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/*
Copyright (C) 1996, 1997 John W. Eaton
This file is part of Octave.
Octave is free software; you can redistribute it and/or modify it
under the terms of the GNU General Public License as published by the
Free Software Foundation; either version 2, or (at your option) any
later version.
Octave 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 General Public License
for more details.
You should have received a copy of the GNU General Public License
along with Octave; see the file COPYING. If not, write to the Free
Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
02110-1301, USA.
*/
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include <cfloat>
#include <cmath>
#if defined (HAVE_SUNMATH_H)
#include <sunmath.h>
#endif
#include "lo-error.h"
#include "lo-ieee.h"
#include "lo-mappers.h"
#include "lo-specfun.h"
#include "lo-utils.h"
#include "oct-cmplx.h"
#include "f77-fcn.h"
#ifndef M_LOG10E
#define M_LOG10E 0.43429448190325182765
#endif
// double -> double mappers.
double
arg (double x)
{
return atan2 (0.0, x);
}
double
conj (double x)
{
return x;
}
double
fix (double x)
{
return x > 0 ? floor (x) : ceil (x);
}
double
imag (double)
{
return 0.0;
}
double
real (double x)
{
return x;
}
double
xround (double x)
{
#if defined (HAVE_ROUND)
return round (x);
#else
return x > 0 ? floor (x + 0.5) : ceil (x - 0.5);
#endif
}
double
signum (double x)
{
double tmp = 0.0;
if (x < 0.0)
tmp = -1.0;
else if (x > 0.0)
tmp = 1.0;
return xisnan (x) ? octave_NaN : tmp;
}
// double -> bool mappers.
bool
xisnan (double x)
{
return lo_ieee_isnan (x);
}
bool
xfinite (double x)
{
return lo_ieee_finite (x);
}
bool
xisinf (double x)
{
return lo_ieee_isinf (x);
}
bool
octave_is_NA (double x)
{
return lo_ieee_is_NA (x);
}
bool
octave_is_NaN_or_NA (double x)
{
return lo_ieee_is_NaN_or_NA (x);
}
// (double, double) -> double mappers.
// XXX FIXME XXX -- need to handle NA too?
double
xmin (double x, double y)
{
if (x < y)
return x;
if (y <= x)
return y;
if (octave_is_NaN_or_NA (x) && ! octave_is_NaN_or_NA (y))
return y;
else if (octave_is_NaN_or_NA (y) && ! octave_is_NaN_or_NA (x))
return x;
else if (octave_is_NA (x) || octave_is_NA (y))
return octave_NA;
else
return octave_NaN;
}
double
xmax (double x, double y)
{
if (x > y)
return x;
if (y >= x)
return y;
if (octave_is_NaN_or_NA (x) && ! octave_is_NaN_or_NA (y))
return y;
else if (octave_is_NaN_or_NA (y) && ! octave_is_NaN_or_NA (x))
return x;
else if (octave_is_NA (x) || octave_is_NA (y))
return octave_NA;
else
return octave_NaN;
}
// complex -> complex mappers.
Complex
acos (const Complex& x)
{
static Complex i (0, 1);
return (real (x) * imag (x) < 0.0) ? i * acosh (x) : -i * acosh (x);
}
Complex
acosh (const Complex& x)
{
return log (x + sqrt (x*x - 1.0));
}
Complex
asin (const Complex& x)
{
static Complex i (0, 1);
return -i * log (i*x + sqrt (1.0 - x*x));
}
Complex
asinh (const Complex& x)
{
return log (x + sqrt (x*x + 1.0));
}
Complex
atan (const Complex& x)
{
static Complex i (0, 1);
return i * log ((i + x) / (i - x)) / 2.0;
}
Complex
atanh (const Complex& x)
{
return log ((1.0 + x) / (1.0 - x)) / 2.0;
}
#if !defined (CXX_ISO_COMPLIANT_LIBRARY)
Complex
log10 (const Complex& x)
{
return M_LOG10E * log (x);
}
Complex
tan (const Complex& x)
{
return sin (x) / cos (x);
}
Complex
tanh (const Complex& x)
{
return sinh (x) / cosh (x);
}
#endif
Complex
ceil (const Complex& x)
{
return Complex (ceil (real (x)), ceil (imag (x)));
}
Complex
fix (const Complex& x)
{
return Complex (fix (real (x)), fix (imag (x)));
}
Complex
floor (const Complex& x)
{
return Complex (floor (real (x)), floor (imag (x)));
}
Complex
xround (const Complex& x)
{
return Complex (xround (real (x)), xround (imag (x)));
}
Complex
signum (const Complex& x)
{
return x / abs (x);
}
// complex -> bool mappers.
bool
xisnan (const Complex& x)
{
return (xisnan (real (x)) || xisnan (imag (x)));
}
bool
xfinite (const Complex& x)
{
double rx = real (x);
double ix = imag (x);
return (xfinite (rx) && ! octave_is_NaN_or_NA (rx)
&& xfinite (ix) && ! octave_is_NaN_or_NA (ix));
}
bool
xisinf (const Complex& x)
{
return (xisinf (real (x)) || xisinf (imag (x)));
}
bool
octave_is_NA (const Complex& x)
{
return (octave_is_NA (real (x)) || octave_is_NA (imag (x)));
}
bool
octave_is_NaN_or_NA (const Complex& x)
{
return (octave_is_NaN_or_NA (real (x)) || octave_is_NaN_or_NA (imag (x)));
}
// (complex, complex) -> complex mappers.
// XXX FIXME XXX -- need to handle NA too?
Complex
xmin (const Complex& x, const Complex& y)
{
return abs (x) <= abs (y) ? x : (xisnan (x) ? x : y);
}
Complex
xmax (const Complex& x, const Complex& y)
{
return abs (x) >= abs (y) ? x : (xisnan (x) ? x : y);
}
/*
;;; Local Variables: ***
;;; mode: C++ ***
;;; End: ***
*/
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