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[/] [openrisc/] [trunk/] [gnu-old/] [gcc-4.2.2/] [gcc/] [config/] [m68k/] [math-68881.h] - Rev 856

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/******************************************************************\
*								   *
*  <math-68881.h>		last modified: 23 May 1992.	   *
*								   *
*  Copyright (C) 1989 by Matthew Self.				   *
*  You may freely distribute verbatim copies of this software	   *
*  provided that this copyright notice is retained in all copies.  *
*  You may distribute modifications to this software under the     *
*  conditions above if you also clearly note such modifications    *
*  with their author and date.			   	     	   *
*								   *
*  Note:  errno is not set to EDOM when domain errors occur for    *
*  most of these functions.  Rather, it is assumed that the	   *
*  68881's OPERR exception will be enabled and handled		   *
*  appropriately by the	operating system.  Similarly, overflow	   *
*  and underflow do not set errno to ERANGE.			   *
*								   *
*  Send bugs to Matthew Self (self@bayes.arc.nasa.gov).		   *
*								   *
\******************************************************************/
 
/* This file is NOT a part of GCC, just distributed with it.  */
 
/* If you find this in GCC,
   please send bug reports to bug-gcc@prep.ai.mit.edu.  */
 
/* Changed by Richard Stallman:
   May 1993, add conditional to prevent multiple inclusion.
   % inserted before a #.
   New function `hypot' added.
   Nans written in hex to avoid 0rnan.
   May 1992, use %! for fpcr register.  Break lines before function names.
   December 1989, add parens around `&' in pow.
   November 1990, added alternate definition of HUGE_VAL for Sun.  */
 
/* Changed by Jim Wilson:
   September 1993, Use #undef before HUGE_VAL instead of #ifdef/#endif.  */
 
/* Changed by Ian Lance Taylor:
   September 1994, use extern inline instead of static inline.  */
 
#ifndef __math_68881
#define __math_68881
 
#include <errno.h>
 
#undef HUGE_VAL
#ifdef __sun__
/* The Sun assembler fails to handle the hex constant in the usual defn.  */
#define HUGE_VAL							\
({									\
  static union { int i[2]; double d; } u = { {0x7ff00000, 0} };		\
  u.d;									\
})
#else
#define HUGE_VAL							\
({									\
  double huge_val;							\
									\
  __asm ("fmove%.d #0x7ff0000000000000,%0"	/* Infinity */		\
	 : "=f" (huge_val)						\
	 : /* no inputs */);						\
  huge_val;								\
})
#endif
 
__inline extern double
sin (double x)
{
  double value;
 
  __asm ("fsin%.x %1,%0"
	 : "=f" (value)
	 : "f" (x));
  return value;
}
 
__inline extern double
cos (double x)
{
  double value;
 
  __asm ("fcos%.x %1,%0"
	 : "=f" (value)
	 : "f" (x));
  return value;
}
 
__inline extern double
tan (double x)
{
  double value;
 
  __asm ("ftan%.x %1,%0"
	 : "=f" (value)
	 : "f" (x));
  return value;
}
 
__inline extern double
asin (double x)
{
  double value;
 
  __asm ("fasin%.x %1,%0"
	 : "=f" (value)
	 : "f" (x));
  return value;
}
 
__inline extern double
acos (double x)
{
  double value;
 
  __asm ("facos%.x %1,%0"
	 : "=f" (value)
	 : "f" (x));
  return value;
}
 
__inline extern double
atan (double x)
{
  double value;
 
  __asm ("fatan%.x %1,%0"
	 : "=f" (value)
	 : "f" (x));
  return value;
}
 
__inline extern double
atan2 (double y, double x)
{
  double pi, pi_over_2;
 
  __asm ("fmovecr%.x #0,%0"		/* extended precision pi */
	 : "=f" (pi)
	 : /* no inputs */ );
  __asm ("fscale%.b #-1,%0"		/* no loss of accuracy */
	 : "=f" (pi_over_2)
	 : "0" (pi));
  if (x > 0)
    {
      if (y > 0)
	{
	  if (x > y)
	    return atan (y / x);
	  else
	    return pi_over_2 - atan (x / y);
	}
      else
	{
	  if (x > -y)
	    return atan (y / x);
	  else
	    return - pi_over_2 - atan (x / y);
	}
    }
  else
    {
      if (y < 0)
	{
	  if (-x > -y)
	    return - pi + atan (y / x);
	  else
	    return - pi_over_2 - atan (x / y);
	}
      else
	{
	  if (-x > y)
	    return pi + atan (y / x);
	  else if (y > 0)
	    return pi_over_2 - atan (x / y);
	  else
	    {
	      double value;
 
	      errno = EDOM;
	      __asm ("fmove%.d #0x7fffffffffffffff,%0"	/* quiet NaN */
		     : "=f" (value)
		     : /* no inputs */);
	      return value;
	    }
	}
    }
}
 
__inline extern double
sinh (double x)
{
  double value;
 
  __asm ("fsinh%.x %1,%0"
	 : "=f" (value)
	 : "f" (x));
  return value;
}
 
__inline extern double
cosh (double x)
{
  double value;
 
  __asm ("fcosh%.x %1,%0"
	 : "=f" (value)
	 : "f" (x));
  return value;
}
 
__inline extern double
tanh (double x)
{
  double value;
 
  __asm ("ftanh%.x %1,%0"
	 : "=f" (value)
	 : "f" (x));
  return value;
}
 
__inline extern double
atanh (double x)
{
  double value;
 
  __asm ("fatanh%.x %1,%0"
	 : "=f" (value)
	 : "f" (x));
  return value;
}
 
__inline extern double
exp (double x)
{
  double value;
 
  __asm ("fetox%.x %1,%0"
	 : "=f" (value)
	 : "f" (x));
  return value;
}
 
__inline extern double
expm1 (double x)
{
  double value;
 
  __asm ("fetoxm1%.x %1,%0"
	 : "=f" (value)
	 : "f" (x));
  return value;
}
 
__inline extern double
log (double x)
{
  double value;
 
  __asm ("flogn%.x %1,%0"
	 : "=f" (value)
	 : "f" (x));
  return value;
}
 
__inline extern double
log1p (double x)
{
  double value;
 
  __asm ("flognp1%.x %1,%0"
	 : "=f" (value)
	 : "f" (x));
  return value;
}
 
__inline extern double
log10 (double x)
{
  double value;
 
  __asm ("flog10%.x %1,%0"
	 : "=f" (value)
	 : "f" (x));
  return value;
}
 
__inline extern double
sqrt (double x)
{
  double value;
 
  __asm ("fsqrt%.x %1,%0"
	 : "=f" (value)
	 : "f" (x));
  return value;
}
 
__inline extern double
hypot (double x, double y)
{
  return sqrt (x*x + y*y);
}
 
__inline extern double
pow (double x, double y)
{
  if (x > 0)
    return exp (y * log (x));
  else if (x == 0)
    {
      if (y > 0)
	return 0.0;
      else
	{
	  double value;
 
	  errno = EDOM;
	  __asm ("fmove%.d #0x7fffffffffffffff,%0"		/* quiet NaN */
		 : "=f" (value)
		 : /* no inputs */);
	  return value;
	}
    }
  else
    {
      double temp;
 
      __asm ("fintrz%.x %1,%0"
	     : "=f" (temp)			/* integer-valued float */
	     : "f" (y));
      if (y == temp)
        {
	  int i = (int) y;
 
	  if ((i & 1) == 0)			/* even */
	    return exp (y * log (-x));
	  else
	    return - exp (y * log (-x));
        }
      else
        {
	  double value;
 
	  errno = EDOM;
	  __asm ("fmove%.d #0x7fffffffffffffff,%0"		/* quiet NaN */
		 : "=f" (value)
		 : /* no inputs */);
	  return value;
        }
    }
}
 
__inline extern double
fabs (double x)
{
  double value;
 
  __asm ("fabs%.x %1,%0"
	 : "=f" (value)
	 : "f" (x));
  return value;
}
 
__inline extern double
ceil (double x)
{
  int rounding_mode, round_up;
  double value;
 
  __asm volatile ("fmove%.l %!,%0"
		  : "=dm" (rounding_mode)
		  : /* no inputs */ );
  round_up = rounding_mode | 0x30;
  __asm volatile ("fmove%.l %0,%!"
		  : /* no outputs */
		  : "dmi" (round_up));
  __asm volatile ("fint%.x %1,%0"
		  : "=f" (value)
		  : "f" (x));
  __asm volatile ("fmove%.l %0,%!"
		  : /* no outputs */
		  : "dmi" (rounding_mode));
  return value;
}
 
__inline extern double
floor (double x)
{
  int rounding_mode, round_down;
  double value;
 
  __asm volatile ("fmove%.l %!,%0"
		  : "=dm" (rounding_mode)
		  : /* no inputs */ );
  round_down = (rounding_mode & ~0x10)
		| 0x20;
  __asm volatile ("fmove%.l %0,%!"
		  : /* no outputs */
		  : "dmi" (round_down));
  __asm volatile ("fint%.x %1,%0"
		  : "=f" (value)
		  : "f" (x));
  __asm volatile ("fmove%.l %0,%!"
		  : /* no outputs */
		  : "dmi" (rounding_mode));
  return value;
}
 
__inline extern double
rint (double x)
{
  int rounding_mode, round_nearest;
  double value;
 
  __asm volatile ("fmove%.l %!,%0"
		  : "=dm" (rounding_mode)
		  : /* no inputs */ );
  round_nearest = rounding_mode & ~0x30;
  __asm volatile ("fmove%.l %0,%!"
		  : /* no outputs */
		  : "dmi" (round_nearest));
  __asm volatile ("fint%.x %1,%0"
		  : "=f" (value)
		  : "f" (x));
  __asm volatile ("fmove%.l %0,%!"
		  : /* no outputs */
		  : "dmi" (rounding_mode));
  return value;
}
 
__inline extern double
fmod (double x, double y)
{
  double value;
 
  __asm ("fmod%.x %2,%0"
	 : "=f" (value)
	 : "0" (x),
	   "f" (y));
  return value;
}
 
__inline extern double
drem (double x, double y)
{
  double value;
 
  __asm ("frem%.x %2,%0"
	 : "=f" (value)
	 : "0" (x),
	   "f" (y));
  return value;
}
 
__inline extern double
scalb (double x, int n)
{
  double value;
 
  __asm ("fscale%.l %2,%0"
	 : "=f" (value)
	 : "0" (x),
	   "dmi" (n));
  return value;
}
 
__inline extern double
logb (double x)
{
  double exponent;
 
  __asm ("fgetexp%.x %1,%0"
	 : "=f" (exponent)
	 : "f" (x));
  return exponent;
}
 
__inline extern double
ldexp (double x, int n)
{
  double value;
 
  __asm ("fscale%.l %2,%0"
	 : "=f" (value)
	 : "0" (x),
	   "dmi" (n));
  return value;
}
 
__inline extern double
frexp (double x, int *exp)
{
  double float_exponent;
  int int_exponent;
  double mantissa;
 
  __asm ("fgetexp%.x %1,%0"
	 : "=f" (float_exponent)	/* integer-valued float */
	 : "f" (x));
  int_exponent = (int) float_exponent;
  __asm ("fgetman%.x %1,%0"
	 : "=f" (mantissa)		/* 1.0 <= mantissa < 2.0 */
	 : "f" (x));
  if (mantissa != 0)
    {
      __asm ("fscale%.b #-1,%0"
	     : "=f" (mantissa)		/* mantissa /= 2.0 */
	     : "0" (mantissa));
      int_exponent += 1;
    }
  *exp = int_exponent;
  return mantissa;
}
 
__inline extern double
modf (double x, double *ip)
{
  double temp;
 
  __asm ("fintrz%.x %1,%0"
	 : "=f" (temp)			/* integer-valued float */
	 : "f" (x));
  *ip = temp;
  return x - temp;
}
 
#endif /* not __math_68881 */
 

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