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/* PROLOG END TAG zYx                                              */

#ifdef __SPU__

#ifndef _LOG2D2_H_

#define _LOG2D2_H_      1

#include <spu_intrinsics.h>

/*

 * FUNCTION

 *      vector double _log2d2(vector double x)

 *

 * DESCRIPTION

 *      The function _log2d2 computes log base 2 of the input x for each

 *      of the double word elements of x. The log2 is decomposed

 *      into two parts, log2 of the exponent and log2 of the

 *      fraction. The log2 of the fraction is approximated

 *      using a 21st order polynomial of the form:

 *

 *                        __20_

 *                        \

 *      log(x) = x * (1 +  \   (Ci * x^i))

 *                         /

 *                        /____

 *                         i=0

 *

 *      for x in the range 0-1.

 */

#define LOG_C00    

#define LOG_C01   

#define LOG_C02    

static __inline vector double _log2d2(vector double vx)

{

  vec_int4 addval;

  vec_ullong2 exp_mask = spu_splats(0x7FF0000000000000ULL);

  vec_double2 vy, vxw;

  vec_double2 v1 = spu_splats(1.0);

  vec_double2 x2, x4, x8, x10, p1, p2;

  /* Extract the fraction component of input by forcing

   * its exponent so that input is in the range [1.0, 2.0)

   * and then subtract 1.0 to force it in the range

   * [0.0, 1.0).

   */

  vxw = spu_sub(spu_sel(vx, v1, exp_mask), v1);

  /* Compute the log2 of the exponent as exp - 1023.

   */

  addval = spu_add(spu_rlmask((vec_int4)vx, -20), -1023);

  /* Compute the log2 of the fractional component using a 21st

   * order polynomial. The polynomial is evaluated in two halves

   * to improve efficiency.

   */

  p1 = spu_madd(spu_splats(3.61276447184348752E-05), vxw, spu_splats(-4.16662127033480827E-04));

  p2 = spu_madd(spu_splats(-1.43988260692073185E-01), vxw, spu_splats(1.60245637034704267E-01));

  p1 = spu_madd(vxw, p1, spu_splats(2.28193656337578229E-03));

  p2 = spu_madd(vxw, p2, spu_splats(-1.80329036970820794E-01));

  p1 = spu_madd(vxw, p1, spu_splats(-7.93793829370930689E-03));

  p2 = spu_madd(vxw, p2, spu_splats(2.06098446037376922E-01));

  p1 = spu_madd(vxw, p1, spu_splats(1.98461565426430164E-02));

  p2 = spu_madd(vxw, p2, spu_splats(-2.40449108727688962E-01));

  p1 = spu_madd(vxw, p1, spu_splats(-3.84093543662501949E-02));

  p2 = spu_madd(vxw, p2, spu_splats(2.88539004851839364E-01));

  p1 = spu_madd(vxw, p1, spu_splats(6.08335872067172597E-02));

  p2 = spu_madd(vxw, p2, spu_splats(-3.60673760117245982E-01));

  p1 = spu_madd(vxw, p1, spu_splats(-8.27937055456904317E-02));

  p2 = spu_madd(vxw, p2, spu_splats(4.80898346961226595E-01));

  p1 = spu_madd(vxw, p1, spu_splats(1.01392360727236079E-01));

  p2 = spu_madd(vxw, p2, spu_splats(-7.21347520444469934E-01));

  p1 = spu_madd(vxw, p1, spu_splats(-1.16530490533844182E-01));

  p2 = spu_madd(vxw, p2, spu_splats(0.44269504088896339E+00));

  p1 = spu_madd(vxw, p1, spu_splats(1.30009193360025350E-01));

  x2 = spu_mul(vxw, vxw);

  x4 = spu_mul(x2, x2);

  x8 = spu_mul(x4, x4);

  x10 = spu_mul(x8, x2);

  vy = spu_madd(spu_madd(x10, p1, p2), vxw, vxw);

  /* Add the log2(exponent) and the log2(fraction) to

   * compute the final result.

   */

  vy = spu_add(vy, spu_extend(spu_convtf(addval, 0)));

  vxw = spu_extend(spu_convtf(addval, 20));

  return(vy);

}

#endif /* _LOG2D2_H_ */

#endif /* __SPU__ */