glibc/sysdeps/powerpc/fpu/k_rem_pio2f.c

/* k_rem_pio2f.c -- float version of e_rem_pio2.c
   Copyright (C) 2011-2013 Free Software Foundation, Inc.
   This file is part of the GNU C Library.
   Contributed by Adhemerval Zanella <azanella@br.ibm.com>, 2011

   The GNU C Library is free software; you can redistribute it and/or
   modify it under the terms of the GNU Library General Public License as
   published by the Free Software Foundation; either version 2 of the
   License, or (at your option) any later version.

   The GNU C 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
   Library General Public License for more details.

   You should have received a copy of the GNU Library General Public
   License along with the GNU C Library; see the file COPYING.LIB.  If
   not, see <http://www.gnu.org/licenses/>.  */

#include <math.h>

#include <math_private.h>
#include "s_float_bitwise.h"


static const float two_over_pi[] = {
  1.62000000e+02, 2.49000000e+02, 1.31000000e+02, 1.10000000e+02,
  7.80000000e+01, 6.80000000e+01, 2.10000000e+01, 4.10000000e+01,
  2.52000000e+02, 3.90000000e+01, 8.70000000e+01, 2.09000000e+02,
  2.45000000e+02, 5.20000000e+01, 2.21000000e+02, 1.92000000e+02,
  2.19000000e+02, 9.80000000e+01, 1.49000000e+02, 1.53000000e+02,
  6.00000000e+01, 6.70000000e+01, 1.44000000e+02, 6.50000000e+01,
  2.54000000e+02, 8.10000000e+01, 9.90000000e+01, 1.71000000e+02,
  2.22000000e+02, 1.87000000e+02, 1.97000000e+02, 9.70000000e+01,
  1.83000000e+02, 3.60000000e+01, 1.10000000e+02, 5.80000000e+01,
  6.60000000e+01, 7.70000000e+01, 2.10000000e+02, 2.24000000e+02,
  6.00000000e+00, 7.30000000e+01, 4.60000000e+01, 2.34000000e+02,
  9.00000000e+00, 2.09000000e+02, 1.46000000e+02, 2.80000000e+01,
  2.54000000e+02, 2.90000000e+01, 2.35000000e+02, 2.80000000e+01,
  1.77000000e+02, 4.10000000e+01, 1.67000000e+02, 6.20000000e+01,
  2.32000000e+02, 1.30000000e+02, 5.30000000e+01, 2.45000000e+02,
  4.60000000e+01, 1.87000000e+02, 6.80000000e+01, 1.32000000e+02,
  2.33000000e+02, 1.56000000e+02, 1.12000000e+02, 3.80000000e+01,
  1.80000000e+02, 9.50000000e+01, 1.26000000e+02, 6.50000000e+01,
  5.70000000e+01, 1.45000000e+02, 2.14000000e+02, 5.70000000e+01,
  1.31000000e+02, 8.30000000e+01, 5.70000000e+01, 2.44000000e+02,
  1.56000000e+02, 1.32000000e+02, 9.50000000e+01, 1.39000000e+02,
  1.89000000e+02, 2.49000000e+02, 4.00000000e+01, 5.90000000e+01,
  3.10000000e+01, 2.48000000e+02, 1.51000000e+02, 2.55000000e+02,
  2.22000000e+02, 5.00000000e+00, 1.52000000e+02, 1.50000000e+01,
  2.39000000e+02, 4.70000000e+01, 1.70000000e+01, 1.39000000e+02,
  9.00000000e+01, 1.00000000e+01, 1.09000000e+02, 3.10000000e+01,
  1.09000000e+02, 5.40000000e+01, 1.26000000e+02, 2.07000000e+02,
  3.90000000e+01, 2.03000000e+02, 9.00000000e+00, 1.83000000e+02,
  7.90000000e+01, 7.00000000e+01, 6.30000000e+01, 1.02000000e+02,
  1.58000000e+02, 9.50000000e+01, 2.34000000e+02, 4.50000000e+01,
  1.17000000e+02, 3.90000000e+01, 1.86000000e+02, 1.99000000e+02,
  2.35000000e+02, 2.29000000e+02, 2.41000000e+02, 1.23000000e+02,
  6.10000000e+01, 7.00000000e+00, 5.70000000e+01, 2.47000000e+02,
  1.38000000e+02, 8.20000000e+01, 1.46000000e+02, 2.34000000e+02,
  1.07000000e+02, 2.51000000e+02, 9.50000000e+01, 1.77000000e+02,
  3.10000000e+01, 1.41000000e+02, 9.30000000e+01, 8.00000000e+00,
  8.60000000e+01, 3.00000000e+00, 4.80000000e+01, 7.00000000e+01,
  2.52000000e+02, 1.23000000e+02, 1.07000000e+02, 1.71000000e+02,
  2.40000000e+02, 2.07000000e+02, 1.88000000e+02, 3.20000000e+01,
  1.54000000e+02, 2.44000000e+02, 5.40000000e+01, 2.90000000e+01,
  1.69000000e+02, 2.27000000e+02, 1.45000000e+02, 9.70000000e+01,
  9.40000000e+01, 2.30000000e+02, 2.70000000e+01, 8.00000000e+00,
  1.01000000e+02, 1.53000000e+02, 1.33000000e+02, 9.50000000e+01,
  2.00000000e+01, 1.60000000e+02, 1.04000000e+02, 6.40000000e+01,
  1.41000000e+02, 2.55000000e+02, 2.16000000e+02, 1.28000000e+02,
  7.70000000e+01, 1.15000000e+02, 3.90000000e+01, 4.90000000e+01,
  6.00000000e+00, 6.00000000e+00, 2.10000000e+01, 8.60000000e+01,
  2.02000000e+02, 1.15000000e+02, 1.68000000e+02, 2.01000000e+02,
  9.60000000e+01, 2.26000000e+02, 1.23000000e+02, 1.92000000e+02,
  1.40000000e+02, 1.07000000e+02
};


static const float PIo2[] = {
  1.5703125000e+00,		/* 0x3fc90000 */
  4.5776367188e-04,		/* 0x39f00000 */
  2.5987625122e-05,		/* 0x37da0000 */
  7.5437128544e-08,		/* 0x33a20000 */
  6.0026650317e-11,		/* 0x2e840000 */
  7.3896444519e-13,		/* 0x2b500000 */
  5.3845816694e-15,		/* 0x27c20000 */
  5.6378512969e-18,		/* 0x22d00000 */
  8.3009228831e-20,		/* 0x1fc40000 */
  3.2756352257e-22,		/* 0x1bc60000 */
  6.3331015649e-25,		/* 0x17440000 */
};


static const float zero  = 0.0000000000e+00;
static const float one   = 1.0000000000;
static const float twon8 = 3.9062500000e-03;
static const float two8  = 2.5600000000e+02;


int32_t
__fp_kernel_rem_pio2f (float *x, float *y, float e0, int32_t nx)
{
  int32_t jz, jx, jv, jp, jk, carry, n, iq[20], i, j, k, m, q0, ih, exp;
  float z, fw, f[20], fq[20], q[20];

  /* initialize jk */
  jp = jk = 9;

  /* determine jx,jv,q0, note that 3>q0 */
  jx = nx - 1;
  exp = __float_get_exp (e0) - 127;
  jv = (exp - 3) / 8;
  if (jv < 0)
    jv = 0;
  q0 = exp - 8 * (jv + 1);

  /* set up f[0] to f[jx+jk] where f[jx+jk] = two_over_pi[jv+jk] */
  j = jv - jx;
  m = jx + jk;
  for (i = 0; i <= m; i++, j++)
    f[i] = (j < 0) ? zero : two_over_pi[j];

  /* compute q[0],q[1],...q[jk] */
  for (i = 0; i <= jk; i++)
    {
      for (j = 0, fw = 0.0; j <= jx; j++)
	fw += x[j] * f[jx + i - j];
      q[i] = fw;
    }

  jz = jk;
recompute:
  /* distill q[] into iq[] reversingly */
  for (i = 0, j = jz, z = q[jz]; j > 0; i++, j--)
    {
      fw = __truncf (twon8 * z);
      iq[i] = (int32_t) (z - two8 * fw);
      z = q[j - 1] + fw;
    }

  /* compute n */
  z = __scalbnf (z, q0);	/* actual value of z */
  z -= 8.0 * __floorf (z * 0.125);	/* trim off integer >= 8 */
  n = (int32_t) z;
  z -= __truncf (z);
  ih = 0;
  if (q0 > 0)
    {				/* need iq[jz-1] to determine n */
      i = (iq[jz - 1] >> (8 - q0));
      n += i;
      iq[jz - 1] -= i << (8 - q0);
      ih = iq[jz - 1] >> (7 - q0);
    }
  else if (q0 == 0)
    ih = iq[jz - 1] >> 7;
  else if (z >= 0.5)
    ih = 2;

  if (ih > 0)
    {				/* q > 0.5 */
      n += 1;
      carry = 0;
      for (i = 0; i < jz; i++)
	{			/* compute 1-q */
	  j = iq[i];
	  if (carry == 0)
	    {
	      if (j != 0)
		{
		  carry = 1;
		  iq[i] = 0x100 - j;
		}
	    }
	  else
	    iq[i] = 0xff - j;
	}
      if (q0 > 0)
	{			/* rare case: chance is 1 in 12 */
	  switch (q0)
	    {
	    case 1:
	      iq[jz - 1] &= 0x7f;
	      break;
	    case 2:
	      iq[jz - 1] &= 0x3f;
	      break;
	    }
	}
      if (ih == 2)
	{
	  z = one - z;
	  if (carry != 0)
	    z -= __scalbnf (one, q0);
	}
    }

  /* check if recomputation is needed */
  if (z == zero)
    {
      j = 0;
      for (i = jz - 1; i >= jk; i--)
	j |= iq[i];
      if (j == 0)
	{			/* need recomputation */
	  for (k = 1; iq[jk - k] == 0; k++);	/* k = no. of terms needed */

	  for (i = jz + 1; i <= jz + k; i++)
	    {			/* add q[jz+1] to q[jz+k] */
	      f[jx + i] = two_over_pi[jv + i];
	      for (j = 0, fw = 0.0; j <= jx; j++)
		fw += x[j] * f[jx + i - j];
	      q[i] = fw;
	    }
	  jz += k;
	  goto recompute;
	}
    }

  /* chop off zero terms */
  if (z == 0.0)
    {
      jz -= 1;
      q0 -= 8;
      while (iq[jz] == 0)
	{
	  jz--;
	  q0 -= 8;
	}
    }
  else
    {				/* break z into 8-bit if necessary */
      z = __scalbnf (z, -q0);
      if (z >= two8)
	{
	  fw = __truncf (twon8 * z);
	  iq[jz] = (int32_t) (z - two8 * fw);
	  jz += 1;
	  q0 += 8;
	  iq[jz] = (int32_t) fw;
	}
      else
	iq[jz] = (int32_t) z;
    }

  /* convert integer "bit" chunk to floating-point value */
  fw = __scalbnf (one, q0);
  for (i = jz; i >= 0; i--)
    {
      q[i] = fw * (float) iq[i];
      fw *= twon8;
    }

  /* compute PIo2[0,...,jp]*q[jz,...,0] */
  for (i = jz; i >= 0; i--)
    {
      for (fw = 0.0, k = 0; k <= jp && k <= jz - i; k++)
	fw += PIo2[k] * q[i + k];
      fq[jz - i] = fw;
    }

  /* compress fq[] into y[] */
  fw = 0.0;
  for (i = jz; i >= 0; i--)
    fw += fq[i];
  y[0] = (ih == 0) ? fw : -fw;
  fw = fq[0] - fw;
  for (i = 1; i <= jz; i++)
    fw += fq[i];
  y[1] = (ih == 0) ? fw : -fw;

  return n & 7;
}
Trigonometric optimizations for POWER 2011-09-08 02:10:26 +00:00			`/* k_rem_pio2f.c -- float version of e_rem_pio2.c`
Update copyright notices with scripts/update-copyrights. 2013-01-02 19:01:50 +00:00			`Copyright (C) 2011-2013 Free Software Foundation, Inc.`
Trigonometric optimizations for POWER 2011-09-08 02:10:26 +00:00			`This file is part of the GNU C Library.`
			`Contributed by Adhemerval Zanella <azanella@br.ibm.com>, 2011`

			`The GNU C Library is free software; you can redistribute it and/or`
			`modify it under the terms of the GNU Library General Public License as`
			`published by the Free Software Foundation; either version 2 of the`
			`License, or (at your option) any later version.`

			`The GNU C 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`
			`Library General Public License for more details.`

			`You should have received a copy of the GNU Library General Public`
Replace FSF snail mail address with URLs. 2012-02-09 23:18:22 +00:00			`License along with the GNU C Library; see the file COPYING.LIB. If`
			`not, see <http://www.gnu.org/licenses/>. */`
Trigonometric optimizations for POWER 2011-09-08 02:10:26 +00:00
			`#include <math.h>`

Use <> for math.h and math_private.h everywhere. Entire tree edited via find \| grep \| sed. 2012-03-09 19:29:16 +00:00			`#include <math_private.h>`
Trigonometric optimizations for POWER 2011-09-08 02:10:26 +00:00			`#include "s_float_bitwise.h"`


			`static const float two_over_pi[] = {`
			`1.62000000e+02, 2.49000000e+02, 1.31000000e+02, 1.10000000e+02,`
			`7.80000000e+01, 6.80000000e+01, 2.10000000e+01, 4.10000000e+01,`
			`2.52000000e+02, 3.90000000e+01, 8.70000000e+01, 2.09000000e+02,`
			`2.45000000e+02, 5.20000000e+01, 2.21000000e+02, 1.92000000e+02,`
			`2.19000000e+02, 9.80000000e+01, 1.49000000e+02, 1.53000000e+02,`
			`6.00000000e+01, 6.70000000e+01, 1.44000000e+02, 6.50000000e+01,`
			`2.54000000e+02, 8.10000000e+01, 9.90000000e+01, 1.71000000e+02,`
			`2.22000000e+02, 1.87000000e+02, 1.97000000e+02, 9.70000000e+01,`
			`1.83000000e+02, 3.60000000e+01, 1.10000000e+02, 5.80000000e+01,`
			`6.60000000e+01, 7.70000000e+01, 2.10000000e+02, 2.24000000e+02,`
			`6.00000000e+00, 7.30000000e+01, 4.60000000e+01, 2.34000000e+02,`
			`9.00000000e+00, 2.09000000e+02, 1.46000000e+02, 2.80000000e+01,`
			`2.54000000e+02, 2.90000000e+01, 2.35000000e+02, 2.80000000e+01,`
			`1.77000000e+02, 4.10000000e+01, 1.67000000e+02, 6.20000000e+01,`
			`2.32000000e+02, 1.30000000e+02, 5.30000000e+01, 2.45000000e+02,`
			`4.60000000e+01, 1.87000000e+02, 6.80000000e+01, 1.32000000e+02,`
			`2.33000000e+02, 1.56000000e+02, 1.12000000e+02, 3.80000000e+01,`
			`1.80000000e+02, 9.50000000e+01, 1.26000000e+02, 6.50000000e+01,`
			`5.70000000e+01, 1.45000000e+02, 2.14000000e+02, 5.70000000e+01,`
			`1.31000000e+02, 8.30000000e+01, 5.70000000e+01, 2.44000000e+02,`
			`1.56000000e+02, 1.32000000e+02, 9.50000000e+01, 1.39000000e+02,`
			`1.89000000e+02, 2.49000000e+02, 4.00000000e+01, 5.90000000e+01,`
			`3.10000000e+01, 2.48000000e+02, 1.51000000e+02, 2.55000000e+02,`
			`2.22000000e+02, 5.00000000e+00, 1.52000000e+02, 1.50000000e+01,`
			`2.39000000e+02, 4.70000000e+01, 1.70000000e+01, 1.39000000e+02,`
			`9.00000000e+01, 1.00000000e+01, 1.09000000e+02, 3.10000000e+01,`
			`1.09000000e+02, 5.40000000e+01, 1.26000000e+02, 2.07000000e+02,`
			`3.90000000e+01, 2.03000000e+02, 9.00000000e+00, 1.83000000e+02,`
			`7.90000000e+01, 7.00000000e+01, 6.30000000e+01, 1.02000000e+02,`
			`1.58000000e+02, 9.50000000e+01, 2.34000000e+02, 4.50000000e+01,`
			`1.17000000e+02, 3.90000000e+01, 1.86000000e+02, 1.99000000e+02,`
			`2.35000000e+02, 2.29000000e+02, 2.41000000e+02, 1.23000000e+02,`
			`6.10000000e+01, 7.00000000e+00, 5.70000000e+01, 2.47000000e+02,`
			`1.38000000e+02, 8.20000000e+01, 1.46000000e+02, 2.34000000e+02,`
			`1.07000000e+02, 2.51000000e+02, 9.50000000e+01, 1.77000000e+02,`
			`3.10000000e+01, 1.41000000e+02, 9.30000000e+01, 8.00000000e+00,`
			`8.60000000e+01, 3.00000000e+00, 4.80000000e+01, 7.00000000e+01,`
			`2.52000000e+02, 1.23000000e+02, 1.07000000e+02, 1.71000000e+02,`
			`2.40000000e+02, 2.07000000e+02, 1.88000000e+02, 3.20000000e+01,`
			`1.54000000e+02, 2.44000000e+02, 5.40000000e+01, 2.90000000e+01,`
			`1.69000000e+02, 2.27000000e+02, 1.45000000e+02, 9.70000000e+01,`
			`9.40000000e+01, 2.30000000e+02, 2.70000000e+01, 8.00000000e+00,`
			`1.01000000e+02, 1.53000000e+02, 1.33000000e+02, 9.50000000e+01,`
			`2.00000000e+01, 1.60000000e+02, 1.04000000e+02, 6.40000000e+01,`
			`1.41000000e+02, 2.55000000e+02, 2.16000000e+02, 1.28000000e+02,`
			`7.70000000e+01, 1.15000000e+02, 3.90000000e+01, 4.90000000e+01,`
			`6.00000000e+00, 6.00000000e+00, 2.10000000e+01, 8.60000000e+01,`
			`2.02000000e+02, 1.15000000e+02, 1.68000000e+02, 2.01000000e+02,`
			`9.60000000e+01, 2.26000000e+02, 1.23000000e+02, 1.92000000e+02,`
			`1.40000000e+02, 1.07000000e+02`
			`};`


			`static const float PIo2[] = {`
			`1.5703125000e+00, /* 0x3fc90000 */`
			`4.5776367188e-04, /* 0x39f00000 */`
			`2.5987625122e-05, /* 0x37da0000 */`
			`7.5437128544e-08, /* 0x33a20000 */`
			`6.0026650317e-11, /* 0x2e840000 */`
			`7.3896444519e-13, /* 0x2b500000 */`
			`5.3845816694e-15, /* 0x27c20000 */`
			`5.6378512969e-18, /* 0x22d00000 */`
			`8.3009228831e-20, /* 0x1fc40000 */`
			`3.2756352257e-22, /* 0x1bc60000 */`
			`6.3331015649e-25, /* 0x17440000 */`
			`};`


			`static const float zero = 0.0000000000e+00;`
			`static const float one = 1.0000000000;`
			`static const float twon8 = 3.9062500000e-03;`
			`static const float two8 = 2.5600000000e+02;`


			`int32_t`
			`__fp_kernel_rem_pio2f (float x, float y, float e0, int32_t nx)`
			`{`
			`int32_t jz, jx, jv, jp, jk, carry, n, iq[20], i, j, k, m, q0, ih, exp;`
			`float z, fw, f[20], fq[20], q[20];`

			`/* initialize jk */`
			`jp = jk = 9;`

			`/* determine jx,jv,q0, note that 3>q0 */`
			`jx = nx - 1;`
			`exp = __float_get_exp (e0) - 127;`
			`jv = (exp - 3) / 8;`
			`if (jv < 0)`
			`jv = 0;`
			`q0 = exp - 8 * (jv + 1);`

			`/* set up f[0] to f[jx+jk] where f[jx+jk] = two_over_pi[jv+jk] */`
			`j = jv - jx;`
			`m = jx + jk;`
			`for (i = 0; i <= m; i++, j++)`
			`f[i] = (j < 0) ? zero : two_over_pi[j];`

			`/* compute q[0],q[1],...q[jk] */`
			`for (i = 0; i <= jk; i++)`
			`{`
			`for (j = 0, fw = 0.0; j <= jx; j++)`
			`fw += x[j] * f[jx + i - j];`
			`q[i] = fw;`
			`}`

			`jz = jk;`
			`recompute:`
			`/* distill q[] into iq[] reversingly */`
			`for (i = 0, j = jz, z = q[jz]; j > 0; i++, j--)`
			`{`
Fix PLT uses in libm on powerpc 2011-09-15 09:16:03 +00:00			`fw = __truncf (twon8 * z);`
Trigonometric optimizations for POWER 2011-09-08 02:10:26 +00:00			`iq[i] = (int32_t) (z - two8 * fw);`
			`z = q[j - 1] + fw;`
			`}`

			`/* compute n */`
			`z = __scalbnf (z, q0); /* actual value of z */`
Fix PLT uses in libm on powerpc 2011-09-15 09:16:03 +00:00			`z -= 8.0 * __floorf (z * 0.125); /* trim off integer >= 8 */`
Trigonometric optimizations for POWER 2011-09-08 02:10:26 +00:00			`n = (int32_t) z;`
Fix PLT uses in libm on powerpc 2011-09-15 09:16:03 +00:00			`z -= __truncf (z);`
Trigonometric optimizations for POWER 2011-09-08 02:10:26 +00:00			`ih = 0;`
			`if (q0 > 0)`
			`{ /* need iq[jz-1] to determine n */`
			`i = (iq[jz - 1] >> (8 - q0));`
			`n += i;`
			`iq[jz - 1] -= i << (8 - q0);`
			`ih = iq[jz - 1] >> (7 - q0);`
			`}`
			`else if (q0 == 0)`
Fix float range reduction problems (#14283) 2012-07-06 21:56:57 +00:00			`ih = iq[jz - 1] >> 7;`
Trigonometric optimizations for POWER 2011-09-08 02:10:26 +00:00			`else if (z >= 0.5)`
			`ih = 2;`

			`if (ih > 0)`
			`{ /* q > 0.5 */`
			`n += 1;`
			`carry = 0;`
			`for (i = 0; i < jz; i++)`
			`{ /* compute 1-q */`
			`j = iq[i];`
			`if (carry == 0)`
			`{`
			`if (j != 0)`
			`{`
			`carry = 1;`
			`iq[i] = 0x100 - j;`
			`}`
			`}`
			`else`
			`iq[i] = 0xff - j;`
			`}`
			`if (q0 > 0)`
			`{ /* rare case: chance is 1 in 12 */`
			`switch (q0)`
			`{`
			`case 1:`
			`iq[jz - 1] &= 0x7f;`
			`break;`
			`case 2:`
			`iq[jz - 1] &= 0x3f;`
			`break;`
			`}`
			`}`
			`if (ih == 2)`
			`{`
			`z = one - z;`
			`if (carry != 0)`
			`z -= __scalbnf (one, q0);`
			`}`
			`}`

			`/* check if recomputation is needed */`
			`if (z == zero)`
			`{`
			`j = 0;`
			`for (i = jz - 1; i >= jk; i--)`
			`j \|= iq[i];`
			`if (j == 0)`
			`{ /* need recomputation */`
			`for (k = 1; iq[jk - k] == 0; k++); /* k = no. of terms needed */`

			`for (i = jz + 1; i <= jz + k; i++)`
			`{ /* add q[jz+1] to q[jz+k] */`
			`f[jx + i] = two_over_pi[jv + i];`
			`for (j = 0, fw = 0.0; j <= jx; j++)`
			`fw += x[j] * f[jx + i - j];`
			`q[i] = fw;`
			`}`
			`jz += k;`
			`goto recompute;`
			`}`
			`}`

			`/* chop off zero terms */`
			`if (z == 0.0)`
			`{`
			`jz -= 1;`
			`q0 -= 8;`
			`while (iq[jz] == 0)`
			`{`
			`jz--;`
			`q0 -= 8;`
			`}`
			`}`
			`else`
			`{ /* break z into 8-bit if necessary */`
			`z = __scalbnf (z, -q0);`
			`if (z >= two8)`
			`{`
Fix PLT uses in libm on powerpc 2011-09-15 09:16:03 +00:00			`fw = __truncf (twon8 * z);`
Trigonometric optimizations for POWER 2011-09-08 02:10:26 +00:00			`iq[jz] = (int32_t) (z - two8 * fw);`
			`jz += 1;`
			`q0 += 8;`
			`iq[jz] = (int32_t) fw;`
			`}`
			`else`
			`iq[jz] = (int32_t) z;`
			`}`

			`/* convert integer "bit" chunk to floating-point value */`
			`fw = __scalbnf (one, q0);`
			`for (i = jz; i >= 0; i--)`
			`{`
			`q[i] = fw * (float) iq[i];`
			`fw *= twon8;`
			`}`

			`/* compute PIo2[0,...,jp]q[jz,...,0] /`
			`for (i = jz; i >= 0; i--)`
			`{`
			`for (fw = 0.0, k = 0; k <= jp && k <= jz - i; k++)`
			`fw += PIo2[k] * q[i + k];`
			`fq[jz - i] = fw;`
			`}`

			`/* compress fq[] into y[] */`
			`fw = 0.0;`
			`for (i = jz; i >= 0; i--)`
			`fw += fq[i];`
			`y[0] = (ih == 0) ? fw : -fw;`
			`fw = fq[0] - fw;`
			`for (i = 1; i <= jz; i++)`
			`fw += fq[i];`
			`y[1] = (ih == 0) ? fw : -fw;`

			`return n & 7;`
			`}`