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gcc/libstdc++-v3/include/std/std_limits.h
Gabriel Dos Reis 585e661a79 c-common.c (builtin_define_type_precision): New function. 
gcc/
 2002-08-28  Gabriel Dos Reis  <gdr@integrable-solutions.net>

 * c-common.c (builtin_define_type_precision): New function.
 (cb_register_builtins): Use it.  Define __WCHAR_UNSIGNED__ is
 wchar_t is unsigned in C++.
 * doc/cpp.texi (Common Predefined Macros): Document
 __WCHAR_UNSIGNED__, __CHAR_BIT__, __WCHAR_BIT__, __SHRT_BIT__,
 __INT_BIT__, __LONG_BIT__, __LONG_LONG_BIT__, __FLOAT_BIT__,
 __DOUBLE_BIT__, __LONG_DOUBLE_BIT__.

libstdc++-v3/

2002-08-28  Gabriel Dos Reis  <gdr@integrable-solutions.net>

	    * include/std/std_limits.h (__glibcpp_char_bits,
	    __glibcpp_short_bits, __glibcpp_int_bits,
	    __glibcpp_long_bits,
	    __glibcpp_long_long_bits, __glibcpp_float_bits,
	    __glibcpp_double_bits, __glibcpp_long_double_bits):
	    Remove.  Use
	    compiler predifined macros.
	    (__glibcpp_wchar_t_is_signed): Define based on compiler
	    predefined
	    __WCHAR_UNSIGNED__.

From-SVN: r56646
2002-08-28 21:41:55 +00:00

2207 lines
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// The template and inlines for the -*- C++ -*- numeric_limits classes.
// Copyright (C) 1999, 2000, 2001, 2002 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.
// Note: this is not a conforming implementation.
// Written by Gabriel Dos Reis <gdr@codesourcery.com>
//
// ISO 14882:1998
// 18.2.1
//
/** @file limits
* This is a Standard C++ Library header. You should @c #include this header
* in your programs, rather than any of the "st[dl]_*.h" implementation files.
*/
#ifndef _CPP_NUMERIC_LIMITS
#define _CPP_NUMERIC_LIMITS 1
#pragma GCC system_header
#include <bits/cpu_limits.h>
#include <bits/c++config.h>
//
// The numeric_limits<> traits document implementation-defined aspects
// of fundamental arithmetic data types (integers and floating points).
// From Standard C++ point of view, there are 13 such types:
// * integers
// bool (1)
// char, signed char, unsigned char (3)
// short, unsigned short (2)
// int, unsigned (2)
// long, unsigned long (2)
//
// * floating points
// float (1)
// double (1)
// long double (1)
//
// GNU C++ undertstands (where supported by the host C-library)
// * integer
// long long, unsigned long long (2)
//
// which brings us to 15 fundamental arithmetic data types in GNU C++.
//
//
// Since a numeric_limits<> is a bit tricky to get right, we rely on
// an interface composed of macros which should be defined in config/os
// or config/cpu when they differ from the generic (read arbitrary)
// definitions given here.
//
#ifdef __CHAR_UNSIGNED__
# define __glibcpp_plain_char_is_signed false
#else
# define __glibcpp_plain_char_is_signed true
#endif
#ifndef __WCHAR_UNSIGNED__
# define __glibcpp_wchar_t_is_signed false
#else
# define __glibcpp_wchar_t_is_signed true
#endif
// These values can be overridden in the target configuration file.
// The default values are appropriate for many 32-bit targets.
#ifndef __glibcpp_char_traps
# define __glibcpp_char_traps true
#endif
#ifndef __glibcpp_short_traps
# define __glibcpp_short_traps true
#endif
#ifndef __glibcpp_int_traps
# define __glibcpp_int_traps true
#endif
#ifndef __glibcpp_long_traps
# define __glibcpp_long_traps true
#endif
#ifndef __glibcpp_wchar_t_traps
# define __glibcpp_wchar_t_traps true
#endif
#ifndef __glibcpp_long_long_traps
# define __glibcpp_long_long_traps true
#endif
// You should not need to define any macros below this point, unless
// you have a machine with non-standard bit-widths.
// These values are the minimums and maximums for standard data types
// of common widths.
#define __glibcpp_s8_max 127
#define __glibcpp_s8_min (-__glibcpp_s8_max - 1)
#define __glibcpp_s8_digits 7
#define __glibcpp_s8_digits10 2
#define __glibcpp_u8_min 0U
#define __glibcpp_u8_max (__glibcpp_s8_max * 2 + 1)
#define __glibcpp_u8_digits 8
#define __glibcpp_u8_digits10 2
#define __glibcpp_s16_max 32767
#define __glibcpp_s16_min (-__glibcpp_s16_max - 1)
#define __glibcpp_s16_digits 15
#define __glibcpp_s16_digits10 4
#define __glibcpp_u16_min 0U
#define __glibcpp_u16_max (__glibcpp_s16_max * 2 + 1)
#define __glibcpp_u16_digits 16
#define __glibcpp_u16_digits10 4
#define __glibcpp_s32_max 2147483647L
#define __glibcpp_s32_min (-__glibcpp_s32_max - 1)
#define __glibcpp_s32_digits 31
#define __glibcpp_s32_digits10 9
#define __glibcpp_u32_min 0UL
#define __glibcpp_u32_max (__glibcpp_s32_max * 2U + 1)
#define __glibcpp_u32_digits 32
#define __glibcpp_u32_digits10 9
#define __glibcpp_s64_max 9223372036854775807LL
#define __glibcpp_s64_min (-__glibcpp_s64_max - 1)
#define __glibcpp_s64_digits 63
#define __glibcpp_s64_digits10 18
#define __glibcpp_u64_min 0ULL
#define __glibcpp_u64_max (__glibcpp_s64_max * 2ULL + 1)
#define __glibcpp_u64_digits 64
#define __glibcpp_u64_digits10 19
#define __glibcpp_f32_min 1.17549435e-38F
#define __glibcpp_f32_max 3.40282347e+38F
#define __glibcpp_f32_digits 24
#define __glibcpp_f32_digits10 6
#define __glibcpp_f32_radix 2
#define __glibcpp_f32_epsilon 1.19209290e-07F
#define __glibcpp_f32_round_error 1.0F
#define __glibcpp_f32_min_exponent -125
#define __glibcpp_f32_min_exponent10 -37
#define __glibcpp_f32_max_exponent 128
#define __glibcpp_f32_max_exponent10 38
#if __GCC_FLOAT_FORMAT__ == __IEEE_FORMAT__
# define __glibcpp_f32_infinity_bytes { 0x7f800000 }
# define __glibcpp_f32_has_infinity true
# define __glibcpp_f32_QNaN_bytes { 0x7fc00000 }
# define __glibcpp_f32_has_QNaN true
# define __glibcpp_f32_SNaN_bytes { 0x7f800001 }
# define __glibcpp_f32_has_SNaN true
# define __glibcpp_f32_denorm_min_bytes { 0x00000001 }
# define __glibcpp_f32_has_denorm denorm_present
# define __glibcpp_f32_is_iec559 true
#endif
#ifndef __glibcpp_f32_infinity_bytes
# define __glibcpp_f32_infinity_bytes { }
# define __glibcpp_f32_has_infinity false
#endif
#ifndef __glibcpp_f32_QNaN_bytes
# define __glibcpp_f32_QNaN_bytes { }
# define __glibcpp_f32_has_QNaN false
#endif
#ifndef __glibcpp_f32_SNaN_bytes
# define __glibcpp_f32_SNaN_bytes { }
# define __glibcpp_f32_has_SNaN false
#endif
#ifndef __glibcpp_f32_denorm_min_bytes
# define __glibcpp_f32_denorm_min_bytes { }
# define __glibcpp_f32_has_denorm denorm_indeterminate
#endif
#ifndef __glibcpp_f32_is_iec559
# define __glibcpp_f32_is_iec559 false
#endif
#define __glibcpp_f64_min 2.2250738585072014e-308
#define __glibcpp_f64_max 1.7976931348623157e+308
#define __glibcpp_f64_digits 53
#define __glibcpp_f64_digits10 15
#define __glibcpp_f64_radix 2
#define __glibcpp_f64_epsilon 2.2204460492503131e-16
#define __glibcpp_f64_round_error 1.0
#define __glibcpp_f64_min_exponent -1021
#define __glibcpp_f64_min_exponent10 -307
#define __glibcpp_f64_max_exponent 1024
#define __glibcpp_f64_max_exponent10 308
#if __GCC_FLOAT_FORMAT__ == __IEEE_FORMAT__
# if __TARGET_FLOAT_WORDS_ORDER__ == __GCC_BIG_ENDIAN__
# define __glibcpp_f64_infinity_bytes { 0x7ff00000, 0x0 }
# define __glibcpp_f64_QNaN_bytes { 0x7ff80000, 0x0 }
# define __glibcpp_f64_SNaN_bytes { 0x7ff00000, 0x1 }
# define __glibcpp_f64_denorm_min_bytes { 0x0, 0x1 }
# else
# define __glibcpp_f64_infinity_bytes { 0x0, 0x7ff00000 }
# define __glibcpp_f64_QNaN_bytes { 0x0, 0x7ff80000 }
# define __glibcpp_f64_SNaN_bytes { 0x1, 0x7ff00000 }
# define __glibcpp_f64_denorm_min_bytes { 0x1, 0x0 }
# endif
# define __glibcpp_f64_has_infinity true
# define __glibcpp_f64_has_QNaN true
# define __glibcpp_f64_has_SNaN true
# define __glibcpp_f64_has_denorm denorm_present
# define __glibcpp_f64_is_iec559 true
#endif
#ifndef __glibcpp_f64_infinity_bytes
# define __glibcpp_f64_infinity_bytes { }
# define __glibcpp_f64_has_infinity false
#endif
#ifndef __glibcpp_f64_QNaN_bytes
# define __glibcpp_f64_QNaN_bytes { }
# define __glibcpp_f64_has_QNaN false
#endif
#ifndef __glibcpp_f64_SNaN_bytes
# define __glibcpp_f64_SNaN_bytes { }
# define __glibcpp_f64_has_SNaN false
#endif
#ifndef __glibcpp_f64_denorm_min_bytes
# define __glibcpp_f64_denorm_min_bytes { }
# define __glibcpp_f64_has_denorm denorm_indeterminate
#endif
#ifndef __glibcpp_f64_is_iec559
# define __glibcpp_f64_is_iec559 false
#endif
#define __glibcpp_f80_min 3.36210314311209350626e-4932L
#define __glibcpp_f80_max 1.18973149535723176502e+4932L
#define __glibcpp_f80_digits 64
#define __glibcpp_f80_digits10 18
#define __glibcpp_f80_radix 2
#define __glibcpp_f80_epsilon 1.08420217248550443401e-19L
#define __glibcpp_f80_round_error 1.0L
#define __glibcpp_f80_min_exponent -16381
#define __glibcpp_f80_min_exponent10 -4931
#define __glibcpp_f80_max_exponent 16384
#define __glibcpp_f80_max_exponent10 4932
#if __GCC_FLOAT_FORMAT__ == __IEEE_FORMAT__
# if __TARGET_BYTES_ORDER__ == __GCC_BIG_ENDIAN__
# define __glibcpp_f80_infinity_bytes \
{ 0x7f, 0xff, 0x80, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0 }
# define __glibcpp_f80_QNaN_bytes \
{ 0x7f, 0xff, 0xC0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0 }
# define __glibcpp_f80_SNaN_bytes \
{ 0x7f, 0xff, 0x80, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x1 }
# define __glibcpp_f80_denorm_min_bytes \
{ 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x1 }
# else
# define __glibcpp_f80_infinity_bytes \
{ 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x80, 0xff, 0x7f }
# define __glibcpp_f80_QNaN_bytes \
{ 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0xC0, 0xff, 0x7f }
# define __glibcpp_f80_SNaN_bytes \
{ 0x1, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x80, 0xff, 0x7f }
# define __glibcpp_f80_denorm_min_bytes \
{ 0x1, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0 }
# endif
# define __glibcpp_f80_has_infinity true
# define __glibcpp_f80_has_QNaN true
# define __glibcpp_f80_has_SNaN true
# define __glibcpp_f80_has_denorm denorm_present
# define __glibcpp_f80_is_iec559 true
#endif
#ifndef __glibcpp_f80_infinity_bytes
# define __glibcpp_f80_infinity_bytes { }
# define __glibcpp_f80_has_infinity false
#endif
#ifndef __glibcpp_f80_QNaN_bytes
# define __glibcpp_f80_QNaN_bytes { }
# define __glibcpp_f80_has_QNaN false
#endif
#ifndef __glibcpp_f80_SNaN_bytes
# define __glibcpp_f80_SNaN_bytes { }
# define __glibcpp_f80_has_SNaN false
#endif
#ifndef __glibcpp_f80_denorm_min_bytes
# define __glibcpp_f80_denorm_min_bytes { }
# define __glibcpp_f80_has_denorm denorm_indeterminate
#endif
#ifndef __glibcpp_f80_is_iec559
# define __glibcpp_f80_is_iec559 false
#endif
#define __glibcpp_f96_min 1.68105157155604675313e-4932L
#define __glibcpp_f96_max 1.18973149535723176502e+4932L
#define __glibcpp_f96_digits 64
#define __glibcpp_f96_digits10 18
#define __glibcpp_f96_radix 2
#define __glibcpp_f96_epsilon 1.08420217248550443401e-19L
#define __glibcpp_f96_round_error 1.0L
#define __glibcpp_f96_min_exponent -16382
#define __glibcpp_f96_min_exponent10 -4931
#define __glibcpp_f96_max_exponent 16384
#define __glibcpp_f96_max_exponent10 4932
#if __GCC_FLOAT_FORMAT__ == __IEEE_FORMAT__
# if __TARGET_BYTES_ORDER__ == __GCC_BIG_ENDIAN__
# define __glibcpp_f96_infinity_bytes { 0x7ff0000, 0x0, 0x0 }
# define __glibcpp_f96_QNaN_bytes { 0x7ff80000, 0x0, 0x0 }
# define __glibcpp_f96_SNaN_bytes { 0x7ff00000, 0x0, 0x1 }
# define __glibcpp_f96_denorm_min_bytes { 0x0, 0x0, 0x1 }
# else
# define __glibcpp_f96_infinity_bytes { 0x0, 0x0, 0x7ff0000 }
# define __glibcpp_f96_QNaN_bytes { 0x0, 0x0, 0x7ff80000 }
# define __glibcpp_f96_SNaN_bytes { 0x1, 0x0, 0x7ff00000 }
# define __glibcpp_f96_denorm_min_bytes { 0x1, 0x0, 0x0 }
# endif
# define __glibcpp_f96_has_infinity true
# define __glibcpp_f96_has_QNaN true
# define __glibcpp_f96_has_SNaN true
# define __glibcpp_f96_has_denorm denorm_present
# define __glibcpp_f96_is_iec559 true
#endif
#ifndef __glibcpp_f96_infinity_bytes
# define __glibcpp_f96_infinity_bytes { }
# define __glibcpp_f96_has_infinity false
#endif
#ifndef __glibcpp_f96_QNaN_bytes
# define __glibcpp_f96_QNaN_bytes { }
# define __glibcpp_f96_has_QNaN false
#endif
#ifndef __glibcpp_f96_SNaN_bytes
# define __glibcpp_f96_SNaN_bytes { }
# define __glibcpp_f96_has_SNaN false
#endif
#ifndef __glibcpp_f96_denorm_min_bytes
# define __glibcpp_f96_denorm_min_bytes { }
# define __glibcpp_f96_has denorm_indeterminate
#endif
#define __glibcpp_f128_min 3.362103143112093506262677817321752603E-4932L
#define __glibcpp_f128_max 1.189731495357231765085759326628007016E+4932L
#define __glibcpp_f128_digits 113
#define __glibcpp_f128_digits10 33
#define __glibcpp_f128_radix 2
#define __glibcpp_f128_epsilon 1.925929944387235853055977942584927319E-34L
#define __glibcpp_f128_round_error 1.0L
#define __glibcpp_f128_min_exponent -16381
#define __glibcpp_f128_min_exponent10 -4931
#define __glibcpp_f128_max_exponent 16384
#define __glibcpp_f128_max_exponent10 4932
#if __GCC_FLOAT_FORMAT__ == __IEEE_FORMAT__
# if __TARGET_FLOAT_WORDS_ORDER__ == __GCC_BIG_ENDIAN__
# define __glibcpp_f128_infinity_bytes { 0x7fff0000, 0x0, 0x0, 0x0 }
# define __glibcpp_f128_QNaN_bytes { 0x7fff0800, 0x0, 0x0, 0x0 }
# define __glibcpp_f128_SNaN_bytes { 0x7fff0000, 0x0, 0x0, 0x1 }
# define __glibcpp_f128_denorm_min_bytes { 0x0, 0x0, 0x0, 0x1 }
# else
# define __glibcpp_f128_infinity_bytes { 0x0, 0x0, 0x0, 0x7fff0000 }
# define __glibcpp_f128_QNaN_bytes { 0x0, 0x0, 0x0, 0x7fff0800 }
# define __glibcpp_f128_SNaN_bytes { 0x1, 0x0, 0x0, 0x7fff0000 }
# define __glibcpp_f128_denorm_min_bytes { 0x1, 0x0, 0x0, 0x0 }
# endif
# define __glibcpp_f128_has_infinity true
# define __glibcpp_f128_has_QNaN true
# define __glibcpp_f128_has_SNaN true
# define __glibcpp_f128_has_denorm denorm_present
#endif
#ifndef __glibcpp_f128_infinity_bytes
# define __glibcpp_f128_infinity_bytes { }
# define __glibcpp_f128_has_infinity false
#endif
#ifndef __glibcpp_f128_QNaN_bytes
# define __glibcpp_f128_QNaN_bytes { }
# define __glibcpp_f128_has_QNaN false
#endif
#ifndef __glibcpp_f128_SNaN_bytes
# define __glibcpp_f128_SNaN_bytes { }
# define __glibcpp_f128_has_SNaN false
#endif
#ifndef __glibcpp_f128_denorm_min_bytes
# define __glibcpp_f128_denorm_min_bytes { }
# define __glibcpp_f128_has_denorm denorm_indeterminate
#endif
#ifndef __glibcpp_f128_is_iec559
# define __glibcpp_f128_is_iec559 false
#endif
// bool-specific hooks:
// __glibcpp_bool_digits __glibcpp_int_traps __glibcpp_long_traps
#ifndef __glibcpp_bool_digits
# define __glibcpp_bool_digits 1
#endif
// char.
#define __glibcpp_plain_char_traps true
#define __glibcpp_signed_char_traps true
#define __glibcpp_unsigned_char_traps true
#ifndef __glibcpp_char_is_modulo
# define __glibcpp_char_is_modulo true
#endif
#ifndef __glibcpp_signed_char_is_modulo
# define __glibcpp_signed_char_is_modulo true
#endif
#if __CHAR_BIT__ == 8
# define __glibcpp_signed_char_min __glibcpp_s8_min
# define __glibcpp_signed_char_max __glibcpp_s8_max
# define __glibcpp_signed_char_digits __glibcpp_s8_digits
# define __glibcpp_signed_char_digits10 __glibcpp_s8_digits10
# define __glibcpp_unsigned_char_min __glibcpp_u8_min
# define __glibcpp_unsigned_char_max __glibcpp_u8_max
# define __glibcpp_unsigned_char_digits __glibcpp_u8_digits
# define __glibcpp_unsigned_char_digits10 __glibcpp_u8_digits10
#elif __CHAR_BIT__ == 16
# define __glibcpp_signed_char_min __glibcpp_s16_min
# define __glibcpp_signed_char_max __glibcpp_s16_max
# define __glibcpp_signed_char_digits __glibcpp_s16_digits
# define __glibcpp_signed_char_digits10 __glibcpp_s16_digits10
# define __glibcpp_unsigned_char_min __glibcpp_u16_min
# define __glibcpp_unsigned_char_max __glibcpp_u16_max
# define __glibcpp_unsigned_char_digits __glibcpp_u16_digits
# define __glibcpp_unsigned_char_digits10 __glibcpp_u16_digits10
#elif __CHAR_BIT__ == 32
# define __glibcpp_signed_char_min (signed char)__glibcpp_s32_min
# define __glibcpp_signed_char_max (signed char)__glibcpp_s32_max
# define __glibcpp_signed_char_digits __glibcpp_s32_digits
# define __glibcpp_signed_char_digits10 __glibcpp_s32_digits10
# define __glibcpp_unsigned_char_min (unsigned char)__glibcpp_u32_min
# define __glibcpp_unsigned_char_max (unsigned char)__glibcpp_u32_max
# define __glibcpp_unsigned_char_digits __glibcpp_u32_digits
# define __glibcpp_unsigned_char_digits10 __glibcpp_u32_digits10
#elif __CHAR_BIT__ == 64
# define __glibcpp_signed_char_min (signed char)__glibcpp_s64_min
# define __glibcpp_signed_char_max (signed char)__glibcpp_s64_max
# define __glibcpp_signed_char_digits __glibcpp_s64_digits
# define __glibcpp_signed_char_digits10 __glibcpp_s64_digits10
# define __glibcpp_unsigned_char_min (unsigned char)__glibcpp_u64_min
# define __glibcpp_unsigned_char_max (unsigned char)__glibcpp_u64_max
# define __glibcpp_unsigned_char_digits __glibcpp_u64_digits
# define __glibcpp_unsigned_char_digits10 __glibcpp_u64_digits10
#else
// You must define these macros in the configuration file.
#endif
#if __glibcpp_plain_char_is_signed
# define __glibcpp_char_min (char)__glibcpp_signed_char_min
# define __glibcpp_char_max (char)__glibcpp_signed_char_max
# define __glibcpp_char_digits __glibcpp_signed_char_digits
# define __glibcpp_char_digits10 __glibcpp_signed_char_digits
#else
# define __glibcpp_char_min (char)__glibcpp_unsigned_char_min
# define __glibcpp_char_max (char)__glibcpp_unsigned_char_max
# define __glibcpp_char_digits __glibcpp_unsigned_char_digits
# define __glibcpp_char_digits10 __glibcpp_unsigned_char_digits
#endif
// short
#define __glibcpp_signed_short_traps true
#define __glibcpp_unsigned_short_traps true
#ifndef __glibcpp_signed_short_is_modulo
# define __glibcpp_signed_short_is_modulo true
#endif
#if __SHRT_BIT__ == 8
# define __glibcpp_signed_short_min __glibcpp_s8_min
# define __glibcpp_signed_short_max __glibcpp_s8_max
# define __glibcpp_signed_short_digits __glibcpp_s8_digits
# define __glibcpp_signed_short_digits10 __glibcpp_s8_digits10
# define __glibcpp_unsigned_short_min __glibcpp_u8_min
# define __glibcpp_unsigned_short_max __glibcpp_u8_max
# define __glibcpp_unsigned_short_digits __glibcpp_u8_digits
# define __glibcpp_unsigned_short_digits10 __glibcpp_u8_digits10
#elif __SHRT_BIT__ == 16
# define __glibcpp_signed_short_min __glibcpp_s16_min
# define __glibcpp_signed_short_max __glibcpp_s16_max
# define __glibcpp_signed_short_digits __glibcpp_s16_digits
# define __glibcpp_signed_short_digits10 __glibcpp_s16_digits10
# define __glibcpp_unsigned_short_min __glibcpp_u16_min
# define __glibcpp_unsigned_short_max __glibcpp_u16_max
# define __glibcpp_unsigned_short_digits __glibcpp_u16_digits
# define __glibcpp_unsigned_short_digits10 __glibcpp_u16_digits10
#elif __SHRT_BIT__ == 32
# define __glibcpp_signed_short_min (short)__glibcpp_s32_min
# define __glibcpp_signed_short_max (short)__glibcpp_s32_max
# define __glibcpp_signed_short_digits __glibcpp_s32_digits
# define __glibcpp_signed_short_digits10 __glibcpp_s32_digits10
# define __glibcpp_unsigned_short_min (unsigned short)__glibcpp_u32_min
# define __glibcpp_unsigned_short_max (unsigned short)__glibcpp_u32_max
# define __glibcpp_unsigned_short_digits __glibcpp_u32_digits
# define __glibcpp_unsigned_short_digits10 __glibcpp_u32_digits10
#elif __SHRT_BIT__ == 64
# define __glibcpp_signed_short_min (short)__glibcpp_s64_min
# define __glibcpp_signed_short_max (short)__glibcpp_s64_max
# define __glibcpp_signed_short_digits __glibcpp_s64_digits
# define __glibcpp_signed_short_digits10 __glibcpp_s64_digits10
# define __glibcpp_unsigned_short_min (unsigned short)__glibcpp_u64_min
# define __glibcpp_unsigned_short_max (unsigned short)__glibcpp_u64_max
# define __glibcpp_unsigned_short_digits __glibcpp_u64_digits
# define __glibcpp_unsigned_short_digits10 __glibcpp_u64_digits10
#else
// You must define these macros in the configuration file.
#endif
// int
#define __glibcpp_signed_int_traps true
#define __glibcpp_unsigned_int_traps true
#ifndef __glibcpp_signed_int_is_modulo
# define __glibcpp_signed_int_is_modulo true
#endif
#if __INT_BIT__ == 8
# define __glibcpp_signed_int_min __glibcpp_s8_min
# define __glibcpp_signed_int_max __glibcpp_s8_max
# define __glibcpp_signed_int_digits __glibcpp_s8_digits
# define __glibcpp_signed_int_digits10 __glibcpp_s8_digits10
# define __glibcpp_unsigned_int_min __glibcpp_u8_min
# define __glibcpp_unsigned_int_max __glibcpp_u8_max
# define __glibcpp_unsigned_int_digits __glibcpp_u8_digits
# define __glibcpp_unsigned_int_digits10 __glibcpp_u8_digits10
#elif __INT_BIT__ == 16
# define __glibcpp_signed_int_min __glibcpp_s16_min
# define __glibcpp_signed_int_max __glibcpp_s16_max
# define __glibcpp_signed_int_digits __glibcpp_s16_digits
# define __glibcpp_signed_int_digits10 __glibcpp_s16_digits10
# define __glibcpp_unsigned_int_min __glibcpp_u16_min
# define __glibcpp_unsigned_int_max __glibcpp_u16_max
# define __glibcpp_unsigned_int_digits __glibcpp_u16_digits
# define __glibcpp_unsigned_int_digits10 __glibcpp_u16_digits10
#elif __INT_BIT__ == 32
# define __glibcpp_signed_int_min (int)__glibcpp_s32_min
# define __glibcpp_signed_int_max (int)__glibcpp_s32_max
# define __glibcpp_signed_int_digits __glibcpp_s32_digits
# define __glibcpp_signed_int_digits10 __glibcpp_s32_digits10
# define __glibcpp_unsigned_int_min (unsigned)__glibcpp_u32_min
# define __glibcpp_unsigned_int_max (unsigned)__glibcpp_u32_max
# define __glibcpp_unsigned_int_digits __glibcpp_u32_digits
# define __glibcpp_unsigned_int_digits10 __glibcpp_u32_digits10
#elif __INT_BIT__ == 64
# define __glibcpp_signed_int_min (int)__glibcpp_s64_min
# define __glibcpp_signed_int_max (int)__glibcpp_s64_max
# define __glibcpp_signed_int_digits __glibcpp_s64_digits
# define __glibcpp_signed_int_digits10 __glibcpp_s64_digits10
# define __glibcpp_unsigned_int_min (unsigned)__glibcpp_u64_min
# define __glibcpp_unsigned_int_max (unsigned)__glibcpp_u64_max
# define __glibcpp_unsigned_int_digits __glibcpp_u64_digits
# define __glibcpp_unsigned_int_digits10 __glibcpp_u64_digits10
#else
// You must define these macros in the configuration file.
#endif
// long
#define __glibcpp_signed_long_traps true
#define __glibcpp_unsigned_long_traps true
#ifndef __glibcpp_signed_long_is_modulo
# define __glibcpp_signed_long_is_modulo true
#endif
#if __LONG_BIT__ == 8
# define __glibcpp_signed_long_min __glibcpp_s8_min
# define __glibcpp_signed_long_max __glibcpp_s8_max
# define __glibcpp_signed_long_digits __glibcpp_s8_digits
# define __glibcpp_signed_long_digits10 __glibcpp_s8_digits10
# define __glibcpp_unsigned_long_min __glibcpp_u8_min
# define __glibcpp_unsigned_long_max __glibcpp_u8_max
# define __glibcpp_unsigned_long_digits __glibcpp_u8_digits
# define __glibcpp_unsigned_long_digits10 __glibcpp_u8_digits10
#elif __LONG_BIT__ == 16
# define __glibcpp_signed_long_min __glibcpp_s16_min
# define __glibcpp_signed_long_max __glibcpp_s16_max
# define __glibcpp_signed_long_digits __glibcpp_s16_digits
# define __glibcpp_signed_long_digits10 __glibcpp_s16_digits10
# define __glibcpp_unsigned_long_min __glibcpp_u16_min
# define __glibcpp_unsigned_long_max __glibcpp_u16_max
# define __glibcpp_unsigned_long_digits __glibcpp_u16_digits
# define __glibcpp_unsigned_long_digits10 __glibcpp_u16_digits10
#elif __LONG_BIT__ == 32
# define __glibcpp_signed_long_min __glibcpp_s32_min
# define __glibcpp_signed_long_max __glibcpp_s32_max
# define __glibcpp_signed_long_digits __glibcpp_s32_digits
# define __glibcpp_signed_long_digits10 __glibcpp_s32_digits10
# define __glibcpp_unsigned_long_min __glibcpp_u32_min
# define __glibcpp_unsigned_long_max __glibcpp_u32_max
# define __glibcpp_unsigned_long_digits __glibcpp_u32_digits
# define __glibcpp_unsigned_long_digits10 __glibcpp_u32_digits10
#elif __LONG_BIT__ == 64
# define __glibcpp_signed_long_min (long)__glibcpp_s64_min
# define __glibcpp_signed_long_max (long)__glibcpp_s64_max
# define __glibcpp_signed_long_digits __glibcpp_s64_digits
# define __glibcpp_signed_long_digits10 __glibcpp_s64_digits10
# define __glibcpp_unsigned_long_min (unsigned long)__glibcpp_u64_min
# define __glibcpp_unsigned_long_max (unsigned long)__glibcpp_u64_max
# define __glibcpp_unsigned_long_digits __glibcpp_u64_digits
# define __glibcpp_unsigned_long_digits10 __glibcpp_u64_digits10
#else
// You must define these macros in the configuration file.
#endif
// long long
#define __glibcpp_signed_long_long_traps true
#define __glibcpp_signed_long_long_traps true
#ifndef __glibcpp_signed_long_long_is_modulo
# define __glibcpp_signed_long_long_is_modulo true
#endif
#if __LONG_LONG_BIT__ == 8
# define __glibcpp_signed_long_long_min __glibcpp_s8_min
# define __glibcpp_signed_long_long_max __glibcpp_s8_max
# define __glibcpp_signed_long_long_digits __glibcpp_s8_digits
# define __glibcpp_signed_long_long_digits10 __glibcpp_s8_digits10
# define __glibcpp_unsigned_long_long_min __glibcpp_u8_min
# define __glibcpp_unsigned_long_long_max __glibcpp_u8_max
# define __glibcpp_unsigned_long_long_digits __glibcpp_u8_digits
# define __glibcpp_unsigned_long_long_digits10 __glibcpp_u8_digits10
#elif __LONG_LONG_BIT__ == 16
# define __glibcpp_signed_long_long_min __glibcpp_s16_min
# define __glibcpp_signed_long_long_max __glibcpp_s16_max
# define __glibcpp_signed_long_long_digits __glibcpp_s16_digits
# define __glibcpp_signed_long_long_digits10 __glibcpp_s16_digits10
# define __glibcpp_unsigned_long_long_min __glibcpp_u16_min
# define __glibcpp_unsigned_long_long_max __glibcpp_u16_max
# define __glibcpp_unsigned_long_long_digits __glibcpp_u16_digits
# define __glibcpp_unsigned_long_long_digits10 __glibcpp_u16_digits10
#elif __LONG_LONG_BIT__ == 32
# define __glibcpp_signed_long_long_min __glibcpp_s32_min
# define __glibcpp_signed_long_long_max __glibcpp_s32_max
# define __glibcpp_signed_long_long_digits __glibcpp_s32_digits
# define __glibcpp_signed_long_long_digits10 __glibcpp_s32_digits10
# define __glibcpp_unsigned_long_long_min __glibcpp_u32_min
# define __glibcpp_unsigned_long_long_max __glibcpp_u32_max
# define __glibcpp_unsigned_long_long_digits __glibcpp_u32_digits
# define __glibcpp_unsigned_long_long_digits10 __glibcpp_u32_digits10
#elif __LONG_LONG_BIT__ == 64
# define __glibcpp_signed_long_long_min __glibcpp_s64_min
# define __glibcpp_signed_long_long_max __glibcpp_s64_max
# define __glibcpp_signed_long_long_digits __glibcpp_s64_digits
# define __glibcpp_signed_long_long_digits10 __glibcpp_s64_digits10
# define __glibcpp_signed_long_long_traps true
# define __glibcpp_unsigned_long_long_min __glibcpp_u64_min
# define __glibcpp_unsigned_long_long_max __glibcpp_u64_max
# define __glibcpp_unsigned_long_long_digits __glibcpp_u64_digits
# define __glibcpp_unsigned_long_long_digits10 __glibcpp_u64_digits10
# define __glibcpp_unsigned_long_long_traps true
#else
// You must define these macros in the configuration file.
#endif
// wchar_t
#define __glibcpp_wchar_t_traps true
#ifndef __glibcpp_wchar_t_is_modulo
# define __glibcpp_wchar_t_is_modulo true
#endif
#if __glibcpp_wchar_t_is_signed
# if __WCHAR_BIT__ == 8
# define __glibcpp_wchar_t_min __glibcpp_s8_min
# define __glibcpp_wchar_t_max __glibcpp_s8_max
# define __glibcpp_wchar_t_digits __glibcpp_s8_digits
# define __glibcpp_wchar_t_digits10 __glibcpp_s8_digits10
# elif __WCHAR_BIT__ == 16
# define __glibcpp_wchar_t_min __glibcpp_s16_min
# define __glibcpp_wchar_t_max __glibcpp_s16_max
# define __glibcpp_wchar_t_digits __glibcpp_s16_digits
# define __glibcpp_wchar_t_digits10 __glibcpp_s16_digits10
# elif __WCHAR_BIT__ == 32
# define __glibcpp_wchar_t_min (wchar_t)__glibcpp_s32_min
# define __glibcpp_wchar_t_max (wchar_t)__glibcpp_s32_max
# define __glibcpp_wchar_t_digits __glibcpp_s32_digits
# define __glibcpp_wchar_t_digits10 __glibcpp_s32_digits10
# elif __WCHAR_BIT__ == 64
# define __glibcpp_wchar_t_min (wchar_t)__glibcpp_s64_min
# define __glibcpp_wchar_t_max (wchar_t)__glibcpp_s64_max
# define __glibcpp_wchar_t_digits __glibcpp_s64_digits
# define __glibcpp_wchar_t_digits10 __glibcpp_s64_digits10
# else
// You must define these macros in the configuration file.
# endif
#else
# if __WCHAR_BIT__ == 8
# define __glibcpp_wchar_t_min __glibcpp_u8_min
# define __glibcpp_wchar_t_max __glibcpp_u8_max
# define __glibcpp_wchar_t_digits __glibcpp_u8_digits
# define __glibcpp_wchar_t_digits10 __glibcpp_u8_digits10
# elif __WCHAR_BIT__ == 16
# define __glibcpp_wchar_t_min __glibcpp_u16_min
# define __glibcpp_wchar_t_max __glibcpp_u16_max
# define __glibcpp_wchar_t_digits __glibcpp_u16_digits
# define __glibcpp_wchar_t_digits10 __glibcpp_u16_digits10
# elif __WCHAR_BIT__ == 32
# define __glibcpp_wchar_t_min (wchar_t)__glibcpp_u32_min
# define __glibcpp_wchar_t_max (wchar_t)__glibcpp_u32_max
# define __glibcpp_wchar_t_digits __glibcpp_u32_digits
# define __glibcpp_wchar_t_digits10 __glibcpp_u32_digits10
# elif __WCHAR_BIT__ == 64
# define __glibcpp_wchar_t_min (wchar_t)__glibcpp_u64_min
# define __glibcpp_wchar_t_max (wchar_t)__glibcpp_u64_max
# define __glibcpp_wchar_t_digits __glibcpp_u64_digits
# define __glibcpp_wchar_t_digits10 __glibcpp_u64_digits10
# else
// You must define these macros in the configuration file.
# endif
#endif
// float
//
#if __FLOAT_BIT__ == 32
# define __glibcpp_float_min __glibcpp_f32_min
# define __glibcpp_float_max __glibcpp_f32_max
# define __glibcpp_float_digits __glibcpp_f32_digits
# define __glibcpp_float_digits10 __glibcpp_f32_digits10
# define __glibcpp_float_radix __glibcpp_f32_radix
# define __glibcpp_float_epsilon __glibcpp_f32_epsilon
# define __glibcpp_float_round_error __glibcpp_f32_round_error
# define __glibcpp_float_min_exponent __glibcpp_f32_min_exponent
# define __glibcpp_float_min_exponent10 __glibcpp_f32_min_exponent10
# define __glibcpp_float_max_exponent __glibcpp_f32_max_exponent
# define __glibcpp_float_max_exponent10 __glibcpp_f32_max_exponent10
# define __glibcpp_float_infinity_bytes __glibcpp_f32_infinity_bytes
# define __glibcpp_float_QNaN_bytes __glibcpp_f32_QNaN_bytes
# define __glibcpp_float_SNaN_bytes __glibcpp_f32_SNaN_bytes
# define __glibcpp_float_denorm_min_bytes __glibcpp_f32_denorm_min_bytes
# define __glibcpp_float_has_infinity __glibcpp_f32_has_infinity
# define __glibcpp_float_has_QNaN __glibcpp_f32_has_QNaN
# define __glibcpp_float_has_SNaN __glibcpp_f32_has_SNaN
# define __glibcpp_float_has_denorm __glibcpp_f32_has_denorm
# define __glibcpp_float_is_iec559 __glibcpp_f32_is_iec559
#elif __FLOAT_BIT__ == 64
# define __glibcpp_float_min __glibcpp_f64_min
# define __glibcpp_float_max __glibcpp_f64_max
# define __glibcpp_float_digits __glibcpp_f64_digits
# define __glibcpp_float_digits10 __glibcpp_f64_digits10
# define __glibcpp_float_radix __glibcpp_f64_radix
# define __glibcpp_float_epsilon __glibcpp_f64_epsilon
# define __glibcpp_float_round_error __glibcpp_f64_round_error
# define __glibcpp_float_min_exponent __glibcpp_f64_min_exponent
# define __glibcpp_float_min_exponent10 __glibcpp_f64_min_exponent10
# define __glibcpp_float_max_exponent __glibcpp_f64_max_exponent
# define __glibcpp_float_max_exponent10 __glibcpp_f64_max_exponent10
# define __glibcpp_float_infinity_bytes __glibcpp_f64_infinity_bytes
# define __glibcpp_float_QNaN_bytes __glibcpp_f64_QNaN_bytes
# define __glibcpp_float_SNaN_bytes __glibcpp_f64_SNaN_bytes
# define __glibcpp_float_denorm_min_bytes __glibcpp_f64_denorm_min_bytes
# define __glibcpp_float_has_infinity __glibcpp_f64_has_infinity
# define __glibcpp_float_has_QNaN __glibcpp_f64_has_QNaN
# define __glibcpp_float_has_SNaN __glibcpp_f64_has_SNaN
# define __glibcpp_float_has_denorm __glibcpp_f64_has_denorm
# define __glibcpp_float_is_iec559 __glibcpp_f64_is_iec559
#elif __FLOAT_BIT__ == 80
# define __glibcpp_float_min __glibcpp_f80_min
# define __glibcpp_float_max __glibcpp_f80_max
# define __glibcpp_float_digits __glibcpp_f80_digits
# define __glibcpp_float_digits10 __glibcpp_f80_digits10
# define __glibcpp_float_radix __glibcpp_f80_radix
# define __glibcpp_float_epsilon __glibcpp_f80_epsilon
# define __glibcpp_float_round_error __glibcpp_f80_round_error
# define __glibcpp_float_min_exponent __glibcpp_f80_min_exponent
# define __glibcpp_float_min_exponent10 __glibcpp_f80_min_exponent10
# define __glibcpp_float_max_exponent __glibcpp_f80_max_exponent
# define __glibcpp_float_max_exponent10 __glibcpp_f80_max_exponent10
# define __glibcpp_float_infinity_bytes __glibcpp_f80_infinity_bytes
# define __glibcpp_float_QNaN_bytes __glibcpp_f80_QNaN_bytes
# define __glibcpp_float_SNaN_bytes __glibcpp_f80_SNaN_bytes
# define __glibcpp_float_denorm_min_bytes __glibcpp_f80_denorm_min_bytes
# define __glibcpp_float_has_infinity __glibcpp_f80_has_infinity
# define __glibcpp_float_has_QNaN __glibcpp_f80_has_QNaN
# define __glibcpp_float_has_SNaN __glibcpp_f80_has_SNaN
# define __glibcpp_float_has_denorm __glibcpp_f80_has_denorm
# define __glibcpp_float_is_iec559 __glibcpp_f80_is_iec559
#else
// You must define these macros in the configuration file.
#endif
// Default values. Should be overriden in configuration files if necessary.
#ifndef __glibcpp_float_infinity_bytes
# define __glibcpp_float_infinity_bytes { }
# define __glibcpp_float_has_infinty false
#endif
#ifndef __glibcpp_float_QNaN_bytes
# define __glibcpp_float_QNaN_bytes { }
# define __glibcpp_float_has_QNaN false
#endif
#ifndef __glibcpp_float_SNaN_bytes
# define __glibcpp_float_SNaN_bytes { }
# define __glibcpp_float_has_SNaN false
#endif
#ifndef __glibcpp_float_denorm_min_bytes
# define __glibcpp_float_denorm_min_bytes { }
# define __glibcpp_float_has_denorm denorm_indeterminate
#endif
#ifndef __glibcpp_float_has_denorm_loss
# define __glibcpp_float_has_denorm_loss false
#endif
#ifndef __glibcpp_float_is_bounded
# define __glibcpp_float_is_bounded true
#endif
#ifndef __glibcpp_float_is_iec559
# define __glibcpp_float_is_iec559 false
#endif
#ifndef __glibcpp_float_is_modulo
# define __glibcpp_float_is_modulo false
#endif
#ifndef __glibcpp_float_traps
# define __glibcpp_float_traps false
#endif
#ifndef __glibcpp_float_tinyness_before
# define __glibcpp_float_tinyness_before false
#endif
#ifndef __glibcpp_float_round_style
# define __glibcpp_float_round_style round_toward_zero
#endif
// double
#if __DOUBLE_BIT__ == 32
# define __glibcpp_double_min __glibcpp_f32_min
# define __glibcpp_double_max __glibcpp_f32_max
# define __glibcpp_double_digits __glibcpp_f32_digits
# define __glibcpp_double_digits10 __glibcpp_f32_digits10
# define __glibcpp_double_radix __glibcpp_f32_radix
# define __glibcpp_double_epsilon __glibcpp_f32_epsilon
# define __glibcpp_double_round_error __glibcpp_f32_round_error
# define __glibcpp_double_min_exponent __glibcpp_f32_min_exponent
# define __glibcpp_double_min_exponent10 __glibcpp_f32_min_exponent10
# define __glibcpp_double_max_exponent __glibcpp_f32_max_exponent
# define __glibcpp_double_max_exponent10 __glibcpp_f32_max_exponent10
# define __glibcpp_double_infinity_bytes __glibcpp_f32_infinity_bytes
# define __glibcpp_double_QNaN_bytes __glibcpp_f32_QNaN_bytes
# define __glibcpp_double_SNaN_bytes __glibcpp_f32_SNaN_bytes
# define __glibcpp_double_denorm_min_bytes __glibcpp_f32_denorm_min_bytes
# define __glibcpp_double_has_infinity __glibcpp_f32_has_infinity
# define __glibcpp_double_has_QNaN __glibcpp_f32_has_QNaN
# define __glibcpp_double_has_SNaN __glibcpp_f32_has_SNaN
# define __glibcpp_double_has_denorm __glibcpp_f32_has_denorm
# define __glibcpp_double_is_iec559 __glibcpp_f32_is_iec559
#elif __DOUBLE_BIT__ == 64
# define __glibcpp_double_min __glibcpp_f64_min
# define __glibcpp_double_max __glibcpp_f64_max
# define __glibcpp_double_digits __glibcpp_f64_digits
# define __glibcpp_double_digits10 __glibcpp_f64_digits10
# define __glibcpp_double_radix __glibcpp_f64_radix
# define __glibcpp_double_epsilon __glibcpp_f64_epsilon
# define __glibcpp_double_round_error __glibcpp_f64_round_error
# define __glibcpp_double_min_exponent __glibcpp_f64_min_exponent
# define __glibcpp_double_min_exponent10 __glibcpp_f64_min_exponent10
# define __glibcpp_double_max_exponent __glibcpp_f64_max_exponent
# define __glibcpp_double_max_exponent10 __glibcpp_f64_max_exponent10
# define __glibcpp_double_infinity_bytes __glibcpp_f64_infinity_bytes
# define __glibcpp_double_QNaN_bytes __glibcpp_f64_QNaN_bytes
# define __glibcpp_double_SNaN_bytes __glibcpp_f64_SNaN_bytes
# define __glibcpp_double_denorm_min_bytes __glibcpp_f64_denorm_min_bytes
# define __glibcpp_double_has_infinity __glibcpp_f64_has_infinity
# define __glibcpp_double_has_QNaN __glibcpp_f64_has_QNaN
# define __glibcpp_double_has_SNaN __glibcpp_f64_has_SNaN
# define __glibcpp_double_has_denorm __glibcpp_f64_has_denorm
# define __glibcpp_double_is_iec559 __glibcpp_f64_is_iec559
#elif __DOUBLE_BIT__ == 80
# define __glibcpp_double_min __glibcpp_f80_min
# define __glibcpp_double_max __glibcpp_f80_max
# define __glibcpp_double_digits __glibcpp_f80_digits
# define __glibcpp_double_digits10 __glibcpp_f80_digits10
# define __glibcpp_double_radix __glibcpp_f80_radix
# define __glibcpp_double_epsilon __glibcpp_f80_epsilon
# define __glibcpp_double_round_error __glibcpp_f80_round_error
# define __glibcpp_double_min_exponent __glibcpp_f80_min_exponent
# define __glibcpp_double_min_exponent10 __glibcpp_f80_min_exponent10
# define __glibcpp_double_max_exponent __glibcpp_f80_max_exponent
# define __glibcpp_double_max_exponent10 __glibcpp_f80_max_exponent10
# define __glibcpp_double_infinity_bytes __glibcpp_f80_infinity_bytes
# define __glibcpp_double_QNaN_bytes __glibcpp_f80_QNaN_bytes
# define __glibcpp_double_SNaN_bytes __glibcpp_f80_SNaN_bytes
# define __glibcpp_double_denorm_min_bytes __glibcpp_f80_denorm_min_bytes
# define __glibcpp_double_has_infinity __glibcpp_f80_has_infinity
# define __glibcpp_double_has_QNaN __glibcpp_f80_has_QNaN
# define __glibcpp_double_has_SNaN __glibcpp_f80_has_SNaN
# define __glibcpp_double_has_denorm __glibcpp_f80_has_denorm
# define __glibcpp_double_is_iec559 __glibcpp_f80_is_iec559
#else
// You must define these macros in the configuration file.
#endif
// Default values. Should be overriden in configuration files if necessary.
#ifndef __glibcpp_double_infinity_bytes
# define __glibcpp_double_infinity_bytes { }
# define __glibcpp_double_has_infinty false
#endif
#ifndef __glibcpp_double_QNaN_bytes
# define __glibcpp_double_QNaN_bytes { }
# define __glibcpp_double_has_QNaN false
#endif
#ifndef __glibcpp_double_SNaN_bytes
# define __glibcpp_double_SNaN_bytes { }
# define __glibcpp_double_has_SNaN false
#endif
#ifndef __glibcpp_double_denorm_min_bytes
# define __glibcpp_double_denorm_min_bytes { }
# define __glibcpp_double_has_denorm denorm_indeterminate
#endif
#ifndef __glibcpp_double_has_denorm_loss
# define __glibcpp_double_has_denorm_loss false
#endif
#ifndef __glibcpp_double_is_iec559
# define __glibcpp_double_is_iec559 false
#endif
#ifndef __glibcpp_double_is_bounded
# define __glibcpp_double_is_bounded true
#endif
#ifndef __glibcpp_double_is_modulo
# define __glibcpp_double_is_modulo false
#endif
#ifndef __glibcpp_double_traps
# define __glibcpp_double_traps false
#endif
#ifndef __glibcpp_double_tinyness_before
# define __glibcpp_double_tinyness_before false
#endif
#ifndef __glibcpp_double_round_style
# define __glibcpp_double_round_style round_toward_zero
#endif
// long double
#if __LONG_DOUBLE_BIT__ == 32
# define __glibcpp_long_double_min __glibcpp_f32_min
# define __glibcpp_long_double_max __glibcpp_f32_max
# define __glibcpp_long_double_digits __glibcpp_f32_digits
# define __glibcpp_long_double_digits10 __glibcpp_f32_digits10
# define __glibcpp_long_double_radix __glibcpp_f32_radix
# define __glibcpp_long_double_epsilon __glibcpp_f32_epsilon
# define __glibcpp_long_double_round_error __glibcpp_f32_round_error
# define __glibcpp_long_double_min_exponent __glibcpp_f32_min_exponent
# define __glibcpp_long_double_min_exponent10 __glibcpp_f32_min_exponent10
# define __glibcpp_long_double_max_exponent __glibcpp_f32_max_exponent
# define __glibcpp_long_double_max_exponent10 __glibcpp_f32_max_exponent10
# define __glibcpp_long_double_infinity_bytes __glibcpp_f32_infinity_bytes
# define __glibcpp_long_double_QNaN_bytes __glibcpp_f32_QNaN_bytes
# define __glibcpp_long_double_SNaN_bytes __glibcpp_f32_SNaN_bytes
# define __glibcpp_long_double_denorm_min_bytes __glibcpp_f32_denorm_min_bytes
# define __glibcpp_long_double_has_infinity __glibcpp_f32_has_infinity
# define __glibcpp_long_double_has_QNaN __glibcpp_f32_has_QNaN
# define __glibcpp_long_double_has_SNaN __glibcpp_f32_has_SNaN
# define __glibcpp_long_double_has_denorm __glibcpp_f32_has_denorm
# define __glibcpp_long_double_is_iec559 __glibcpp_f32_is_iec559
#elif __LONG_DOUBLE_BIT__ == 64
# define __glibcpp_long_double_min __glibcpp_f64_min
# define __glibcpp_long_double_max __glibcpp_f64_max
# define __glibcpp_long_double_digits __glibcpp_f64_digits
# define __glibcpp_long_double_digits10 __glibcpp_f64_digits10
# define __glibcpp_long_double_radix __glibcpp_f64_radix
# define __glibcpp_long_double_epsilon __glibcpp_f64_epsilon
# define __glibcpp_long_double_round_error __glibcpp_f64_round_error
# define __glibcpp_long_double_min_exponent __glibcpp_f64_min_exponent
# define __glibcpp_long_double_min_exponent10 __glibcpp_f64_min_exponent10
# define __glibcpp_long_double_max_exponent __glibcpp_f64_max_exponent
# define __glibcpp_long_double_max_exponent10 __glibcpp_f64_max_exponent10
# define __glibcpp_long_double_infinity_bytes __glibcpp_f64_infinity_bytes
# define __glibcpp_long_double_QNaN_bytes __glibcpp_f64_QNaN_bytes
# define __glibcpp_long_double_SNaN_bytes __glibcpp_f64_SNaN_bytes
# define __glibcpp_long_double_denorm_min_bytes __glibcpp_f64_denorm_min_bytes
# define __glibcpp_long_double_has_infinity __glibcpp_f64_has_infinity
# define __glibcpp_long_double_has_QNaN __glibcpp_f64_has_QNaN
# define __glibcpp_long_double_has_SNaN __glibcpp_f64_has_SNaN
# define __glibcpp_long_double_has_denorm __glibcpp_f64_has_denorm
# define __glibcpp_long_double_is_iec559 __glibcpp_f64_is_iec559
#elif __LONG_DOUBLE_BIT__ == 80
# define __glibcpp_long_double_min __glibcpp_f80_min
# define __glibcpp_long_double_max __glibcpp_f80_max
# define __glibcpp_long_double_digits __glibcpp_f80_digits
# define __glibcpp_long_double_digits10 __glibcpp_f80_digits10
# define __glibcpp_long_double_radix __glibcpp_f80_radix
# define __glibcpp_long_double_epsilon __glibcpp_f80_epsilon
# define __glibcpp_long_double_round_error __glibcpp_f80_round_error
# define __glibcpp_long_double_min_exponent __glibcpp_f80_min_exponent
# define __glibcpp_long_double_min_exponent10 __glibcpp_f80_min_exponent10
# define __glibcpp_long_double_max_exponent __glibcpp_f80_max_exponent
# define __glibcpp_long_double_max_exponent10 __glibcpp_f80_max_exponent10
# define __glibcpp_long_double_infinity_bytes __glibcpp_f80_infinity_bytes
# define __glibcpp_long_double_QNaN_bytes __glibcpp_f80_QNaN_bytes
# define __glibcpp_long_double_SNaN_bytes __glibcpp_f80_SNaN_bytes
# define __glibcpp_long_double_denorm_min_bytes __glibcpp_f80_denorm_min_bytes
# define __glibcpp_long_double_has_infinity __glibcpp_f80_has_infinity
# define __glibcpp_long_double_has_QNaN __glibcpp_f80_has_QNaN
# define __glibcpp_long_double_has_SNaN __glibcpp_f80_has_SNaN
# define __glibcpp_long_double_has_denorm __glibcpp_f80_has_denorm
# define __glibcpp_long_double_is_iec559 __glibcpp_f80_is_iec559
#elif __LONG_DOUBLE_BIT__ == 96
# define __glibcpp_long_double_min __glibcpp_f96_min
# define __glibcpp_long_double_max __glibcpp_f96_max
# define __glibcpp_long_double_digits __glibcpp_f96_digits
# define __glibcpp_long_double_digits10 __glibcpp_f96_digits10
# define __glibcpp_long_double_radix __glibcpp_f96_radix
# define __glibcpp_long_double_epsilon __glibcpp_f96_epsilon
# define __glibcpp_long_double_round_error __glibcpp_f96_round_error
# define __glibcpp_long_double_min_exponent __glibcpp_f96_min_exponent
# define __glibcpp_long_double_min_exponent10 __glibcpp_f96_min_exponent10
# define __glibcpp_long_double_max_exponent __glibcpp_f96_max_exponent
# define __glibcpp_long_double_max_exponent10 __glibcpp_f96_max_exponent10
# define __glibcpp_long_double_infinity_bytes __glibcpp_f96_infinity_bytes
# define __glibcpp_long_double_QNaN_bytes __glibcpp_f96_QNaN_bytes
# define __glibcpp_long_double_SNaN_bytes __glibcpp_f96_SNaN_bytes
# define __glibcpp_long_double_denorm_min_bytes __glibcpp_f96_denorm_min_bytes
# define __glibcpp_long_double_has_infinity __glibcpp_f96_has_infinity
# define __glibcpp_long_double_has_QNaN __glibcpp_f96_has_QNaN
# define __glibcpp_long_double_has_SNaN __glibcpp_f96_has_SNaN
# define __glibcpp_long_double_has_denorm __glibcpp_f96_has_denorm
# define __glibcpp_long_double_is_iec559 __glibcpp_f96_is_iec559
#elif __LONG_DOUBLE_BIT__ == 128
# define __glibcpp_long_double_min __glibcpp_f128_min
# define __glibcpp_long_double_max __glibcpp_f128_max
# define __glibcpp_long_double_digits __glibcpp_f128_digits
# define __glibcpp_long_double_digits10 __glibcpp_f128_digits10
# define __glibcpp_long_double_radix __glibcpp_f128_radix
# define __glibcpp_long_double_epsilon __glibcpp_f128_epsilon
# define __glibcpp_long_double_round_error __glibcpp_f128_round_error
# define __glibcpp_long_double_min_exponent __glibcpp_f128_min_exponent
# define __glibcpp_long_double_min_exponent10 __glibcpp_f128_min_exponent10
# define __glibcpp_long_double_max_exponent __glibcpp_f128_max_exponent
# define __glibcpp_long_double_max_exponent10 __glibcpp_f128_max_exponent10
# define __glibcpp_long_double_infinity_bytes __glibcpp_f128_infinity_bytes
# define __glibcpp_long_double_QNaN_bytes __glibcpp_f128_QNaN_bytes
# define __glibcpp_long_double_SNaN_bytes __glibcpp_f128_SNaN_bytes
# define __glibcpp_long_double_denorm_min_bytes __glibcpp_f128_denorm_min_bytes
# define __glibcpp_long_double_has_infinity __glibcpp_f128_has_infinity
# define __glibcpp_long_double_has_QNaN __glibcpp_f128_has_QNaN
# define __glibcpp_long_double_has_SNaN __glibcpp_f128_has_SNaN
# define __glibcpp_long_double_has_denorm __glibcpp_f128_has_denorm
# define __glibcpp_long_double_is_iec559 __glibcpp_f128_is_iec559
#else
// You must define these macros in the configuration file.
#endif
// Default values. Should be overriden in configuration files if necessary.
#ifndef __glibcpp_long_double_infinity_bytes
# define __glibcpp_long_double_infinity_bytes { }
# define __glibcpp_long_double_has_infinty false
#endif
#ifndef __glibcpp_long_double_QNaN_bytes
# define __glibcpp_long_double_QNaN_bytes { }
# define __glibcpp_long_double_has_QNaN false
#endif
#ifndef __glibcpp_long_double_SNaN_bytes
# define __glibcpp_long_double_SNaN_bytes { }
# define __glibcpp_long_double_has_SNaN false
#endif
#ifndef __glibcpp_long_double_denorm_min_bytes
# define __glibcpp_long_double_denorm_min_bytes { }
# define __glibcpp_long_double_has_denorm denorm_indeterminate
#endif
#ifndef __glibcpp_long_double_has_denorm_loss
# define __glibcpp_long_double_has_denorm_loss false
#endif
#ifndef __glibcpp_long_double_is_iec559
# define __glibcpp_long_double_is_iec559 false
#endif
#ifndef __glibcpp_long_double_is_bounded
# define __glibcpp_long_double_is_bounded true
#endif
#ifndef __glibcpp_long_double_is_modulo
# define __glibcpp_long_double_is_modulo false
#endif
#ifndef __glibcpp_long_double_traps
# define __glibcpp_long_double_traps false
#endif
#ifndef __glibcpp_long_double_tinyness_before
# define __glibcpp_long_double_tinyness_before false
#endif
#ifndef __glibcpp_long_double_round_style
# define __glibcpp_long_double_round_style round_toward_zero
#endif
namespace std
{
// This is better handled by the compiler, but we do it here for the
// time being. (We're just second-guessing something the compiler
// knows about better than we do.) -- Gaby
typedef unsigned char __glibcpp_byte;
#define __glibcpp_word_bits 32
#if __CHAR_BIT__ == __glibcpp_word_bits
# define __glibcpp_word unsigned char
#elif __SHRT_BIT__ == __glibcpp_word_bits
# define __glibcpp_word unsigned short
#elif __INT_BIT__ == __glibcpp_word_bits
# define __glibcpp_word unsigned int
#elif __LONG_BIT__ == __glibcpp_word_bits
# define __glibcpp_word unsigned long
#endif
// Define storage types for the single, double and extended floating
// point data types. Maybe we could avoid the conditional #defines by
// using the aligned_storage<> extension. -- Gaby
typedef const
#if __FLOAT_BIT__ % __glibcpp_word_bits == 0
__glibcpp_word __float_storage[sizeof (float) / sizeof (__glibcpp_word)]
#else
__glibcpp_byte __float_storage[sizeof (float)]
#endif
__attribute__((__aligned__(__alignof__(float))));
typedef const
#if __DOUBLE_BIT__ % __glibcpp_word_bits == 0
__glibcpp_word __double_storage[sizeof (double) / sizeof (__glibcpp_word)]
#else
__glibcpp_byte __double_storage[sizeof (double)]
#endif
__attribute__((__aligned__(__alignof__(double))));
typedef const
#if __LONG_DOUBLE_BIT__ % __glibcpp_word_bits == 0
__glibcpp_word __long_double_storage[sizeof (long double) / sizeof (__glibcpp_word)]
#else
__glibcpp_byte __long_double_storage[sizeof (long double)]
#endif
__attribute__((__aligned__(__alignof__(long double))));
extern const __float_storage __glibcpp_float_infinity;
extern const __float_storage __glibcpp_float_QNaN;
extern const __float_storage __glibcpp_float_SNaN;
extern const __float_storage __glibcpp_float_denorm_min;
extern const __double_storage __glibcpp_double_infinity;
extern const __double_storage __glibcpp_double_QNaN;
extern const __double_storage __glibcpp_double_SNaN;
extern const __double_storage __glibcpp_double_denorm_min;
extern const __long_double_storage __glibcpp_long_double_infinity;
extern const __long_double_storage __glibcpp_long_double_QNaN;
extern const __long_double_storage __glibcpp_long_double_SNaN;
extern const __long_double_storage __glibcpp_long_double_denorm_min;
enum float_round_style
{
round_indeterminate = -1,
round_toward_zero = 0,
round_to_nearest = 1,
round_toward_infinity = 2,
round_toward_neg_infinity = 3
};
enum float_denorm_style
{
denorm_indeterminate = -1,
denorm_absent = 0,
denorm_present = 1
};
//
// The primary class traits
//
struct __numeric_limits_base
{
static const bool is_specialized = false;
static const int digits = 0;
static const int digits10 = 0;
static const bool is_signed = false;
static const bool is_integer = false;
static const bool is_exact = false;
static const int radix = 0;
static const int min_exponent = 0;
static const int min_exponent10 = 0;
static const int max_exponent = 0;
static const int max_exponent10 = 0;
static const bool has_infinity = false;
static const bool has_quiet_NaN = false;
static const bool has_signaling_NaN = false;
static const float_denorm_style has_denorm = denorm_absent;
static const bool has_denorm_loss = false;
static const bool is_iec559 = false;
static const bool is_bounded = false;
static const bool is_modulo = false;
static const bool traps = false;
static const bool tinyness_before = false;
static const float_round_style round_style = round_toward_zero;
};
template<typename _Tp>
struct numeric_limits : public __numeric_limits_base
{
static _Tp min() throw() { return static_cast<_Tp>(0); }
static _Tp max() throw() { return static_cast<_Tp>(0); }
static _Tp epsilon() throw() { return static_cast<_Tp>(0); }
static _Tp round_error() throw() { return static_cast<_Tp>(0); }
static _Tp infinity() throw() { return static_cast<_Tp>(0); }
static _Tp quiet_NaN() throw() { return static_cast<_Tp>(0); }
static _Tp signaling_NaN() throw() { return static_cast<_Tp>(0); }
static _Tp denorm_min() throw() { return static_cast<_Tp>(0); }
};
// Now there follow 15 explicit specializations. Yes, 15. Make sure
// you get the count right.
template<>
struct numeric_limits<bool>
{
static const bool is_specialized = true;
static bool min() throw()
{ return false; }
static bool max() throw()
{ return true; }
static const int digits = __glibcpp_bool_digits;
static const int digits10 = 0;
static const bool is_signed = false;
static const bool is_integer = true;
static const bool is_exact = true;
static const int radix = 2;
static bool epsilon() throw()
{ return false; }
static bool round_error() throw()
{ return false; }
static const int min_exponent = 0;
static const int min_exponent10 = 0;
static const int max_exponent = 0;
static const int max_exponent10 = 0;
static const bool has_infinity = false;
static const bool has_quiet_NaN = false;
static const bool has_signaling_NaN = false;
static const float_denorm_style has_denorm = denorm_absent;
static const bool has_denorm_loss = false;
static bool infinity() throw()
{ return false; }
static bool quiet_NaN() throw()
{ return false; }
static bool signaling_NaN() throw()
{ return false; }
static bool denorm_min() throw()
{ return false; }
static const bool is_iec559 = false;
static const bool is_bounded = true;
static const bool is_modulo = false;
// It is not clear what it means for a boolean type to trap.
// This is a DR on the LWG issue list. Here, I use integer
// promotion semantics.
static const bool traps = __glibcpp_signed_int_traps
|| __glibcpp_signed_long_traps;
static const bool tinyness_before = false;
static const float_round_style round_style = round_toward_zero;
};
#undef __glibcpp_bool_digits
template<>
struct numeric_limits<char>
{
static const bool is_specialized = true;
static char min() throw()
{ return __glibcpp_char_min; }
static char max() throw()
{ return __glibcpp_char_max; }
static const int digits = __glibcpp_char_digits;
static const int digits10 = __glibcpp_char_digits10;
static const bool is_signed = __glibcpp_plain_char_is_signed;
static const bool is_integer = true;
static const bool is_exact = true;
static const int radix = 2;
static char epsilon() throw()
{ return char(); }
static char round_error() throw()
{ return char(); }
static const int min_exponent = 0;
static const int min_exponent10 = 0;
static const int max_exponent = 0;
static const int max_exponent10 = 0;
static const bool has_infinity = false;
static const bool has_quiet_NaN = false;
static const bool has_signaling_NaN = false;
static const float_denorm_style has_denorm = denorm_absent;
static const bool has_denorm_loss = false;
static char infinity() throw()
{ return char(); }
static char quiet_NaN() throw()
{ return char(); }
static char signaling_NaN() throw()
{ return char(); }
static char denorm_min() throw()
{ return static_cast<char>(0); }
static const bool is_iec559 = false;
static const bool is_bounded = true;
static const bool is_modulo = __glibcpp_char_is_modulo;
static const bool traps = __glibcpp_char_traps;
static const bool tinyness_before = false;
static const float_round_style round_style = round_toward_zero;
};
#undef __glibcpp_char_min
#undef __glibcpp_char_max
#undef __glibcpp_char_digits
#undef __glibcpp_char_digits10
#undef __glibcpp_char_is_signed
#undef __glibcpp_char_is_modulo
#undef __glibcpp_char_traps
template<>
struct numeric_limits<signed char>
{
static const bool is_specialized = true;
static signed char min() throw()
{ return __glibcpp_signed_char_min; }
static signed char max() throw()
{ return __glibcpp_signed_char_max; }
static const int digits = __glibcpp_signed_char_digits;
static const int digits10 = __glibcpp_signed_char_digits10;
static const bool is_signed = true;
static const bool is_integer = true;
static const bool is_exact = true;
static const int radix = 2;
static signed char epsilon() throw()
{ return 0; }
static signed char round_error() throw()
{ return 0; }
static const int min_exponent = 0;
static const int min_exponent10 = 0;
static const int max_exponent = 0;
static const int max_exponent10 = 0;
static const bool has_infinity = false;
static const bool has_quiet_NaN = false;
static const bool has_signaling_NaN = false;
static const float_denorm_style has_denorm = denorm_absent;
static const bool has_denorm_loss = false;
static signed char infinity() throw()
{ return static_cast<signed char>(0); }
static signed char quiet_NaN() throw()
{ return static_cast<signed char>(0); }
static signed char signaling_NaN() throw()
{ return static_cast<signed char>(0); }
static signed char denorm_min() throw()
{ return static_cast<signed char>(0); }
static const bool is_iec559 = false;
static const bool is_bounded = true;
static const bool is_modulo = __glibcpp_signed_char_is_modulo;
static const bool traps = __glibcpp_signed_char_traps;
static const bool tinyness_before = false;
static const float_round_style round_style = round_toward_zero;
};
#undef __glibcpp_signed_char_min
#undef __glibcpp_signed_char_max
#undef __glibcpp_signed_char_digits
#undef __glibcpp_signed_char_digits10
#undef __glibcpp_signed_char_is_modulo
#undef __glibcpp_signed_char_traps
template<>
struct numeric_limits<unsigned char>
{
static const bool is_specialized = true;
static unsigned char min() throw()
{ return 0; }
static unsigned char max() throw()
{ return __glibcpp_unsigned_char_max; }
static const int digits = __glibcpp_unsigned_char_digits;
static const int digits10 = __glibcpp_unsigned_char_digits10;
static const bool is_signed = false;
static const bool is_integer = true;
static const bool is_exact = true;
static const int radix = 2;
static unsigned char epsilon() throw()
{ return 0; }
static unsigned char round_error() throw()
{ return 0; }
static const int min_exponent = 0;
static const int min_exponent10 = 0;
static const int max_exponent = 0;
static const int max_exponent10 = 0;
static const bool has_infinity = false;
static const bool has_quiet_NaN = false;
static const bool has_signaling_NaN = false;
static const float_denorm_style has_denorm = denorm_absent;
static const bool has_denorm_loss = false;
static unsigned char infinity() throw()
{ return static_cast<unsigned char>(0); }
static unsigned char quiet_NaN() throw()
{ return static_cast<unsigned char>(0); }
static unsigned char signaling_NaN() throw()
{ return static_cast<unsigned char>(0); }
static unsigned char denorm_min() throw()
{ return static_cast<unsigned char>(0); }
static const bool is_iec559 = false;
static const bool is_bounded = true;
static const bool is_modulo = true;
static const bool traps = __glibcpp_unsigned_char_traps;
static const bool tinyness_before = false;
static const float_round_style round_style = round_toward_zero;
};
#undef __glibcpp_unsigned_char_max
#undef __glibcpp_unsigned_char_digits
#undef __glibcpp_unsigned_char_digits10
#undef __glibcpp_unsigned_char_traps
template<>
struct numeric_limits<wchar_t>
{
static const bool is_specialized = true;
static wchar_t min() throw()
{ return __glibcpp_wchar_t_min; }
static wchar_t max() throw()
{ return __glibcpp_wchar_t_max; }
static const int digits = __glibcpp_wchar_t_digits;
static const int digits10 = __glibcpp_wchar_t_digits10;
static const bool is_signed = __glibcpp_wchar_t_is_signed;
static const bool is_integer = true;
static const bool is_exact = true;
static const int radix = 2;
static wchar_t epsilon() throw()
{ return 0; }
static wchar_t round_error() throw()
{ return 0; }
static const int min_exponent = 0;
static const int min_exponent10 = 0;
static const int max_exponent = 0;
static const int max_exponent10 = 0;
static const bool has_infinity = false;
static const bool has_quiet_NaN = false;
static const bool has_signaling_NaN = false;
static const float_denorm_style has_denorm = denorm_absent;
static const bool has_denorm_loss = false;
static wchar_t infinity() throw()
{ return wchar_t(); }
static wchar_t quiet_NaN() throw()
{ return wchar_t(); }
static wchar_t signaling_NaN() throw()
{ return wchar_t(); }
static wchar_t denorm_min() throw()
{ return wchar_t(); }
static const bool is_iec559 = false;
static const bool is_bounded = true;
static const bool is_modulo = __glibcpp_wchar_t_is_modulo;
static const bool traps = __glibcpp_wchar_t_traps;
static const bool tinyness_before = false;
static const float_round_style round_style = round_toward_zero;
};
#undef __glibcpp_wchar_t_min
#undef __glibcpp_wchar_t_max
#undef __glibcpp_wchar_t_digits
#undef __glibcpp_wchar_t_digits10
#undef __glibcpp_wchar_t_is_signed
#undef __glibcpp_wchar_t_is_modulo
#undef __glibcpp_wchar_t_traps
template<>
struct numeric_limits<short>
{
static const bool is_specialized = true;
static short min() throw()
{ return __glibcpp_signed_short_min; }
static short max() throw()
{ return __glibcpp_signed_short_max; }
static const int digits = __glibcpp_signed_short_digits;
static const int digits10 = __glibcpp_signed_short_digits10;
static const bool is_signed = true;
static const bool is_integer = true;
static const bool is_exact = true;
static const int radix = 2;
static short epsilon() throw()
{ return 0; }
static short round_error() throw()
{ return 0; }
static const int min_exponent = 0;
static const int min_exponent10 = 0;
static const int max_exponent = 0;
static const int max_exponent10 = 0;
static const bool has_infinity = false;
static const bool has_quiet_NaN = false;
static const bool has_signaling_NaN = false;
static const float_denorm_style has_denorm = denorm_absent;
static const bool has_denorm_loss = false;
static short infinity() throw()
{ return short(); }
static short quiet_NaN() throw()
{ return short(); }
static short signaling_NaN() throw()
{ return short(); }
static short denorm_min() throw()
{ return short(); }
static const bool is_iec559 = true;
static const bool is_bounded = true;
static const bool is_modulo = __glibcpp_signed_short_is_modulo;
static const bool traps = __glibcpp_signed_short_traps;
static const bool tinyness_before = false;
static const float_round_style round_style = round_toward_zero;
};
#undef __glibcpp_signed_short_min
#undef __glibcpp_signed_short_max
#undef __glibcpp_signed_short_digits
#undef __glibcpp_signed_short_digits10
#undef __glibcpp_signed_short_is_modulo
#undef __glibcpp_signed_short_traps
template<>
struct numeric_limits<unsigned short>
{
static const bool is_specialized = true;
static unsigned short min() throw()
{ return 0; }
static unsigned short max() throw()
{ return __glibcpp_unsigned_short_max; }
static const int digits = __glibcpp_unsigned_short_digits;
static const int digits10 = __glibcpp_unsigned_short_digits10;
static const bool is_signed = false;
static const bool is_integer = true;
static const bool is_exact = true;
static const int radix = 2;
static unsigned short epsilon() throw()
{ return 0; }
static unsigned short round_error() throw()
{ return 0; }
static const int min_exponent = 0;
static const int min_exponent10 = 0;
static const int max_exponent = 0;
static const int max_exponent10 = 0;
static const bool has_infinity = false;
static const bool has_quiet_NaN = false;
static const bool has_signaling_NaN = false;
static const float_denorm_style has_denorm = denorm_absent;
static const bool has_denorm_loss = false;
static unsigned short infinity() throw()
{ return static_cast<unsigned short>(0); }
static unsigned short quiet_NaN() throw()
{ return static_cast<unsigned short>(0); }
static unsigned short signaling_NaN() throw()
{ return static_cast<unsigned short>(0); }
static unsigned short denorm_min() throw()
{ return static_cast<unsigned short>(0); }
static const bool is_iec559 = true;
static const bool is_bounded = true;
static const bool is_modulo = true;
static const bool traps = __glibcpp_unsigned_short_traps;
static const bool tinyness_before = false;
static const float_round_style round_style = round_toward_zero;
};
#undef __glibcpp_unsigned_short_max
#undef __glibcpp_unsigned_short_digits
#undef __glibcpp_unsigned_short_digits10
#undef __glibcpp_unsigned_short_traps
template<>
struct numeric_limits<int>
{
static const bool is_specialized = true;
static int min() throw()
{ return __glibcpp_signed_int_min; }
static int max() throw()
{ return __glibcpp_signed_int_max; }
static const int digits = __glibcpp_signed_int_digits;
static const int digits10 = __glibcpp_signed_int_digits10;
static const bool is_signed = true;
static const bool is_integer = true;
static const bool is_exact = true;
static const int radix = 2;
static int epsilon() throw()
{ return 0; }
static int round_error() throw()
{ return 0; }
static const int min_exponent = 0;
static const int min_exponent10 = 0;
static const int max_exponent = 0;
static const int max_exponent10 = 0;
static const bool has_infinity = false;
static const bool has_quiet_NaN = false;
static const bool has_signaling_NaN = false;
static const float_denorm_style has_denorm = denorm_absent;
static const bool has_denorm_loss = false;
static int infinity() throw()
{ return static_cast<int>(0); }
static int quiet_NaN() throw()
{ return static_cast<int>(0); }
static int signaling_NaN() throw()
{ return static_cast<int>(0); }
static int denorm_min() throw()
{ return static_cast<int>(0); }
static const bool is_iec559 = true;
static const bool is_bounded = true;
static const bool is_modulo = __glibcpp_signed_int_is_modulo;
static const bool traps = __glibcpp_signed_int_traps;
static const bool tinyness_before = false;
static const float_round_style round_style = round_toward_zero;
};
#undef __glibcpp_signed_int_min
#undef __glibcpp_signed_int_max
#undef __glibcpp_signed_int_digits
#undef __glibcpp_signed_int_digits10
#undef __glibcpp_signed_int_is_modulo
#undef __glibcpp_signed_int_traps
template<>
struct numeric_limits<unsigned int>
{
static const bool is_specialized = true;
static unsigned int min() throw()
{ return 0; }
static unsigned int max() throw()
{ return __glibcpp_unsigned_int_max; }
static const int digits = __glibcpp_unsigned_int_digits;
static const int digits10 = __glibcpp_unsigned_int_digits10;
static const bool is_signed = false;
static const bool is_integer = true;
static const bool is_exact = true;
static const int radix = 2;
static unsigned int epsilon() throw()
{ return 0; }
static unsigned int round_error() throw()
{ return 0; }
static const int min_exponent = 0;
static const int min_exponent10 = 0;
static const int max_exponent = 0;
static const int max_exponent10 = 0;
static const bool has_infinity = false;
static const bool has_quiet_NaN = false;
static const bool has_signaling_NaN = false;
static const float_denorm_style has_denorm = denorm_absent;
static const bool has_denorm_loss = false;
static unsigned int infinity() throw()
{ return static_cast<unsigned int>(0); }
static unsigned int quiet_NaN() throw()
{ return static_cast<unsigned int>(0); }
static unsigned int signaling_NaN() throw()
{ return static_cast<unsigned int>(0); }
static unsigned int denorm_min() throw()
{ return static_cast<unsigned int>(0); }
static const bool is_iec559 = true;
static const bool is_bounded = true;
static const bool is_modulo = true;
static const bool traps = __glibcpp_unsigned_int_traps;
static const bool tinyness_before = false;
static const float_round_style round_style = round_toward_zero;
};
#undef __glibcpp_unsigned_int_max
#undef __glibcpp_unsigned_int_digits
#undef __glibcpp_unsigned_int_digits10
#undef __glibcpp_unsigned_int_traps
template<>
struct numeric_limits<long>
{
static const bool is_specialized = true;
static long min() throw()
{ return __glibcpp_signed_long_min; }
static long max() throw()
{ return __glibcpp_signed_long_max; }
static const int digits = __glibcpp_signed_long_digits;
static const int digits10 = __glibcpp_signed_long_digits10;
static const bool is_signed = true;
static const bool is_integer = true;
static const bool is_exact = true;
static const int radix = 2;
static long epsilon() throw()
{ return 0; }
static long round_error() throw()
{ return 0; }
static const int min_exponent = 0;
static const int min_exponent10 = 0;
static const int max_exponent = 0;
static const int max_exponent10 = 0;
static const bool has_infinity = false;
static const bool has_quiet_NaN = false;
static const bool has_signaling_NaN = false;
static const float_denorm_style has_denorm = denorm_absent;
static const bool has_denorm_loss = false;
static long infinity() throw()
{ return static_cast<long>(0); }
static long quiet_NaN() throw()
{ return static_cast<long>(0); }
static long signaling_NaN() throw()
{ return static_cast<long>(0); }
static long denorm_min() throw()
{ return static_cast<long>(0); }
static const bool is_iec559 = true;
static const bool is_bounded = true;
static const bool is_modulo = __glibcpp_signed_long_is_modulo;
static const bool traps = __glibcpp_signed_long_traps;
static const bool tinyness_before = false;
static const float_round_style round_style = round_toward_zero;
};
#undef __glibcpp_signed_long_min
#undef __glibcpp_signed_long_max
#undef __glibcpp_signed_long_digits
#undef __glibcpp_signed_long_digits10
#undef __glibcpp_signed_long_is_modulo
#undef __glibcpp_signed_long_traps
template<>
struct numeric_limits<unsigned long>
{
static const bool is_specialized = true;
static unsigned long min() throw()
{ return 0; }
static unsigned long max() throw()
{ return __glibcpp_unsigned_long_max; }
static const int digits = __glibcpp_unsigned_long_digits;
static const int digits10 = __glibcpp_unsigned_long_digits10;
static const bool is_signed = false;
static const bool is_integer = true;
static const bool is_exact = true;
static const int radix = 2;
static unsigned long epsilon() throw()
{ return 0; }
static unsigned long round_error() throw()
{ return 0; }
static const int min_exponent = 0;
static const int min_exponent10 = 0;
static const int max_exponent = 0;
static const int max_exponent10 = 0;
static const bool has_infinity = false;
static const bool has_quiet_NaN = false;
static const bool has_signaling_NaN = false;
static const float_denorm_style has_denorm = denorm_absent;
static const bool has_denorm_loss = false;
static unsigned long infinity() throw()
{ return static_cast<unsigned long>(0); }
static unsigned long quiet_NaN() throw()
{ return static_cast<unsigned long>(0); }
static unsigned long signaling_NaN() throw()
{ return static_cast<unsigned long>(0); }
static unsigned long denorm_min() throw()
{ return static_cast<unsigned long>(0); }
static const bool is_iec559 = true;
static const bool is_bounded = true;
static const bool is_modulo = true;
static const bool traps = __glibcpp_unsigned_long_traps;
static const bool tinyness_before = false;
static const float_round_style round_style = round_toward_zero;
};
#undef __glibcpp_unsigned_long_max
#undef __glibcpp_unsigned_long_digits
#undef __glibcpp_unsigned_long_digits10
#undef __glibcpp_unsigned_long_traps
template<>
struct numeric_limits<long long>
{
static const bool is_specialized = true;
static long long min() throw()
{ return __glibcpp_signed_long_long_min; }
static long long max() throw()
{ return __glibcpp_signed_long_long_max; }
static const int digits = __glibcpp_signed_long_long_digits;
static const int digits10 = __glibcpp_signed_long_long_digits10;
static const bool is_signed = true;
static const bool is_integer = true;
static const bool is_exact = true;
static const int radix = 2;
static long long epsilon() throw()
{ return 0; }
static long long round_error() throw()
{ return 0; }
static const int min_exponent = 0;
static const int min_exponent10 = 0;
static const int max_exponent = 0;
static const int max_exponent10 = 0;
static const bool has_infinity = false;
static const bool has_quiet_NaN = false;
static const bool has_signaling_NaN = false;
static const float_denorm_style has_denorm = denorm_absent;
static const bool has_denorm_loss = false;
static long long infinity() throw()
{ return static_cast<long long>(0); }
static long long quiet_NaN() throw()
{ return static_cast<long long>(0); }
static long long signaling_NaN() throw()
{ return static_cast<long long>(0); }
static long long denorm_min() throw()
{ return static_cast<long long>(0); }
static const bool is_iec559 = true;
static const bool is_bounded = true;
static const bool is_modulo = __glibcpp_signed_long_long_is_modulo;
static const bool traps = __glibcpp_signed_long_long_traps;
static const bool tinyness_before = false;
static const float_round_style round_style = round_toward_zero;
};
#undef __glibcpp_signed_long_long_min
#undef __glibcpp_signed_long_long_max
#undef __glibcpp_signed_long_long_digits
#undef __glibcpp_signed_long_long_digits10
#undef __glibcpp_signed_long_long_is_modulo
#undef __glibcpp_signed_long_long_traps
template<>
struct numeric_limits<unsigned long long>
{
static const bool is_specialized = true;
static unsigned long long min() throw()
{ return 0; }
static unsigned long long max() throw()
{ return __glibcpp_unsigned_long_long_max; }
static const int digits = __glibcpp_unsigned_long_long_digits;
static const int digits10 = __glibcpp_unsigned_long_long_digits10;
static const bool is_signed = false;
static const bool is_integer = true;
static const bool is_exact = true;
static const int radix = 2;
static unsigned long long epsilon() throw()
{ return 0; }
static unsigned long long round_error() throw()
{ return 0; }
static const int min_exponent = 0;
static const int min_exponent10 = 0;
static const int max_exponent = 0;
static const int max_exponent10 = 0;
static const bool has_infinity = false;
static const bool has_quiet_NaN = false;
static const bool has_signaling_NaN = false;
static const float_denorm_style has_denorm = denorm_absent;
static const bool has_denorm_loss = false;
static unsigned long long infinity() throw()
{ return static_cast<unsigned long long>(0); }
static unsigned long long quiet_NaN() throw()
{ return static_cast<unsigned long long>(0); }
static unsigned long long signaling_NaN() throw()
{ return static_cast<unsigned long long>(0); }
static unsigned long long denorm_min() throw()
{ return static_cast<unsigned long long>(0); }
static const bool is_iec559 = true;
static const bool is_bounded = true;
static const bool is_modulo = true;
static const bool traps = true;
static const bool tinyness_before = false;
static const float_round_style round_style = round_toward_zero;
};
#undef __glibcpp_unsigned_long_long_max
#undef __glibcpp_unsigned_long_long_digits
#undef __glibcpp_unsigned_long_long_digits10
#undef __glibcpp_unsigned_long_long_traps
template<>
struct numeric_limits<float>
{
static const bool is_specialized = true;
static float min() throw()
{ return __glibcpp_float_min; }
static float max() throw()
{ return __glibcpp_float_max; }
static const int digits = __glibcpp_float_digits;
static const int digits10 = __glibcpp_float_digits10;
static const bool is_signed = true;
static const bool is_integer = false;
static const bool is_exact = false;
static const int radix = __glibcpp_float_radix;
static float epsilon() throw()
{ return __glibcpp_float_epsilon; }
static float round_error() throw()
{ return __glibcpp_float_round_error; }
static const int min_exponent = __glibcpp_float_min_exponent;
static const int min_exponent10 = __glibcpp_float_min_exponent10;
static const int max_exponent = __glibcpp_float_max_exponent;
static const int max_exponent10 = __glibcpp_float_max_exponent10;
static const bool has_infinity = __glibcpp_float_has_infinity;
static const bool has_quiet_NaN = __glibcpp_float_has_QNaN;
static const bool has_signaling_NaN = __glibcpp_float_has_SNaN;
static const float_denorm_style has_denorm = __glibcpp_float_has_denorm;
static const bool has_denorm_loss = __glibcpp_float_has_denorm_loss;
static float infinity() throw()
{ return *reinterpret_cast<const float*>(__glibcpp_float_infinity); }
static float quiet_NaN() throw()
{ return *reinterpret_cast<const float*>(__glibcpp_float_QNaN); }
static float signaling_NaN() throw()
{ return *reinterpret_cast<const float*>(__glibcpp_float_SNaN); }
static float denorm_min() throw()
{ return *reinterpret_cast<const float*>(__glibcpp_float_denorm_min); }
static const bool is_iec559 = __glibcpp_float_is_iec559;
static const bool is_bounded = __glibcpp_float_is_bounded;
static const bool is_modulo = __glibcpp_float_is_modulo;
static const bool traps = __glibcpp_float_traps;
static const bool tinyness_before = __glibcpp_float_tinyness_before;
static const float_round_style round_style = __glibcpp_float_round_style;
};
#undef __glibcpp_float_min
#undef __glibcpp_float_max
#undef __glibcpp_float_digits
#undef __glibcpp_float_digits10
#undef __glibcpp_float_radix
#undef __glibcpp_float_round_error
#undef __glibcpp_float_min_exponent
#undef __glibcpp_float_min_exponent10
#undef __glibcpp_float_max_exponent
#undef __glibcpp_float_max_exponent10
#undef __glibcpp_float_has_infinity
#undef __glibcpp_float_has_QNaN
#undef __glibcpp_float_has_SNaN
#undef __glibcpp_float_has_denorm
#undef __glibcpp_float_has_denorm_loss
#undef __glibcpp_float_is_iec559
#undef __glibcpp_float_is_bounded
#undef __glibcpp_float_is_modulo
#undef __glibcpp_float_traps
#undef __glibcpp_float_tinyness_before
#undef __glibcpp_float_round_style
template<>
struct numeric_limits<double>
{
static const bool is_specialized = true;
static double min() throw()
{ return __glibcpp_double_min; }
static double max() throw()
{ return __glibcpp_double_max; }
static const int digits = __glibcpp_double_digits;
static const int digits10 = __glibcpp_double_digits10;
static const bool is_signed = true;
static const bool is_integer = false;
static const bool is_exact = false;
static const int radix = __glibcpp_double_radix;
static double epsilon() throw()
{ return __glibcpp_double_epsilon; }
static double round_error() throw()
{ return __glibcpp_double_round_error; }
static const int min_exponent = __glibcpp_double_min_exponent;
static const int min_exponent10 = __glibcpp_double_min_exponent10;
static const int max_exponent = __glibcpp_double_max_exponent;
static const int max_exponent10 = __glibcpp_double_max_exponent10;
static const bool has_infinity = __glibcpp_double_has_infinity;
static const bool has_quiet_NaN = __glibcpp_double_has_QNaN;
static const bool has_signaling_NaN = __glibcpp_double_has_SNaN;
static const float_denorm_style has_denorm =
__glibcpp_double_has_denorm;
static const bool has_denorm_loss = __glibcpp_double_has_denorm_loss;
static double infinity() throw()
{ return *reinterpret_cast<const double*>(__glibcpp_double_infinity); }
static double quiet_NaN() throw()
{ return *reinterpret_cast<const double*>(__glibcpp_double_QNaN); }
static double signaling_NaN() throw()
{ return *reinterpret_cast<const double*>(__glibcpp_double_SNaN); }
static double denorm_min() throw()
{ return *reinterpret_cast<const double*>(__glibcpp_double_denorm_min); }
static const bool is_iec559 = __glibcpp_double_is_iec559;
static const bool is_bounded = __glibcpp_double_is_bounded;
static const bool is_modulo = __glibcpp_double_is_modulo;
static const bool traps = __glibcpp_double_traps;
static const bool tinyness_before = __glibcpp_double_tinyness_before;
static const float_round_style round_style =
__glibcpp_double_round_style;
};
#undef __glibcpp_double_min
#undef __glibcpp_double_max
#undef __glibcpp_double_digits
#undef __glibcpp_double_digits10
#undef __glibcpp_double_radix
#undef __glibcpp_double_round_error
#undef __glibcpp_double_min_exponent
#undef __glibcpp_double_min_exponent10
#undef __glibcpp_double_max_exponent
#undef __glibcpp_double_max_exponent10
#undef __glibcpp_double_has_infinity
#undef __glibcpp_double_has_QNaN
#undef __glibcpp_double_has_SNaN
#undef __glibcpp_double_has_denorm
#undef __glibcpp_double_has_denorm_loss
#undef __glibcpp_double_is_iec559
#undef __glibcpp_double_is_bounded
#undef __glibcpp_double_is_modulo
#undef __glibcpp_double_traps
#undef __glibcpp_double_tinyness_before
#undef __glibcpp_double_round_style
template<>
struct numeric_limits<long double>
{
static const bool is_specialized = true;
static long double min() throw()
{ return __glibcpp_long_double_min; }
static long double max() throw()
{ return __glibcpp_long_double_max; }
static const int digits = __glibcpp_long_double_digits;
static const int digits10 = __glibcpp_long_double_digits10;
static const bool is_signed = true;
static const bool is_integer = false;
static const bool is_exact = false;
static const int radix = __glibcpp_long_double_radix;
static long double epsilon() throw()
{ return __glibcpp_long_double_epsilon; }
static long double round_error() throw()
{ return __glibcpp_long_double_round_error; }
static const int min_exponent = __glibcpp_long_double_min_exponent;
static const int min_exponent10 = __glibcpp_long_double_min_exponent10;
static const int max_exponent = __glibcpp_long_double_max_exponent;
static const int max_exponent10 = __glibcpp_long_double_max_exponent10;
static const bool has_infinity = __glibcpp_long_double_has_infinity;
static const bool has_quiet_NaN = __glibcpp_long_double_has_SNaN;
static const bool has_signaling_NaN = __glibcpp_long_double_has_SNaN;
static const float_denorm_style has_denorm =
__glibcpp_long_double_has_denorm;
static const bool has_denorm_loss =
__glibcpp_long_double_has_denorm_loss;
static long double infinity() throw()
{
return *reinterpret_cast<const long double*>
(__glibcpp_long_double_infinity);
}
static long double quiet_NaN() throw()
{
return *reinterpret_cast<const long double*>
(__glibcpp_long_double_QNaN);
}
static long double signaling_NaN() throw()
{
return *reinterpret_cast<const long double*>
(__glibcpp_long_double_SNaN);
}
static long double denorm_min() throw()
{
return *reinterpret_cast<const long double*>
(__glibcpp_long_double_denorm_min);
}
static const bool is_iec559 = __glibcpp_long_double_is_iec559;
static const bool is_bounded = __glibcpp_long_double_is_bounded;
static const bool is_modulo = __glibcpp_long_double_is_modulo;
static const bool traps = __glibcpp_long_double_traps;
static const bool tinyness_before = __glibcpp_long_double_tinyness_before;
static const float_round_style round_style =
__glibcpp_long_double_round_style;
};
#undef __glibcpp_long_double_min
#undef __glibcpp_long_double_max
#undef __glibcpp_long_double_digits
#undef __glibcpp_long_double_digits10
#undef __glibcpp_long_double_radix
#undef __glibcpp_long_double_round_error
#undef __glibcpp_long_double_min_exponent
#undef __glibcpp_long_double_min_exponent10
#undef __glibcpp_long_double_max_exponent
#undef __glibcpp_long_double_max_exponent10
#undef __glibcpp_long_double_has_infinity
#undef __glibcpp_long_double_has_QNaN
#undef __glibcpp_long_double_has_SNaN
#undef __glibcpp_long_double_has_denorm
#undef __glibcpp_long_double_has_denorm_loss
#undef __glibcpp_long_double_is_iec559
#undef __glibcpp_long_double_is_bounded
#undef __glibcpp_long_double_is_modulo
#undef __glibcpp_long_double_traps
#undef __glibcpp_long_double_tinyness_before
#undef __glibcpp_long_double_round_style
} // namespace std
#endif // _CPP_NUMERIC_LIMITS
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