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[/] [openrisc/] [trunk/] [gnu-src/] [newlib-1.18.0/] [newlib/] [libm/] [mathfp/] [s_atangent.c] - Blame information for rev 301

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Line No. Rev Author Line
1 207 jeremybenn
 
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/* @(#)z_atangent.c 1.0 98/08/13 */
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/******************************************************************
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 * The following routines are coded directly from the algorithms
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 * and coefficients given in "Software Manual for the Elementary
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 * Functions" by William J. Cody, Jr. and William Waite, Prentice
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 * Hall, 1980.
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 ******************************************************************/
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/*
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FUNCTION
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        <<atan>>, <<atanf>>, <<atan2>>, <<atan2f>>, <<atangent>>, <<atangentf>>---arc tangent
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INDEX
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   atan2
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INDEX
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   atan2f
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INDEX
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   atan
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INDEX
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   atanf
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ANSI_SYNOPSIS
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        #include <math.h>
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        double atan(double <[x]>);
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        float atan(float <[x]>);
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        double atan2(double <[y]>,double <[x]>);
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        float atan2f(float <[y]>,float <[x]>);
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TRAD_SYNOPSIS
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        #include <math.h>
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        double atan2(<[y]>,<[x]>);
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        double <[y]>;
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        double <[x]>;
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        float atan2f(<[y]>,<[x]>);
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        float <[y]>;
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        float <[x]>;
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        #include <math.h>
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        double atan(<[x]>);
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        double <[x]>;
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        float atanf(<[x]>);
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        float <[x]>;
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DESCRIPTION
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<<atan2>> computes the inverse tangent (arc tangent) of y / x.
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<<atan2f>> is identical to <<atan2>>, save that it operates on <<floats>>.
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<<atan>> computes the inverse tangent (arc tangent) of the input value.
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<<atanf>> is identical to <<atan>>, save that it operates on <<floats>>.
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RETURNS
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@ifnottex
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<<atan>> returns a value in radians, in the range of -pi/2 to pi/2.
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<<atan2>> returns a value in radians, in the range of -pi/2 to pi/2.
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@end ifnottex
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@tex
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<<atan>> returns a value in radians, in the range of $-\pi/2$ to $\pi/2$.
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<<atan2>> returns a value in radians, in the range of $-\pi/2$ to $\pi/2$.
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@end tex
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PORTABILITY
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<<atan>> is ANSI C.  <<atanf>> is an extension.
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<<atan2>> is ANSI C.  <<atan2f>> is an extension.
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*/
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/******************************************************************
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 * Arctangent
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 *
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 * Input:
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 *   x - floating point value
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 *
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 * Output:
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 *   arctangent of x
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 *
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 * Description:
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 *   This routine calculates arctangents.
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 *
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 *****************************************************************/
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#include <float.h>
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#include "fdlibm.h"
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#include "zmath.h"
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#ifndef _DOUBLE_IS_32BITS
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static const double ROOT3 = 1.73205080756887729353;
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static const double a[] = { 0.0, 0.52359877559829887308, 1.57079632679489661923,
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                     1.04719755119659774615 };
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static const double q[] = { 0.41066306682575781263e+2,
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                     0.86157349597130242515e+2,
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                     0.59578436142597344465e+2,
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                     0.15024001160028576121e+2 };
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static const double p[] = { -0.13688768894191926929e+2,
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                     -0.20505855195861651981e+2,
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                     -0.84946240351320683534e+1,
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                     -0.83758299368150059274 };
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double
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_DEFUN (atangent, (double, double, double, int),
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        double x _AND
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        double v _AND
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        double u _AND
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        int arctan2)
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{
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  double f, g, R, P, Q, A, res;
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  int N;
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  int branch = 0;
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  int expv, expu;
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  /* Preparation for calculating arctan2. */
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  if (arctan2)
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    {
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      if (u == 0.0)
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        if (v == 0.0)
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          {
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            errno = ERANGE;
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            return (z_notanum.d);
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          }
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        else
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          {
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            branch = 1;
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            res = __PI_OVER_TWO;
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          }
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      if (!branch)
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        {
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          int e;
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          /* Get the exponent values of the inputs. */
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          g = frexp (v, &expv);
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          g = frexp (u, &expu);
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          /* See if a divide will overflow. */
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          e = expv - expu;
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          if (e > DBL_MAX_EXP)
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            {
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               branch = 1;
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               res = __PI_OVER_TWO;
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            }
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          /* Also check for underflow. */
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          else if (e < DBL_MIN_EXP)
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            {
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               branch = 2;
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               res = 0.0;
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            }
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         }
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    }
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  if (!branch)
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    {
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      if (arctan2)
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        f = fabs (v / u);
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      else
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        f = fabs (x);
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      if (f > 1.0)
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        {
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          f = 1.0 / f;
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          N = 2;
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        }
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      else
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        N = 0;
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      if (f > (2.0 - ROOT3))
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        {
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          A = ROOT3 - 1.0;
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          f = (((A * f - 0.5) - 0.5) + f) / (ROOT3 + f);
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          N++;
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        }
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      /* Check for values that are too small. */
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      if (-z_rooteps < f && f < z_rooteps)
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        res = f;
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      /* Calculate the Taylor series. */
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      else
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        {
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          g = f * f;
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          P = (((p[3] * g + p[2]) * g + p[1]) * g + p[0]) * g;
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          Q = (((g + q[3]) * g + q[2]) * g + q[1]) * g + q[0];
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          R = P / Q;
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          res = f + f * R;
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        }
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      if (N > 1)
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        res = -res;
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      res += a[N];
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    }
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  if (arctan2)
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    {
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      if (u < 0.0)
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        res = __PI - res;
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      if (v < 0.0)
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        res = -res;
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    }
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  else if (x < 0.0)
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    {
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      res = -res;
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    }
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  return (res);
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}
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#endif /* _DOUBLE_IS_32BITS */

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