gcc/libstdc++-v3/include/c_std/bits/std_cmath.h

// -*- C++ -*- C math library.

// Copyright (C) 1997, 1998, 1999, 2000, 2001 Free Software Foundation, Inc.
//
// This file is part of the GNU ISO C++ Library.  This library 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.

// This library 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 this library; see the file COPYING.  If not, write to the Free
// Software Foundation, 59 Temple Place - Suite 330, Boston, MA 02111-1307,
// USA.

// As a special exception, you may use this file as part of a free software
// library without restriction.  Specifically, if other files instantiate
// templates or use macros or inline functions from this file, or you compile
// this file and link it with other files to produce an executable, this
// file does not by itself cause the resulting executable to be covered by
// the GNU General Public License.  This exception does not however
// invalidate any other reasons why the executable file might be covered by
// the GNU General Public License.

//
// ISO C++ 14882: 26.5  C library
//

// Note: This is not a conforming implementation.

#ifndef _CPP_CMATH
#define _CPP_CMATH 1

#include <bits/c++config.h>
#include <bits/std_cstdlib.h>
 
#pragma GCC system_header
#include <math.h>

// Get rid of those macros defined in <math.h> in lieu of real functions.
#undef abs
#undef div
#undef acos
#undef asin
#undef atan
#undef atan2
#undef ceil
#undef cos
#undef cosh
#undef exp
#undef fabs
#undef floor
#undef fmod
#undef frexp
#undef ldexp
#undef log
#undef log10
#undef modf
#undef pow
#undef sin
#undef sinh
#undef tan
#undef tanh

namespace std 
{
  // Forward declaration of a helper function.  This really should be
  // an `exported' forward declaration.
  template<typename _Tp> _Tp __cmath_power(_Tp, unsigned int);

  template<typename _Tp>
  inline _Tp
    __cmath_abs(_Tp __x)
    {
      return __x < _Tp() ? -__x : __x;
    }

#if _GLIBCPP_HAVE___BUILTIN_FABSF
  inline float 
  abs(float __x) { return __builtin_fabsf(__x); }
#elif _GLIBCPP_HAVE_FABSF
  inline float 
  abs(float __x) { return ::fabsf(__x); }
#else
  inline float 
  abs(float __x) { return __cmath_abs(__x); }
#endif

#if _GLIBCPP_HAVE_ACOSF
  inline float 
  acos(float __x) { return ::acosf(__x); }
#else
  inline float 
  acos(float __x) { return ::acos(static_cast<double>(__x)); }
#endif

#if _GLIBCPP_HAVE_ASINF
  inline float 
  asin(float __x) { return ::asinf(__x); }
#else
  inline float 
  asin(float __x) { return ::asin(static_cast<double>(__x)); }
#endif

#if _GLIBCPP_HAVE_ATANF
  inline float 
  atan(float __x) { return ::atanf(__x); }
#else
  inline float 
  atan(float __x) { return ::atan(static_cast<double>(__x)); }
#endif

#if _GLIBCPP_HAVE_ATAN2F
  inline float 
  atan2(float __y, float __x) { return ::atan2f(__y, __x); }
#else
  inline float 
  atan2(float __y, float __x)
  { return ::atan2(static_cast<double>(__y), static_cast<double>(__x)); }
#endif

#if _GLIBCPP_HAVE_CEILF
  inline float 
  ceil(float __x) { return ::ceilf(__x); }
#else
  inline float 
  ceil(float __x) { return ::ceil(static_cast<double>(__x)); }
#endif

#if _GLIBCPP_HAVE___BUILTIN_COSF
  inline float 
  cos(float __x) { return __builtin_cosf(__x); }
#elif _GLIBCPP_HAVE_COSF
  inline float 
  cos(float __x) { return ::cosf(__x); }
#else
  inline float 
  cos(float __x) { return ::cos(static_cast<double>(__x)); }
#endif

#if _GLIBCPP_HAVE_COSHF
  inline float 
  cosh(float __x) { return ::coshf(__x); }
#else
  inline float 
  cosh(float __x) { return ::cosh(static_cast<double>(__x)); }
#endif

#if _GLIBCPP_HAVE_EXPF
  inline float 
  exp(float __x) { return ::expf(__x); }
#else
  inline float 
  exp(float __x) { return ::exp(static_cast<double>(__x)); }
#endif

#if _GLIBCPP_HAVE___BUILTIN_FABSF
  inline float 
  fabs(float __x) { return __builtin_fabsf(__x); }
#elif _GLIBCPP_HAVE_FABSF
  inline float 
  fabs(float __x) { return ::fabsf(__x); }
#else
  inline float 
  fabs(float __x) { return __cmath_abs(__x); }
#endif

#if _GLIBCPP_HAVE_FLOORF
  inline float 
  floor(float __x) { return ::floorf(__x); }
#else
  inline float 
  floor(float __x) { return ::floor(static_cast<double>(__x)); }
#endif

#if _GLIBCPP_HAVE_FMODF
  inline float 
  fmod(float __x, float __y) { return ::fmodf(__x, __y); }
#else
  inline float 
  fmod(float __x, float __y)
  { return ::fmod(static_cast<double>(__x), static_cast<double>(__y)); }
#endif

#if _GLIBCPP_HAVE_FREXPF
  inline float 
  frexp(float __x, int* __exp) { return ::frexpf(__x, __exp); }
#else
  inline float 
  frexp(float __x, int* __exp) { return ::frexp(__x, __exp); }
#endif

#if _GLIBCPP_HAVE_LDEXPF
  inline float 
  ldexp(float __x, int __exp) { return ::ldexpf(__x, __exp); }
#else
  inline float 
  ldexp(float __x, int __exp)
  { return ::ldexp(static_cast<double>(__x), __exp); }
#endif

#if _GLIBCPP_HAVE_LOGF
  inline float 
  log(float __x) { return ::logf(__x); }
#else
  inline float log(float __x)
  { return ::log(static_cast<double>(__x)); }
#endif

#if _GLIBCPP_HAVE_LOG10F
  inline float 
  log10(float __x) { return ::log10f(__x); }
#else
  inline float 
  log10(float __x) { return ::log10(static_cast<double>(__x)); }
#endif

#if _GLIBCPP_HAVE_MODFF
  inline float 
  modf(float __x, float* __iptr) { return ::modff(__x, __iptr); }
#else
  inline float 
  modf(float __x, float* __iptr)
  {
    double __tmp;
    double __res = ::modf(static_cast<double>(__x), &__tmp);
    *__iptr = static_cast<float>(__tmp);
    return __res;
  }
#endif

  template<typename _Tp>
    inline _Tp
    __pow_helper(_Tp __x, int __n)
    {
      return __n < 0
        ? _Tp(1)/__cmath_power(__x, -__n)
        : __cmath_power(__x, __n);
    }
  
#if _GLIBCPP_HAVE_POWF
  inline float 
  pow(float __x, float __y) { return ::powf(__x, __y); }
#else
  inline float 
  pow(float __x, float __y)
  { return ::pow(static_cast<double>(__x), static_cast<double>(__y)); }
#endif

  inline float 
  pow(float __x, int __n)
  {
    return __pow_helper(__x, __n);
  }

#if _GLIBCPP_HAVE___BUILTIN_SINF
  inline float 
  sin(float __x) { return __builtin_sinf(__x); }
#elif _GLIBCPP_HAVE_SINF
  inline float 
  sin(float __x) { return ::sinf(__x); }
#else
  inline float 
  sin(float __x) { return ::sin(static_cast<double>(__x)); }
#endif

#if _GLIBCPP_HAVE_SINHF
  inline float 
  sinh(float __x) { return ::sinhf(__x); }
#else
  inline float 
  sinh(float __x) { return ::sinh(static_cast<double>(__x)); }
#endif

#if _GLIBCPP_HAVE___BUILTIN_SQRTF
  inline float 
  sqrt(float __x) { return __builtin_sqrtf(__x); }
#elif _GLIBCPP_HAVE_SQRTF
  inline float 
  sqrt(float __x) { return ::sqrtf(__x); }
#else
  inline float 
  sqrt(float __x) { return ::sqrt(static_cast<double>(__x)); }
#endif

#if _GLIBCPP_HAVE_TANF
  inline float 
  tan(float __x) { return ::tanf(__x); }
#else
  inline float 
  tan(float __x) { return ::tan(static_cast<double>(__x)); }
#endif

#if _GLIBCPP_HAVE_TANHF
  inline float 
  tanh(float __x) { return ::tanhf(__x); }
#else
  inline float 
  tanh(float __x) { return ::tanh(static_cast<double>(__x)); }
#endif


  extern "C" double acos(double __x);

  extern "C" double asin(double __x);

  extern "C" double atan(double __x);

  extern "C" double atan2(double __y, double __x);

  extern "C" double ceil(double __x);

#if _GLIBCPP_HAVE___BUILTIN_COS
  inline double 
  cos(double __x) { return __builtin_cos(__x); }
#else
  extern "C" double cos(double __x);
#endif

  extern "C" double cosh(double __x);

  extern "C" double exp(double __x);

#if _GLIBCPP_HAVE___BUILTIN_FABS
  inline double 
  fabs(double __x) { return __builtin_fabs(__x); }
#else
  extern "C" double fabs(double __x);
#endif

#if _GLIBCPP_HAVE___BUILTIN_FABS
  inline double 
  abs(double __x) { return __builtin_fabs(__x); }
#else
  inline double
  abs(double __x) { return fabs(__x); }
#endif

  extern "C" double floor(double __x);

  extern "C" double fmod(double __x, double __y);

  extern "C" double frexp(double __x, int* __exp);

  extern "C" double ldexp(double __x, int __exp);

  extern "C" double log(double __x);

  extern "C" double log10(double __x);

  extern "C" double modf(double __x, double* __iptr);

  extern "C" double pow(double __x, double __y);

  inline double 
  pow(double __x, int __i)
  {
    return __pow_helper(__x, __i);
  }

#if _GLIBCPP_HAVE___BUILTIN_SIN
  inline double 
  sin(double __x) { return __builtin_sin(__x); }
#else
  extern "C" double sin(double __x);
#endif

  extern "C" double sinh(double __x);

#if _GLIBCPP_HAVE___BUILTIN_SQRT
  inline double 
  sqrt(double __x) { return __builtin_fsqrt(__x); }
#else
  extern "C" double sqrt(double __x);
#endif

  extern "C" double tan(double __x);

  extern "C" double tanh(double __x);


#if _GLIBCPP_HAVE___BUILTIN_FABSL
  inline long double 
  abs(long double __x) { return __builtin_fabsl(__x); }
#elif _GLIBCPP_HAVE_FABSL
  inline long double 
  abs(long double __x) { return ::fabsl(__x); }
#else
  inline long double 
  abs(long double __x) { return __cmath_abs(__x); }
#endif

#if _GLIBCPP_HAVE_ACOSL
  inline long double 
  acos(long double __x) { return ::acosl(__x); }
#else
  inline long double 
  acos(long double __x) { return ::acos(static_cast<double>(__x)); }
#endif

#if _GLIBCPP_HAVE_ASINL
  inline long double 
  asin(long double __x) { return ::asinl(__x); }
#else
  inline long double 
  asin(long double __x) { return ::asin(static_cast<double>(__x)); }
#endif

#if _GLIBCPP_HAVE_ATANL
  inline long double 
  atan(long double __x) { return ::atanl(__x); }
#else
  inline long double 
  atan(long double __x) { return ::atan(static_cast<double>(__x)); }
#endif

#if _GLIBCPP_HAVE_ATAN2L
  inline long double 
  atan2(long double __y, long double __x) { return ::atan2l(__y, __x); }
#else
  inline long double 
  atan2(long double __y, long double __x) 
  { return ::atan2(static_cast<double>(__y), static_cast<double>(__x)); }
#endif

#if _GLIBCPP_HAVE_CEILL
  inline long double 
  ceil(long double __x) { return ::ceill(__x); }
#else
  inline long double 
  ceil(long double __x) { return ::ceil(static_cast<double>(__x)); }
#endif

#if _GLIBCPP_HAVE___BUILTIN_COSL
  inline long double 
  cos(long double __x) { return __builtin_cosl(__x); }
#elif _GLIBCPP_HAVE_COSL
  inline long double 
  cos(long double __x) { return ::cosl(__x); }
#else
  inline long double 
  cos(long double __x) { return ::cos(static_cast<double>(__x)); }
#endif

#if _GLIBCPP_HAVE_COSHL
  inline long double 
  cosh(long double __x) { return ::coshl(__x); }
#else
  inline long double 
  cosh(long double __x) { return ::cosh(static_cast<double>(__x)); }
#endif

#if _GLIBCPP_HAVE_EXPL
  inline long double 
  exp(long double __x) { return ::expl(__x); }
#else
  inline long double 
  exp(long double __x) { return ::exp(static_cast<double>(__x)); }
#endif

#if _GLIBCPP_HAVE___BUILTIN_FABSL
  inline long double 
  fabs(long double __x) { return __builtin_fabsl(__x); }
#elif _GLIBCPP_HAVE_FABSL
  inline long double 
  fabs(long double __x) { return ::fabsl(__x); }
#else
  inline long double 
  fabs(long double __x) { return __cmath_abs(__x); }
#endif

#if _GLIBCPP_HAVE_FLOORL
  inline long double 
  floor(long double __x) { return ::floorl(__x); }
#else
  inline long double 
  floor(long double __x) { return ::floor(static_cast<double>(__x)); }
#endif

#if _GLIBCPP_HAVE_FMODL
  inline long double 
  fmod(long double __x, long double __y) { return ::fmodl(__x, __y); }
#else
  inline long double 
  fmod(long double __x, long double __y) 
  { return ::fmod(static_cast<double>(__x), static_cast<double>(__y)); }
#endif

#if _GLIBCPP_HAVE_FREXPL
  inline long double 
  frexp(long double __x, int* __exp) { return ::frexpl(__x, __exp); }
#else
  inline long double 
  frexp(long double __x, int* __exp) 
  { return ::frexp(static_cast<double>(__x), __exp); }
#endif

#if _GLIBCPP_HAVE_LDEXPL
  inline long double 
  ldexp(long double __x, int __exp) { return ::ldexpl(__x, __exp); }
#else
  inline long double 
  ldexp(long double __x, int __exp) 
  { return ::ldexp(static_cast<double>(__x), __exp); }
#endif

#if _GLIBCPP_HAVE_LOGL
  inline long double 
  log(long double __x) { return ::logl(__x); }
#else
  inline long double 
  log(long double __x) { return ::log(static_cast<double>(__x)); }
#endif

#if _GLIBCPP_HAVE_LOG10L
  inline long double 
  log10(long double __x) { return ::log10l(__x); }
#else
  inline long double 
  log10(long double __x) { return ::log10(static_cast<double>(__x)); }
#endif

#if _GLIBCPP_HAVE_MODFL
  inline long double 
  modf(long double __x, long double* __iptr) { return ::modfl(__x, __iptr); }
#else
  inline long double 
  modf(long double __x, long double* __iptr) 
  { 
    double __tmp;
    double __res = ::modf(static_cast<double>(__x), &__tmp);
    * __iptr = static_cast<long double>(__tmp);
    return __res;
  }
#endif

#if _GLIBCPP_HAVE_POWL
  inline long double 
  pow(long double __x, long double __y) { return ::powl(__x, __y); }
#else
  inline long double 
  pow(long double __x, long double __y) 
  { return ::pow(static_cast<double>(__x), static_cast<double>(__y)); }
#endif

  inline long double 
  pow(long double __x, int __n)
  {
    return __pow_helper(__x, __n);
  }

#if _GLIBCPP_HAVE___BUILTIN_SINL
  inline long double 
  sin(long double __x) { return __builtin_sinl(__x); }
#elif _GLIBCPP_HAVE_SINL
  inline long double 
  sin(long double __x) { return ::sinl(__x); }
#else
  inline long double 
  sin(long double __x) { return ::sin(static_cast<double>(__x)); }
#endif

#if _GLIBCPP_HAVE_SINHL
  inline long double 
  sinh(long double __x) { return ::sinhl(__x); }
#else
  inline long double 
  sinh(long double __x) { return ::sinh(static_cast<double>(__x)); }
#endif

#if _GLIBCPP_HAVE___BUILTIN_SQRTL
  inline long double 
  sqrt(long double __x) { return __builtin_sqrtl(__x); }
#elif _GLIBCPP_HAVE_SQRTL
  inline long double 
  sqrt(long double __x) { return ::sqrtl(__x); }
#else
  inline long double 
  sqrt(long double __x) { return ::sqrt(static_cast<double>(__x)); }
#endif

#if _GLIBCPP_HAVE_TANL
  inline long double 
  tan(long double __x) { return ::tanl(__x); }
#else
  inline long double 
  tan(long double __x) { return ::tan(static_cast<double>(__x)); }
#endif

#if _GLIBCPP_HAVE_TANHL
  inline long double 
  tanh(long double __x) { return ::tanhl(__x); }
#else
  inline long double 
  tanh(long double __x) { return ::tanh(static_cast<double>(__x)); }
#endif
} // std

#ifdef _GLIBCPP_NO_TEMPLATE_EXPORT
#  define export
#  include <bits/cmath.tcc>
#endif

#endif