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/* PROLOG END TAG zYx                                              */

#ifdef __SPU__

#ifndef _COSHD2_H_

#define _COSHD2_H_      1

#include <spu_intrinsics.h>

#include "expd2.h"

#include "recipd2.h"

/*

 * FUNCTION

 *      vector float _coshd2(vector double angle)

 *

 * DESCRIPTION

 *      _coshd2 computes the hyperbolic cosines of a vector of angles

 *      (expressed in radians) to an accuracy of a double precision

 *      floating point.

 */

static __inline vector double _coshd2(vector double x)

{

  // Coefficents for the power series

  vec_double2 f02 = spu_splats(5.00000000000000000000E-1);   // 1/(2!)

  vec_double2 f04 = spu_splats(4.16666666666666666667E-2);   // 1/(4!)

  vec_double2 f06 = spu_splats(1.38888888888888888889E-3);   // 1/(6!)

  vec_double2 f08 = spu_splats(2.48015873015873015873E-5);   // 1/(8!)

  vec_double2 f10 = spu_splats(2.75573192239858906526E-7);   // 1/(10!)

  vec_double2 f12 = spu_splats(2.08767569878680989792E-9);   // 1/(12!)

  vec_double2 f14 = spu_splats(1.14707455977297247139E-11);  // 1/(14!)

  vec_double2 f16 = spu_splats(4.77947733238738529744E-14);  // 1/(16!)

  vec_double2 f18 = spu_splats(1.56192069685862264622E-16);  // 1/(18!)

  vec_double2 f20 = spu_splats(4.11031762331216485848E-19);  // 1/(20!)

  vec_double2 f22 = spu_splats(8.89679139245057328675E-22);  // 1/(22!)

  //  Check if the input is within the range [ -1.0 ... 1.0 ]

  //  If it is, we want to use the power series, otherwise

  //  we want to use the 0.5 * (e^x + e^-x)

  // round to float, check if within range.  Results will be in 

  // slots 0 and 2, so we rotate right 4 bytes, and "or" with ourself

  // to produce 64 bits of all 1's or 0's.

  vec_uint4 use_exp = spu_cmpabsgt(spu_roundtf(x),spu_splats(1.0f));

  use_exp = spu_or(use_exp,spu_rlmaskqwbyte(use_exp,-4));

  // Perform the calculation of the power series using Horner's method

  vec_double2 result;

  vec_double2 x2 = spu_mul(x,x);

  result = spu_madd(x2,f22,f20);

  result = spu_madd(x2,result,f18);

  result = spu_madd(x2,result,f16);

  result = spu_madd(x2,result,f14);

  result = spu_madd(x2,result,f12);

  result = spu_madd(x2,result,f10);

  result = spu_madd(x2,result,f08);

  result = spu_madd(x2,result,f06);

  result = spu_madd(x2,result,f04);

  result = spu_madd(x2,result,f02);

  result = spu_madd(x2,result,spu_splats(1.0));

  //  Perform calculation as a function of 0.5 * (e^x + e^-x)

  vec_double2 ex = _expd2(x);

  vec_double2 ex_inv = _recipd2(ex);

  vec_double2 r2= spu_add(ex,ex_inv);

  r2 = spu_mul(r2,f02);  // we can reuse f02 here

  //  Select either the power series or exp version

  result = spu_sel(result,r2,(vec_ullong2)use_exp);

  return result;

}

#endif /* _COSHD2_H_ */

#endif /* __SPU__ */