WindowsXP-SP1/base/crts/crtw32/stdhpp/limits
2020-09-30 16:53:49 +02:00

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// limits standard header
#pragma once
#ifndef _LIMITS_
#define _LIMITS_
#include <ymath.h>
#include <cfloat>
#include <climits>
#include <cmath>
#include <cwchar>
#include <xstddef>
#pragma pack(push,8)
#pragma warning(push,3)
_STD_BEGIN
// ASSUMES:
// wraparound 2's complement integer arithmetic w/o traps
// all CHAR_BITs of each byte used by integers
// IEC559 (IEEE 754) floating-point arithmetic
// floating-point errors can trap
// tinyness detected before floating-point rounding
// 64-bit long long (if _LONGLONG defined)
// ENUM float_denorm_style
typedef enum
{ // constants for different IEEE float denormalization styles
denorm_indeterminate = -1,
denorm_absent = 0,
denorm_present = 1}
float_denorm_style;
// ENUM float_round_style
typedef enum
{ // constants for different IEEE rounding styles
round_indeterminate = -1,
round_toward_zero = 0,
round_to_nearest = 1,
round_toward_infinity = 2,
round_toward_neg_infinity = 3}
float_round_style;
// STRUCT _Num_base
struct _CRTIMP2 _Num_base
{ // base for all types, with common defaults
_STCONS(float_denorm_style, has_denorm, denorm_absent);
_STCONS(bool, has_denorm_loss, false);
_STCONS(bool, has_infinity, false);
_STCONS(bool, has_quiet_NaN, false);
_STCONS(bool, has_signaling_NaN, false);
_STCONS(bool, is_bounded, false);
_STCONS(bool, is_exact, false);
_STCONS(bool, is_iec559, false);
_STCONS(bool, is_integer, false);
_STCONS(bool, is_modulo, false);
_STCONS(bool, is_signed, false);
_STCONS(bool, is_specialized, false);
_STCONS(bool, tinyness_before, false);
_STCONS(bool, traps, false);
_STCONS(float_round_style, round_style, round_toward_zero);
_STCONS(int, digits, 0);
_STCONS(int, digits10, 0);
_STCONS(int, max_exponent, 0);
_STCONS(int, max_exponent10, 0);
_STCONS(int, min_exponent, 0);
_STCONS(int, min_exponent10, 0);
_STCONS(int, radix, 0);
};
// TEMPLATE CLASS numeric_limits
template<class _Ty>
class numeric_limits
: public _Num_base
{ // numeric limits for arbitrary type _Ty (say little or nothing)
public:
static _Ty (__cdecl min)() _THROW0()
{ // return minimum value
return (_Ty(0));
}
static _Ty (__cdecl max)() _THROW0()
{ // return maximum value
return (_Ty(0));
}
static _Ty __cdecl epsilon() _THROW0()
{ // return smallest effective increment from 1.0
return (_Ty(0));
}
static _Ty __cdecl round_error() _THROW0()
{ // return largest rounding error
return (_Ty(0));
}
static _Ty __cdecl denorm_min() _THROW0()
{ // return minimum denormalized value
return (_Ty(0));
}
static _Ty __cdecl infinity() _THROW0()
{ // return positive infinity
return (_Ty(0));
}
static _Ty __cdecl quiet_NaN() _THROW0()
{ // return non-signaling NaN
return (_Ty(0));
}
static _Ty __cdecl signaling_NaN() _THROW0()
{ // return signaling NaN
return (_Ty(0));
}
};
// STRUCT _Num_int_base
struct _CRTIMP2 _Num_int_base
: public _Num_base
{ // base for integer types
_STCONS(bool, is_bounded, true);
_STCONS(bool, is_exact, true);
_STCONS(bool, is_integer, true);
_STCONS(bool, is_modulo, true);
_STCONS(bool, is_specialized, true);
_STCONS(int, radix, 2);
};
// STRUCT _Num_float_base
struct _CRTIMP2 _Num_float_base
: public _Num_base
{ // base for floating-point types
_STCONS(float_denorm_style, has_denorm, denorm_present);
_STCONS(bool, has_denorm_loss, true);
_STCONS(bool, has_infinity, true);
_STCONS(bool, has_quiet_NaN, true);
_STCONS(bool, has_signaling_NaN, true);
_STCONS(bool, is_bounded, true);
_STCONS(bool, is_exact, false);
_STCONS(bool, is_iec559, true);
_STCONS(bool, is_integer, false);
_STCONS(bool, is_modulo, false);
_STCONS(bool, is_signed, true);
_STCONS(bool, is_specialized, true);
_STCONS(bool, tinyness_before, true);
_STCONS(bool, traps, true);
_STCONS(float_round_style, round_style, round_to_nearest);
_STCONS(int, radix, FLT_RADIX);
};
// CLASS numeric_limits<char>
template<> class _CRTIMP2 numeric_limits<char>
: public _Num_int_base
{ // limits for type char
public:
typedef char _Ty;
static _Ty (__cdecl min)() _THROW0()
{ // return minimum value
return (CHAR_MIN);
}
static _Ty (__cdecl max)() _THROW0()
{ // return maximum value
return (CHAR_MAX);
}
static _Ty __cdecl epsilon() _THROW0()
{ // return smallest effective increment from 1.0
return (0);
}
static _Ty __cdecl round_error() _THROW0()
{ // return largest rounding error
return (0);
}
static _Ty __cdecl denorm_min() _THROW0()
{ // return minimum denormalized value
return (0);
}
static _Ty __cdecl infinity() _THROW0()
{ // return positive infinity
return (0);
}
static _Ty __cdecl quiet_NaN() _THROW0()
{ // return non-signaling NaN
return (0);
}
static _Ty __cdecl signaling_NaN() _THROW0()
{ // return signaling NaN
return (0);
}
_STCONS(bool, is_signed, CHAR_MIN != 0);
_STCONS(int, digits, CHAR_BIT - (CHAR_MIN != 0 ? 1 : 0));
_STCONS(int, digits10, (CHAR_BIT - (CHAR_MIN != 0 ? 1 : 0))
* 301L / 1000);
};
// CLASS numeric_limits<_Bool>
template<> class _CRTIMP2 numeric_limits<_Bool>
: public _Num_int_base
{ // limits for type bool
public:
typedef bool _Ty;
static _Ty (__cdecl min)() _THROW0()
{ // return minimum value
return (false);
}
static _Ty (__cdecl max)() _THROW0()
{ // return maximum value
return (true);
}
static _Ty __cdecl epsilon() _THROW0()
{ // return smallest effective increment from 1.0
return (0);
}
static _Ty __cdecl round_error() _THROW0()
{ // return largest rounding error
return (0);
}
static _Ty __cdecl denorm_min() _THROW0()
{ // return minimum denormalized value
return (0);
}
static _Ty __cdecl infinity() _THROW0()
{ // return positive infinity
return (0);
}
static _Ty __cdecl quiet_NaN() _THROW0()
{ // return non-signaling NaN
return (0);
}
static _Ty __cdecl signaling_NaN() _THROW0()
{ // return signaling NaN
return (0);
}
_STCONS(bool, is_modulo, false);
_STCONS(bool, is_signed, false);
_STCONS(int, digits, 1);
_STCONS(int, digits10, 0);
};
// CLASS numeric_limits<signed char>
template<> class _CRTIMP2 numeric_limits<signed char>
: public _Num_int_base
{ // limits for type signed char
public:
typedef signed char _Ty;
static _Ty (__cdecl min)() _THROW0()
{ // return minimum value
return (SCHAR_MIN);
}
static _Ty (__cdecl max)() _THROW0()
{ // return maximum value
return (SCHAR_MAX);
}
static _Ty __cdecl epsilon() _THROW0()
{ // return smallest effective increment from 1.0
return (0);
}
static _Ty __cdecl round_error() _THROW0()
{ // return largest rounding error
return (0);
}
static _Ty __cdecl denorm_min() _THROW0()
{ // return minimum denormalized value
return (0);
}
static _Ty __cdecl infinity() _THROW0()
{ // return positive infinity
return (0);
}
static _Ty __cdecl quiet_NaN() _THROW0()
{ // return non-signaling NaN
return (0);
}
static _Ty __cdecl signaling_NaN() _THROW0()
{ // return signaling NaN
return (0);
}
_STCONS(bool, is_signed, true);
_STCONS(int, digits, CHAR_BIT - 1);
_STCONS(int, digits10, (CHAR_BIT - 1) * 301L / 1000);
};
// CLASS numeric_limits<unsigned char>
template<> class _CRTIMP2 numeric_limits<unsigned char>
: public _Num_int_base
{ // limits for type unsigned char
public:
typedef unsigned char _Ty;
static _Ty (__cdecl min)() _THROW0()
{ // return minimum value
return (0);
}
static _Ty (__cdecl max)() _THROW0()
{ // return maximum value
return (UCHAR_MAX);
}
static _Ty __cdecl epsilon() _THROW0()
{ // return smallest effective increment from 1.0
return (0);
}
static _Ty __cdecl round_error() _THROW0()
{ // return largest rounding error
return (0);
}
static _Ty __cdecl denorm_min() _THROW0()
{ // return minimum denormalized value
return (0);
}
static _Ty __cdecl infinity() _THROW0()
{ // return positive infinity
return (0);
}
static _Ty __cdecl quiet_NaN() _THROW0()
{ // return non-signaling NaN
return (0);
}
static _Ty __cdecl signaling_NaN() _THROW0()
{ // return signaling NaN
return (0);
}
_STCONS(bool, is_signed, false);
_STCONS(int, digits, CHAR_BIT);
_STCONS(int, digits10, (CHAR_BIT) * 301L / 1000);
};
// CLASS numeric_limits<short>
template<> class _CRTIMP2 numeric_limits<short>
: public _Num_int_base
{ // limits for type short
public:
typedef short _Ty;
static _Ty (__cdecl min)() _THROW0()
{ // return minimum value
return (SHRT_MIN);
}
static _Ty (__cdecl max)() _THROW0()
{ // return maximum value
return (SHRT_MAX);
}
static _Ty __cdecl epsilon() _THROW0()
{ // return smallest effective increment from 1.0
return (0);
}
static _Ty __cdecl round_error() _THROW0()
{ // return largest rounding error
return (0);
}
static _Ty __cdecl denorm_min() _THROW0()
{ // return minimum denormalized value
return (0);
}
static _Ty __cdecl infinity() _THROW0()
{ // return positive infinity
return (0);
}
static _Ty __cdecl quiet_NaN() _THROW0()
{ // return non-signaling NaN
return (0);
}
static _Ty __cdecl signaling_NaN() _THROW0()
{ // return signaling NaN
return (0);
}
_STCONS(bool, is_signed, true);
_STCONS(int, digits, CHAR_BIT * sizeof (short) - 1);
_STCONS(int, digits10, (CHAR_BIT * sizeof (short) - 1)
* 301L / 1000);
};
// CLASS numeric_limits<unsigned short>
template<> class _CRTIMP2 numeric_limits<unsigned short>
: public _Num_int_base
{ // limits for type unsigned short
public:
typedef unsigned short _Ty;
static _Ty (__cdecl min)() _THROW0()
{ // return minimum value
return (0);
}
static _Ty (__cdecl max)() _THROW0()
{ // return maximum value
return (USHRT_MAX);
}
static _Ty __cdecl epsilon() _THROW0()
{ // return smallest effective increment from 1.0
return (0);
}
static _Ty __cdecl round_error() _THROW0()
{ // return largest rounding error
return (0);
}
static _Ty __cdecl denorm_min() _THROW0()
{ // return minimum denormalized value
return (0);
}
static _Ty __cdecl infinity() _THROW0()
{ // return positive infinity
return (0);
}
static _Ty __cdecl quiet_NaN() _THROW0()
{ // return non-signaling NaN
return (0);
}
static _Ty __cdecl signaling_NaN() _THROW0()
{ // return signaling NaN
return (0);
}
_STCONS(bool, is_signed, false);
_STCONS(int, digits, CHAR_BIT * sizeof (unsigned short));
_STCONS(int, digits10, (CHAR_BIT * sizeof (unsigned short))
* 301L / 1000);
};
#ifdef _NATIVE_WCHAR_T_DEFINED
// CLASS numeric_limits<wchar_t>
template<> class _CRTIMP2 numeric_limits<wchar_t>
: public _Num_int_base
{ // limits for type wchar_t
public:
typedef wchar_t _Ty;
static _Ty (__cdecl min)() _THROW0()
{ // return minimum value
return (0);
}
static _Ty (__cdecl max)() _THROW0()
{ // return maximum value
return (USHRT_MAX);
}
static _Ty __cdecl epsilon() _THROW0()
{ // return smallest effective increment from 1.0
return (0);
}
static _Ty __cdecl round_error() _THROW0()
{ // return largest rounding error
return (0);
}
static _Ty __cdecl denorm_min() _THROW0()
{ // return minimum denormalized value
return (0);
}
static _Ty __cdecl infinity() _THROW0()
{ // return positive infinity
return (0);
}
static _Ty __cdecl quiet_NaN() _THROW0()
{ // return non-signaling NaN
return (0);
}
static _Ty __cdecl signaling_NaN() _THROW0()
{ // return signaling NaN
return (0);
}
_STCONS(bool, is_signed, false);
_STCONS(int, digits, CHAR_BIT * sizeof (wchar_t));
_STCONS(int, digits10, (CHAR_BIT * sizeof (wchar_t))
* 301L / 1000);
};
#endif
// CLASS numeric_limits<int>
template<> class _CRTIMP2 numeric_limits<int>
: public _Num_int_base
{ // limits for type int
public:
typedef int _Ty;
static _Ty (__cdecl min)() _THROW0()
{ // return minimum value
return (INT_MIN);
}
static _Ty (__cdecl max)() _THROW0()
{ // return maximum value
return (INT_MAX);
}
static _Ty __cdecl epsilon() _THROW0()
{ // return smallest effective increment from 1.0
return (0);
}
static _Ty __cdecl round_error() _THROW0()
{ // return largest rounding error
return (0);
}
static _Ty __cdecl denorm_min() _THROW0()
{ // return minimum denormalized value
return (0);
}
static _Ty __cdecl infinity() _THROW0()
{ // return positive infinity
return (0);
}
static _Ty __cdecl quiet_NaN() _THROW0()
{ // return non-signaling NaN
return (0);
}
static _Ty __cdecl signaling_NaN() _THROW0()
{ // return signaling NaN
return (0);
}
_STCONS(bool, is_signed, true);
_STCONS(int, digits, CHAR_BIT * sizeof (int) - 1);
_STCONS(int, digits10, (CHAR_BIT * sizeof (int) - 1)
* 301L / 1000);
};
// CLASS numeric_limits<unsigned int>
template<> class _CRTIMP2 numeric_limits<unsigned int>
: public _Num_int_base
{ // limits for type unsigned int
public:
typedef unsigned int _Ty;
static _Ty (__cdecl min)() _THROW0()
{ // return minimum value
return (0);
}
static _Ty (__cdecl max)() _THROW0()
{ // return maximum value
return (UINT_MAX);
}
static _Ty __cdecl epsilon() _THROW0()
{ // return smallest effective increment from 1.0
return (0);
}
static _Ty __cdecl round_error() _THROW0()
{ // return largest rounding error
return (0);
}
static _Ty __cdecl denorm_min() _THROW0()
{ // return minimum denormalized value
return (0);
}
static _Ty __cdecl infinity() _THROW0()
{ // return positive infinity
return (0);
}
static _Ty __cdecl quiet_NaN() _THROW0()
{ // return non-signaling NaN
return (0);
}
static _Ty __cdecl signaling_NaN() _THROW0()
{ // return signaling NaN
return (0);
}
_STCONS(bool, is_signed, false);
_STCONS(int, digits, CHAR_BIT * sizeof (unsigned int));
_STCONS(int, digits10, (CHAR_BIT * sizeof (unsigned int))
* 301L / 1000);
};
// CLASS numeric_limits<long>
template<> class _CRTIMP2 numeric_limits<long>
: public _Num_int_base
{ // limits for type long
public:
typedef long _Ty;
static _Ty (__cdecl min)() _THROW0()
{ // return minimum value
return (LONG_MIN);
}
static _Ty (__cdecl max)() _THROW0()
{ // return maximum value
return (LONG_MAX);
}
static _Ty __cdecl epsilon() _THROW0()
{ // return smallest effective increment from 1.0
return (0);
}
static _Ty __cdecl round_error() _THROW0()
{ // return largest rounding error
return (0);
}
static _Ty __cdecl denorm_min() _THROW0()
{ // return minimum denormalized value
return (0);
}
static _Ty __cdecl infinity() _THROW0()
{ // return positive infinity
return (0);
}
static _Ty __cdecl quiet_NaN() _THROW0()
{ // return non-signaling NaN
return (0);
}
static _Ty __cdecl signaling_NaN() _THROW0()
{ // return signaling NaN
return (0);
}
_STCONS(bool, is_signed, true);
_STCONS(int, digits, CHAR_BIT * sizeof (long) - 1);
_STCONS(int, digits10, (CHAR_BIT * sizeof (long) - 1)
* 301L / 1000);
};
// CLASS numeric_limits<unsigned long>
template<> class _CRTIMP2 numeric_limits<unsigned long>
: public _Num_int_base
{ // limits for type unsigned long
public:
typedef unsigned long _Ty;
static _Ty (__cdecl min)() _THROW0()
{ // return minimum value
return (0);
}
static _Ty (__cdecl max)() _THROW0()
{ // return maximum value
return (ULONG_MAX);
}
static _Ty __cdecl epsilon() _THROW0()
{ // return smallest effective increment from 1.0
return (0);
}
static _Ty __cdecl round_error() _THROW0()
{ // return largest rounding error
return (0);
}
static _Ty __cdecl denorm_min() _THROW0()
{ // return minimum denormalized value
return (0);
}
static _Ty __cdecl infinity() _THROW0()
{ // return positive infinity
return (0);
}
static _Ty __cdecl quiet_NaN() _THROW0()
{ // return non-signaling NaN
return (0);
}
static _Ty __cdecl signaling_NaN() _THROW0()
{ // return signaling NaN
return (0);
}
_STCONS(bool, is_signed, false);
_STCONS(int, digits, CHAR_BIT * sizeof (unsigned long));
_STCONS(int, digits10, (CHAR_BIT * sizeof (unsigned long))
* 301L / 1000);
};
#ifdef _LONGLONG
// CLASS numeric_limits<_LONGLONG>
template<> class _CRTIMP2 numeric_limits<_LONGLONG>
: public _Num_int_base
{ // limits for type long long
public:
typedef _LONGLONG _Ty;
static _Ty (__cdecl min)() _THROW0()
{ // return minimum value
return (-_LLONG_MAX - _C2);
}
static _Ty (__cdecl max)() _THROW0()
{ // return maximum value
return (_LLONG_MAX);
}
static _Ty __cdecl epsilon() _THROW0()
{ // return smallest effective increment from 1.0
return (0);
}
static _Ty __cdecl round_error() _THROW0()
{ // return largest rounding error
return (0);
}
static _Ty __cdecl denorm_min() _THROW0()
{ // return minimum denormalized value
return (0);
}
static _Ty __cdecl infinity() _THROW0()
{ // return positive infinity
return (0);
}
static _Ty __cdecl quiet_NaN() _THROW0()
{ // return non-signaling NaN
return (0);
}
static _Ty __cdecl signaling_NaN() _THROW0()
{ // return signaling NaN
return (0);
}
_STCONS(bool, is_signed, true);
_STCONS(int, digits, CHAR_BIT * sizeof (_LONGLONG) - 1);
_STCONS(int, digits10, (CHAR_BIT * sizeof (_LONGLONG) - 1)
* 301L / 1000);
};
// CLASS numeric_limits<_ULONGLONG>
template<> class _CRTIMP2 numeric_limits<_ULONGLONG>
: public _Num_int_base
{ // limits for type unsigned long long
public:
typedef _ULONGLONG _Ty;
static _Ty (__cdecl min)() _THROW0()
{ // return minimum value
return (0);
}
static _Ty (__cdecl max)() _THROW0()
{ // return maximum value
return (_ULLONG_MAX);
}
static _Ty __cdecl epsilon() _THROW0()
{ // return smallest effective increment from 1.0
return (0);
}
static _Ty __cdecl round_error() _THROW0()
{ // return largest rounding error
return (0);
}
static _Ty __cdecl denorm_min() _THROW0()
{ // return minimum denormalized value
return (0);
}
static _Ty __cdecl infinity() _THROW0()
{ // return positive infinity
return (0);
}
static _Ty __cdecl quiet_NaN() _THROW0()
{ // return non-signaling NaN
return (0);
}
static _Ty __cdecl signaling_NaN() _THROW0()
{ // return signaling NaN
return (0);
}
_STCONS(bool, is_signed, false);
_STCONS(int, digits, CHAR_BIT * sizeof (_ULONGLONG));
_STCONS(int, digits10, (CHAR_BIT * sizeof (_ULONGLONG))
* 301L / 1000);
};
#endif /* _LONGLONG */
// CLASS numeric_limits<float>
template<> class _CRTIMP2 numeric_limits<float>
: public _Num_float_base
{ // limits for type float
public:
typedef float _Ty;
static _Ty (__cdecl min)() _THROW0()
{ // return minimum value
return (FLT_MIN);
}
static _Ty (__cdecl max)() _THROW0()
{ // return maximum value
return (FLT_MAX);
}
static _Ty __cdecl epsilon() _THROW0()
{ // return smallest effective increment from 1.0
return (FLT_EPSILON);
}
static _Ty __cdecl round_error() _THROW0()
{ // return largest rounding error
return (0.5);
}
static _Ty __cdecl denorm_min() _THROW0()
{ // return minimum denormalized value
return (_FDenorm._Float);
}
static _Ty __cdecl infinity() _THROW0()
{ // return positive infinity
return (_FInf._Float);
}
static _Ty __cdecl quiet_NaN() _THROW0()
{ // return non-signaling NaN
return (_FNan._Float);
}
static _Ty __cdecl signaling_NaN() _THROW0()
{ // return signaling NaN
return (_FSnan._Float);
}
_STCONS(int, digits, FLT_MANT_DIG);
_STCONS(int, digits10, FLT_DIG);
_STCONS(int, max_exponent, (int)FLT_MAX_EXP);
_STCONS(int, max_exponent10, (int)FLT_MAX_10_EXP);
_STCONS(int, min_exponent, (int)FLT_MIN_EXP);
_STCONS(int, min_exponent10, (int)FLT_MIN_10_EXP);
};
// CLASS numeric_limits<double>
template<> class _CRTIMP2 numeric_limits<double>
: public _Num_float_base
{ // limits for type double
public:
typedef double _Ty;
static _Ty (__cdecl min)() _THROW0()
{ // return minimum value
return (DBL_MIN);
}
static _Ty (__cdecl max)() _THROW0()
{ // return maximum value
return (DBL_MAX);
}
static _Ty __cdecl epsilon() _THROW0()
{ // return smallest effective increment from 1.0
return (DBL_EPSILON);
}
static _Ty __cdecl round_error() _THROW0()
{ // return largest rounding error
return (0.5);
}
static _Ty __cdecl denorm_min() _THROW0()
{ // return minimum denormalized value
return (_Denorm._Double);
}
static _Ty __cdecl infinity() _THROW0()
{ // return positive infinity
return (_Inf._Double);
}
static _Ty __cdecl quiet_NaN() _THROW0()
{ // return non-signaling NaN
return (_Nan._Double);
}
static _Ty __cdecl signaling_NaN() _THROW0()
{ // return signaling NaN
return (_Snan._Double);
}
_STCONS(int, digits, DBL_MANT_DIG);
_STCONS(int, digits10, DBL_DIG);
_STCONS(int, max_exponent, (int)DBL_MAX_EXP);
_STCONS(int, max_exponent10, (int)DBL_MAX_10_EXP);
_STCONS(int, min_exponent, (int)DBL_MIN_EXP);
_STCONS(int, min_exponent10, (int)DBL_MIN_10_EXP);
};
// CLASS numeric_limits<long double>
template<> class _CRTIMP2 numeric_limits<long double>
: public _Num_float_base
{ // limits for type long double
public:
typedef long double _Ty;
static _Ty (__cdecl min)() _THROW0()
{ // return minimum value
return (LDBL_MIN);
}
static _Ty (__cdecl max)() _THROW0()
{ // return maximum value
return (LDBL_MAX);
}
static _Ty __cdecl epsilon() _THROW0()
{ // return smallest effective increment from 1.0
return (LDBL_EPSILON);
}
static _Ty __cdecl round_error() _THROW0()
{ // return largest rounding error
return (0.5);
}
static _Ty __cdecl denorm_min() _THROW0()
{ // return minimum denormalized value
return (_LDenorm._Long_double);
}
static _Ty __cdecl infinity() _THROW0()
{ // return positive infinity
return (_LInf._Long_double);
}
static _Ty __cdecl quiet_NaN() _THROW0()
{ // return non-signaling NaN
return (_LNan._Long_double);
}
static _Ty __cdecl signaling_NaN() _THROW0()
{ // return signaling NaN
return (_LSnan._Long_double);
}
_STCONS(int, digits, LDBL_MANT_DIG);
_STCONS(int, digits10, LDBL_DIG);
_STCONS(int, max_exponent, (int)LDBL_MAX_EXP);
_STCONS(int, max_exponent10, (int)LDBL_MAX_10_EXP);
_STCONS(int, min_exponent, (int)LDBL_MIN_EXP);
_STCONS(int, min_exponent10, (int)LDBL_MIN_10_EXP);
};
_STD_END
#pragma warning(pop)
#pragma pack(pop)
#endif /* _LIMITS_ */
/*
* Copyright (c) 1992-2001 by P.J. Plauger. ALL RIGHTS RESERVED.
* Consult your license regarding permissions and restrictions.
V3.10:0009 */