vh = v[n - 1];

  for (d = 0; vh < 0x8000; d++, vh <<= 1);

  for (j = k = 0; j < n + 4; j++)

    {

      t = (u[j] << d) + k;

      u[j] = t & 0xffff, k = t >> 16;

    }

  for (j = k = 0; j < n; j++)

    {

      t = (v[j] << d) + k;

      v[j] = t & 0xffff, k = t >> 16;

    }

  vh = v[n - 1];

  vmh = (n > 1 ? v[n - 2] : 0);

  for (j = 3; j >= 0; j--)

    {

      t = (u[j + n] << 16) + u[j + n - 1];

      qhat = t / vh, rhat = t - vh * qhat;

      if (n > 1)

        while (qhat == 0x10000 || qhat * vmh > (rhat << 16) + u[j + n - 2])

          {

            qhat--, rhat += vh;

            if (rhat >= 0x10000)

              break;

          }

      for (i = k = 0; i < n; i++)

        {

          t = u[i + j] + 0xffff0000 - k - qhat * v[i];

          u[i + j] = t & 0xffff, k = 0xffff - (t >> 16);

        }

      if (u[j + n] != k)

        {

          qhat--;

          for (i = k = 0; i < n; i++)

            {

              t = u[i + j] + v[i] + k;

              u[i + j] = t & 0xffff, k = t >> 16;

            }

        }

      q[j] = qhat;

    }

  mask = (1 << d) - 1;

  for (j = 3; j >= n; j--)

    u[j] = 0;

  for (k = 0; j >= 0; j--)

    {

      t = (k << 16) + u[j];

      u[j] = t >> d, k = t & mask;

    }

  acc.h = (q[3] << 16) + q[2], acc.l = (q[1] << 16) + q[0];

  aux.h = (u[3] << 16) + u[2], aux.l = (u[1] << 16) + u[0];

  return acc;

}

octa

fpack (f, e, s, r)

     octa f;

     int e;

     char s;

     int r;

{

  octa o;

  if (e > 0x7fd)

    e = 0x7ff, o = zero_octa;

  else

    {

      if (e < 0)

        {

          if (e < -54)

            o.h = 0, o.l = 1;

          else

            {

              octa oo;

              o = shift_right (f, -e, 1);

              oo = shift_left (o, -e);

              if (oo.l != f.l || oo.h != f.h)

                o.l |= 1;

            }

          e = 0;

        }

      else

        o = f;

    }

  if (o.l & 3)

    exceptions |= X_BIT;

  switch (r)

    {

    case ROUND_DOWN:

      if (s == '-')

        o = incr (o, 3);

      break;

    case ROUND_UP:

      if (s != '-')

        o = incr (o, 3);

    case ROUND_OFF:

      break;

    case ROUND_NEAR:

      o = incr (o, o.l & 4 ? 2 : 1);

      break;

    }

  o = shift_right (o, 2, 1);

  o.h += e << 20;

  if (o.h >= 0x7ff00000)

    exceptions |= O_BIT + X_BIT;

  else if (o.h < 0x100000)

    exceptions |= U_BIT;

  if (s == '-')

    o.h |= sign_bit;

  return o;

  ;

}

tetra

sfpack (f, e, s, r)

     octa f;

     int e;

     char s;

     int r;

{

  tetra o;

  if (e > 0x47d)

    e = 0x47f, o = 0;

  else

    {

      o = shift_left (f, 3).h;

      if (f.l & 0x1fffffff)

        o |= 1;

      if (e < 0x380)

        {

          if (e < 0x380 - 25)

            o = 1;

          else

            {

              tetra o0, oo;

              o0 = o;

              o = o >> (0x380 - e);

              oo = o << (0x380 - e);

              if (oo != o0)

                o |= 1;

            }

          e = 0x380;

        }

    }

  if (o & 3)

    exceptions |= X_BIT;

  switch (r)

    {

    case ROUND_DOWN:

      if (s == '-')

        o += 3;

      break;

    case ROUND_UP:

      if (s != '-')

        o += 3;

    case ROUND_OFF:

      break;

    case ROUND_NEAR:

      o += (o & 4 ? 2 : 1);

      break;

    }

  o = o >> 2;

  o += (e - 0x380) << 23;

  if (o >= 0x7f800000)

    exceptions |= O_BIT + X_BIT;

  else if (o < 0x100000)

    exceptions |= U_BIT;

  if (s == '-')

    o |= sign_bit;

  return o;

  ;

}

ftype

funpack (x, f, e, s)

     octa x;

     octa *f;

     int *e;

     char *s;

{

  int ee;

  exceptions = 0;

  *s = (x.h & sign_bit ? '-' : '+');

  *f = shift_left (x, 2);

  f->h &= 0x3fffff;

  ee = (x.h >> 20) & 0x7ff;

  if (ee)

    {

      *e = ee - 1;

      f->h |= 0x400000;

      return (ee < 0x7ff ? num : f->h == 0x400000 && !f->l ? inf : nan);

    }

  if (!x.l && !f->h)

    {

      *e = zero_exponent;

      return zro;

    }

  do

    {

      ee--;

      *f = shift_left (*f, 1);

    }

  while (!(f->h & 0x400000));

  *e = ee;

  return num;

}

ftype

sfunpack (x, f, e, s)

     tetra x;

     octa *f;

     int *e;

     char *s;

{

  int ee;

  exceptions = 0;

  *s = (x & sign_bit ? '-' : '+');

  f->h = (x >> 1) & 0x3fffff, f->l = x << 31;

  ee = (x >> 23) & 0xff;

  if (ee)

    {

      *e = ee + 0x380 - 1;

      f->h |= 0x400000;

      return (ee < 0xff ? num : (x & 0x7fffffff) == 0x7f800000 ? inf : nan);

    }

  if (!(x & 0x7fffffff))

    {

      *e = zero_exponent;

      return zro;

    }

  do

    {

      ee--;

      *f = shift_left (*f, 1);

    }

  while (!(f->h & 0x400000));

  *e = ee + 0x380;

  return num;

}

octa

load_sf (z)

     tetra z;

{

  octa f, x;

  int e;

  char s;

  ftype t;

  t = sfunpack (z, &f, &e, &s);

  switch (t)

    {

    case zro:

      x = zero_octa;

      break;

    case num:

      return fpack (f, e, s, ROUND_OFF);

    case inf:

      x = inf_octa;

      break;

    case nan:

      x = shift_right (f, 2, 1);

      x.h |= 0x7ff00000;

      break;

    }

  if (s == '-')

    x.h |= sign_bit;

  return x;

}

tetra

store_sf (x)

     octa x;

{

  octa f;

  tetra z;

  int e;

  char s;

  ftype t;

  t = funpack (x, &f, &e, &s);

  switch (t)

    {

    case zro:

      z = 0;

      break;

    case num:

      return sfpack (f, e, s, cur_round);

    case inf:

      z = 0x7f800000;

      break;

    case nan:

      if (!(f.h & 0x200000))

        {

          f.h |= 0x200000;

          exceptions |= I_BIT;

        }

      z = 0x7f800000 | (f.h << 1) | (f.l >> 31);

      break;

    }

  if (s == '-')

    z |= sign_bit;

  return z;

}

octa

fmult (y, z)

     octa y, z;

{

  ftype yt, zt;

  int ye, ze;

  char ys, zs;

  octa x, xf, yf, zf;

  int xe;

  char xs;

  yt = funpack (y, &yf, &ye, &ys);

  zt = funpack (z, &zf, &ze, &zs);

  xs = ys + zs - '+';

  switch (4 * yt + zt)

    {

    case 4 * nan + nan:

      if (!(y.h & 0x80000))

        exceptions |= I_BIT;

    case 4 * zro + nan:

    case 4 * num + nan:

    case 4 * inf + nan:

      if (!(z.h & 0x80000))

        exceptions |= I_BIT, z.h |= 0x80000;

      return z;

    case 4 * nan + zro:

    case 4 * nan + num:

    case 4 * nan + inf:

      if (!(y.h & 0x80000))

        exceptions |= I_BIT, y.h |= 0x80000;

      return y;

      ;

    case 4 * zro + zro:

    case 4 * zro + num:

    case 4 * num + zro:

      x = zero_octa;

      break;

    case 4 * num + inf:

    case 4 * inf + num:

    case 4 * inf + inf:

      x = inf_octa;

      break;

    case 4 * zro + inf:

    case 4 * inf + zro:

      x = standard_NaN;

      exceptions |= I_BIT;

      break;

    case 4 * num + num:

      xe = ye + ze - 0x3fd;

      x = omult (yf, shift_left (zf, 9));

      if (aux.h >= 0x400000)

        xf = aux;

      else

        xf = shift_left (aux, 1), xe--;

      if (x.h || x.l)

        xf.l |= 1;

      return fpack (xf, xe, xs, cur_round);

      ;

    }

  if (xs == '-')

    x.h |= sign_bit;

  return x;

}

octa

fdivide (y, z)

     octa y, z;

{

  ftype yt, zt;

  int ye, ze;

  char ys, zs;

  octa x, xf, yf, zf;

  int xe;

  char xs;

  yt = funpack (y, &yf, &ye, &ys);

  zt = funpack (z, &zf, &ze, &zs);

  xs = ys + zs - '+';

  switch (4 * yt + zt)

    {

    case 4 * nan + nan:

      if (!(y.h & 0x80000))

        exceptions |= I_BIT;

    case 4 * zro + nan:

    case 4 * num + nan:

    case 4 * inf + nan:

      if (!(z.h & 0x80000))

        exceptions |= I_BIT, z.h |= 0x80000;

      return z;

    case 4 * nan + zro:

    case 4 * nan + num:

    case 4 * nan + inf:

      if (!(y.h & 0x80000))

        exceptions |= I_BIT, y.h |= 0x80000;

      return y;

      ;

    case 4 * zro + inf:

    case 4 * zro + num:

    case 4 * num + inf:

      x = zero_octa;

      break;

    case 4 * num + zro:

      exceptions |= Z_BIT;