1a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang/*************************************************************************
2a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang *
3df143a5041f03a22808b59c76698770b74692815Selim Gurun * $Id$
4a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang *
5a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang * Copyright (C) 2001 Bjorn Reese <breese@users.sourceforge.net>
6a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang *
7a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang * Permission to use, copy, modify, and distribute this software for any
8a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang * purpose with or without fee is hereby granted, provided that the above
9a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang * copyright notice and this permission notice appear in all copies.
10a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang *
11a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang * THIS SOFTWARE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR IMPLIED
12a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang * WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED WARRANTIES OF
13a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang * MERCHANTIBILITY AND FITNESS FOR A PARTICULAR PURPOSE. THE AUTHORS AND
14a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang * CONTRIBUTORS ACCEPT NO RESPONSIBILITY IN ANY CONCEIVABLE MANNER.
15a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang *
16a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang ************************************************************************
17a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang *
18a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang * Functions to handle special quantities in floating-point numbers
19a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang * (that is, NaNs and infinity). They provide the capability to detect
20a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang * and fabricate special quantities.
21a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang *
22a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang * Although written to be as portable as possible, it can never be
23a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang * guaranteed to work on all platforms, as not all hardware supports
24a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang * special quantities.
25a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang *
26a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang * The approach used here (approximately) is to:
27a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang *
28a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang *   1. Use C99 functionality when available.
29a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang *   2. Use IEEE 754 bit-patterns if possible.
30a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang *   3. Use platform-specific techniques.
31a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang *
32a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang ************************************************************************/
33a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
34a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang/*
35a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang * TODO:
36a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang *  o Put all the magic into trio_fpclassify_and_signbit(), and use this from
37a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang *    trio_isnan() etc.
38a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang */
39a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
40a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang/*************************************************************************
41a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang * Include files
42a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang */
43a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#include "triodef.h"
44a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#include "trionan.h"
45a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
46a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#include <math.h>
47a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#include <string.h>
48a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#include <limits.h>
49a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#include <float.h>
50a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#if defined(TRIO_PLATFORM_UNIX)
51a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang# include <signal.h>
52a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#endif
53a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#if defined(TRIO_COMPILER_DECC)
54a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#  if defined(__linux__)
55a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#   include <cpml.h>
56a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#  else
57a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#   include <fp_class.h>
58a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#  endif
59a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#endif
60a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#include <assert.h>
61a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
62a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#if defined(TRIO_DOCUMENTATION)
63a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang# include "doc/doc_nan.h"
64a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#endif
65a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang/** @addtogroup SpecialQuantities
66a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    @{
67a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang*/
68a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
69a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang/*************************************************************************
70a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang * Definitions
71a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang */
72a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
73a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#define TRIO_TRUE (1 == 1)
74a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#define TRIO_FALSE (0 == 1)
75a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
76a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang/*
77a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang * We must enable IEEE floating-point on Alpha
78a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang */
79a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#if defined(__alpha) && !defined(_IEEE_FP)
80a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang# if defined(TRIO_COMPILER_DECC)
81a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#  if defined(TRIO_PLATFORM_VMS)
82a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#   error "Must be compiled with option /IEEE_MODE=UNDERFLOW_TO_ZERO/FLOAT=IEEE"
83a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#  else
84a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#   if !defined(_CFE)
85a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#    error "Must be compiled with option -ieee"
86a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#   endif
87a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#  endif
88a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang# elif defined(TRIO_COMPILER_GCC) && (defined(__osf__) || defined(__linux__))
89a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#  error "Must be compiled with option -mieee"
90a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang# endif
91a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#endif /* __alpha && ! _IEEE_FP */
92a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
93a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang/*
94a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang * In ANSI/IEEE 754-1985 64-bits double format numbers have the
95a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang * following properties (amoungst others)
96a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang *
97a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang *   o FLT_RADIX == 2: binary encoding
98a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang *   o DBL_MAX_EXP == 1024: 11 bits exponent, where one bit is used
99a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang *     to indicate special numbers (e.g. NaN and Infinity), so the
100a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang *     maximum exponent is 10 bits wide (2^10 == 1024).
101a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang *   o DBL_MANT_DIG == 53: The mantissa is 52 bits wide, but because
102a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang *     numbers are normalized the initial binary 1 is represented
103a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang *     implicitly (the so-called "hidden bit"), which leaves us with
104a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang *     the ability to represent 53 bits wide mantissa.
105a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang */
106a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#if (FLT_RADIX == 2) && (DBL_MAX_EXP == 1024) && (DBL_MANT_DIG == 53)
107a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang# define USE_IEEE_754
108a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#endif
109a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
110a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
111a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang/*************************************************************************
112a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang * Constants
113a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang */
114a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
115df143a5041f03a22808b59c76698770b74692815Selim Gurunstatic TRIO_CONST char rcsid[] = "@(#)$Id$";
116a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
117a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#if defined(USE_IEEE_754)
118a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
119a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang/*
120a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang * Endian-agnostic indexing macro.
121a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang *
122a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang * The value of internalEndianMagic, when converted into a 64-bit
123a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang * integer, becomes 0x0706050403020100 (we could have used a 64-bit
124a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang * integer value instead of a double, but not all platforms supports
125a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang * that type). The value is automatically encoded with the correct
126a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang * endianess by the compiler, which means that we can support any
127a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang * kind of endianess. The individual bytes are then used as an index
128a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang * for the IEEE 754 bit-patterns and masks.
129a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang */
130a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#define TRIO_DOUBLE_INDEX(x) (((unsigned char *)&internalEndianMagic)[7-(x)])
131a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
132a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#if (defined(__BORLANDC__) && __BORLANDC__ >= 0x0590)
133a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wangstatic TRIO_CONST double internalEndianMagic = 7.949928895127362e-275;
134a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#else
135a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wangstatic TRIO_CONST double internalEndianMagic = 7.949928895127363e-275;
136a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#endif
137a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
138a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang/* Mask for the exponent */
139a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wangstatic TRIO_CONST unsigned char ieee_754_exponent_mask[] = {
140a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  0x7F, 0xF0, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00
141a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang};
142a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
143a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang/* Mask for the mantissa */
144a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wangstatic TRIO_CONST unsigned char ieee_754_mantissa_mask[] = {
145a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  0x00, 0x0F, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF
146a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang};
147a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
148a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang/* Mask for the sign bit */
149a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wangstatic TRIO_CONST unsigned char ieee_754_sign_mask[] = {
150a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  0x80, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00
151a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang};
152a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
153a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang/* Bit-pattern for negative zero */
154a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wangstatic TRIO_CONST unsigned char ieee_754_negzero_array[] = {
155a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  0x80, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00
156a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang};
157a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
158a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang/* Bit-pattern for infinity */
159a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wangstatic TRIO_CONST unsigned char ieee_754_infinity_array[] = {
160a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  0x7F, 0xF0, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00
161a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang};
162a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
163a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang/* Bit-pattern for quiet NaN */
164a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wangstatic TRIO_CONST unsigned char ieee_754_qnan_array[] = {
165a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  0x7F, 0xF8, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00
166a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang};
167a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
168a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
169a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang/*************************************************************************
170a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang * Functions
171a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang */
172a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
173a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang/*
174a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang * trio_make_double
175a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang */
176a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) WangTRIO_PRIVATE double
177a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wangtrio_make_double
178a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) WangTRIO_ARGS1((values),
179a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	   TRIO_CONST unsigned char *values)
180a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang{
181a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  TRIO_VOLATILE double result;
182a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  int i;
183a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
184a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  for (i = 0; i < (int)sizeof(double); i++) {
185a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    ((TRIO_VOLATILE unsigned char *)&result)[TRIO_DOUBLE_INDEX(i)] = values[i];
186a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  }
187a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  return result;
188a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang}
189a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
190a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang/*
191a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang * trio_is_special_quantity
192a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang */
193a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) WangTRIO_PRIVATE int
194a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wangtrio_is_special_quantity
195a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) WangTRIO_ARGS2((number, has_mantissa),
196a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	   double number,
197a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	   int *has_mantissa)
198a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang{
199a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  unsigned int i;
200a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  unsigned char current;
201a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  int is_special_quantity = TRIO_TRUE;
202a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
203a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  *has_mantissa = 0;
204a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
205a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  for (i = 0; i < (unsigned int)sizeof(double); i++) {
206a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    current = ((unsigned char *)&number)[TRIO_DOUBLE_INDEX(i)];
207a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    is_special_quantity
208a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang      &= ((current & ieee_754_exponent_mask[i]) == ieee_754_exponent_mask[i]);
209a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    *has_mantissa |= (current & ieee_754_mantissa_mask[i]);
210a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  }
211a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  return is_special_quantity;
212a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang}
213a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
214a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang/*
215a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang * trio_is_negative
216a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang */
217a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) WangTRIO_PRIVATE int
218a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wangtrio_is_negative
219a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) WangTRIO_ARGS1((number),
220a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	   double number)
221a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang{
222a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  unsigned int i;
223a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  int is_negative = TRIO_FALSE;
224a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
225a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  for (i = 0; i < (unsigned int)sizeof(double); i++) {
226a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    is_negative |= (((unsigned char *)&number)[TRIO_DOUBLE_INDEX(i)]
227a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang		    & ieee_754_sign_mask[i]);
228a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  }
229a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  return is_negative;
230a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang}
231a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
232a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#endif /* USE_IEEE_754 */
233a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
234a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
235a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang/**
236a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   Generate negative zero.
237a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
238a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   @return Floating-point representation of negative zero.
239a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang*/
240a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) WangTRIO_PUBLIC double
241a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wangtrio_nzero(TRIO_NOARGS)
242a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang{
243a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#if defined(USE_IEEE_754)
244a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  return trio_make_double(ieee_754_negzero_array);
245a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#else
246a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  TRIO_VOLATILE double zero = 0.0;
247a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
248a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  return -zero;
249a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#endif
250a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang}
251a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
252a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang/**
253a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   Generate positive infinity.
254a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
255a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   @return Floating-point representation of positive infinity.
256a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang*/
257a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) WangTRIO_PUBLIC double
258a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wangtrio_pinf(TRIO_NOARGS)
259a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang{
260a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  /* Cache the result */
261a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  static double result = 0.0;
262a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
263a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  if (result == 0.0) {
264a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
265a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#if defined(INFINITY) && defined(__STDC_IEC_559__)
266a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    result = (double)INFINITY;
267a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
268a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#elif defined(USE_IEEE_754)
269a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    result = trio_make_double(ieee_754_infinity_array);
270a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
271a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#else
272a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    /*
273a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang     * If HUGE_VAL is different from DBL_MAX, then HUGE_VAL is used
274a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang     * as infinity. Otherwise we have to resort to an overflow
275a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang     * operation to generate infinity.
276a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang     */
277a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang# if defined(TRIO_PLATFORM_UNIX)
278a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    void (*signal_handler)(int) = signal(SIGFPE, SIG_IGN);
279a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang# endif
280a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
281a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    result = HUGE_VAL;
282a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    if (HUGE_VAL == DBL_MAX) {
283a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang      /* Force overflow */
284a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang      result += HUGE_VAL;
285a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    }
286a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
287a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang# if defined(TRIO_PLATFORM_UNIX)
288a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    signal(SIGFPE, signal_handler);
289a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang# endif
290a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
291a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#endif
292a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  }
293a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  return result;
294a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang}
295a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
296a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang/**
297a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   Generate negative infinity.
298a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
299a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   @return Floating-point value of negative infinity.
300a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang*/
301a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) WangTRIO_PUBLIC double
302a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wangtrio_ninf(TRIO_NOARGS)
303a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang{
304a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  static double result = 0.0;
305a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
306a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  if (result == 0.0) {
307a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    /*
308a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang     * Negative infinity is calculated by negating positive infinity,
309a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang     * which can be done because it is legal to do calculations on
310a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang     * infinity (for example,  1 / infinity == 0).
311a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang     */
312a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    result = -trio_pinf();
313a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  }
314a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  return result;
315a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang}
316a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
317a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang/**
318a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   Generate NaN.
319a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
320a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   @return Floating-point representation of NaN.
321a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang*/
322a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) WangTRIO_PUBLIC double
323a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wangtrio_nan(TRIO_NOARGS)
324a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang{
325a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  /* Cache the result */
326a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  static double result = 0.0;
327a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
328a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  if (result == 0.0) {
329a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
330a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#if defined(TRIO_COMPILER_SUPPORTS_C99)
331a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    result = nan("");
332a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
333a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#elif defined(NAN) && defined(__STDC_IEC_559__)
334a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    result = (double)NAN;
335a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
336a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#elif defined(USE_IEEE_754)
337a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    result = trio_make_double(ieee_754_qnan_array);
338a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
339a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#else
340a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    /*
341a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang     * There are several ways to generate NaN. The one used here is
342a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang     * to divide infinity by infinity. I would have preferred to add
343a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang     * negative infinity to positive infinity, but that yields wrong
344a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang     * result (infinity) on FreeBSD.
345a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang     *
346a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang     * This may fail if the hardware does not support NaN, or if
347a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang     * the Invalid Operation floating-point exception is unmasked.
348a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang     */
349a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang# if defined(TRIO_PLATFORM_UNIX)
350a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    void (*signal_handler)(int) = signal(SIGFPE, SIG_IGN);
351a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang# endif
352a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
353a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    result = trio_pinf() / trio_pinf();
354a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
355a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang# if defined(TRIO_PLATFORM_UNIX)
356a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    signal(SIGFPE, signal_handler);
357a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang# endif
358a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
359a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#endif
360a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  }
361a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  return result;
362a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang}
363a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
364a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang/**
365a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   Check for NaN.
366a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
367a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   @param number An arbitrary floating-point number.
368a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   @return Boolean value indicating whether or not the number is a NaN.
369a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang*/
370a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) WangTRIO_PUBLIC int
371a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wangtrio_isnan
372a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) WangTRIO_ARGS1((number),
373a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	   double number)
374a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang{
375a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#if (defined(TRIO_COMPILER_SUPPORTS_C99) && defined(isnan)) \
376a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang || defined(TRIO_COMPILER_SUPPORTS_UNIX95)
377a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  /*
378a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   * C99 defines isnan() as a macro. UNIX95 defines isnan() as a
379a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   * function. This function was already present in XPG4, but this
380a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   * is a bit tricky to detect with compiler defines, so we choose
381a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   * the conservative approach and only use it for UNIX95.
382a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   */
383a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  return isnan(number);
384a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
385a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#elif defined(TRIO_COMPILER_MSVC) || defined(TRIO_COMPILER_BCB)
386a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  /*
387a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   * Microsoft Visual C++ and Borland C++ Builder have an _isnan()
388a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   * function.
389a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   */
390a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  return _isnan(number) ? TRIO_TRUE : TRIO_FALSE;
391a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
392a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#elif defined(USE_IEEE_754)
393a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  /*
394a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   * Examine IEEE 754 bit-pattern. A NaN must have a special exponent
395a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   * pattern, and a non-empty mantissa.
396a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   */
397a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  int has_mantissa;
398a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  int is_special_quantity;
399a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
400a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  is_special_quantity = trio_is_special_quantity(number, &has_mantissa);
401a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
402a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  return (is_special_quantity && has_mantissa);
403a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
404a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#else
405a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  /*
406a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   * Fallback solution
407a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   */
408a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  int status;
409a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  double integral, fraction;
410a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
411a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang# if defined(TRIO_PLATFORM_UNIX)
412a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  void (*signal_handler)(int) = signal(SIGFPE, SIG_IGN);
413a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang# endif
414a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
415a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  status = (/*
416a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	     * NaN is the only number which does not compare to itself
417a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	     */
418a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	    ((TRIO_VOLATILE double)number != (TRIO_VOLATILE double)number) ||
419a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	    /*
420a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	     * Fallback solution if NaN compares to NaN
421a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	     */
422a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	    ((number != 0.0) &&
423a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	     (fraction = modf(number, &integral),
424a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	      integral == fraction)));
425a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
426a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang# if defined(TRIO_PLATFORM_UNIX)
427a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  signal(SIGFPE, signal_handler);
428a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang# endif
429a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
430a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  return status;
431a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
432a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#endif
433a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang}
434a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
435a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang/**
436a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   Check for infinity.
437a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
438a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   @param number An arbitrary floating-point number.
439a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   @return 1 if positive infinity, -1 if negative infinity, 0 otherwise.
440a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang*/
441a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) WangTRIO_PUBLIC int
442a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wangtrio_isinf
443a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) WangTRIO_ARGS1((number),
444a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	   double number)
445a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang{
446a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#if defined(TRIO_COMPILER_DECC) && !defined(__linux__)
447a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  /*
448a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   * DECC has an isinf() macro, but it works differently than that
449a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   * of C99, so we use the fp_class() function instead.
450a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   */
451a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  return ((fp_class(number) == FP_POS_INF)
452a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	  ? 1
453a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	  : ((fp_class(number) == FP_NEG_INF) ? -1 : 0));
454a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
455a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#elif defined(isinf)
456a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  /*
457a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   * C99 defines isinf() as a macro.
458a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   */
459a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  return isinf(number)
460a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    ? ((number > 0.0) ? 1 : -1)
461a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    : 0;
462a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
463a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#elif defined(TRIO_COMPILER_MSVC) || defined(TRIO_COMPILER_BCB)
464a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  /*
465a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   * Microsoft Visual C++ and Borland C++ Builder have an _fpclass()
466a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   * function that can be used to detect infinity.
467a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   */
468a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  return ((_fpclass(number) == _FPCLASS_PINF)
469a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	  ? 1
470a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	  : ((_fpclass(number) == _FPCLASS_NINF) ? -1 : 0));
471a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
472a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#elif defined(USE_IEEE_754)
473a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  /*
474a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   * Examine IEEE 754 bit-pattern. Infinity must have a special exponent
475a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   * pattern, and an empty mantissa.
476a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   */
477a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  int has_mantissa;
478a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  int is_special_quantity;
479a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
480a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  is_special_quantity = trio_is_special_quantity(number, &has_mantissa);
481a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
482a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  return (is_special_quantity && !has_mantissa)
483a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    ? ((number < 0.0) ? -1 : 1)
484a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    : 0;
485a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
486a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#else
487a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  /*
488a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   * Fallback solution.
489a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   */
490a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  int status;
491a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
492a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang# if defined(TRIO_PLATFORM_UNIX)
493a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  void (*signal_handler)(int) = signal(SIGFPE, SIG_IGN);
494a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang# endif
495a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
496a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  double infinity = trio_pinf();
497a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
498a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  status = ((number == infinity)
499a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	    ? 1
500a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	    : ((number == -infinity) ? -1 : 0));
501a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
502a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang# if defined(TRIO_PLATFORM_UNIX)
503a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  signal(SIGFPE, signal_handler);
504a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang# endif
505a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
506a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  return status;
507a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
508a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#endif
509a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang}
510a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
511a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#if 0
512a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	/* Temporary fix - this routine is not used anywhere */
513a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang/**
514a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   Check for finity.
515a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
516a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   @param number An arbitrary floating-point number.
517a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   @return Boolean value indicating whether or not the number is a finite.
518a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang*/
519a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) WangTRIO_PUBLIC int
520a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wangtrio_isfinite
521a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) WangTRIO_ARGS1((number),
522a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	   double number)
523a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang{
524a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#if defined(TRIO_COMPILER_SUPPORTS_C99) && defined(isfinite)
525a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  /*
526a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   * C99 defines isfinite() as a macro.
527a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   */
528a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  return isfinite(number);
529a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
530a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#elif defined(TRIO_COMPILER_MSVC) || defined(TRIO_COMPILER_BCB)
531a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  /*
532a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   * Microsoft Visual C++ and Borland C++ Builder use _finite().
533a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   */
534a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  return _finite(number);
535a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
536a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#elif defined(USE_IEEE_754)
537a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  /*
538a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   * Examine IEEE 754 bit-pattern. For finity we do not care about the
539a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   * mantissa.
540a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   */
541a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  int dummy;
542a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
543a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  return (! trio_is_special_quantity(number, &dummy));
544a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
545a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#else
546a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  /*
547a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   * Fallback solution.
548a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   */
549a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  return ((trio_isinf(number) == 0) && (trio_isnan(number) == 0));
550a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
551a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#endif
552a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang}
553a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
554a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#endif
555a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
556a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang/*
557a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang * The sign of NaN is always false
558a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang */
559a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) WangTRIO_PUBLIC int
560a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wangtrio_fpclassify_and_signbit
561a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) WangTRIO_ARGS2((number, is_negative),
562a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	   double number,
563a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	   int *is_negative)
564a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang{
565a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#if defined(fpclassify) && defined(signbit)
566a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  /*
567a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   * C99 defines fpclassify() and signbit() as a macros
568a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   */
569a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  *is_negative = signbit(number);
570a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  switch (fpclassify(number)) {
571a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  case FP_NAN:
572a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    return TRIO_FP_NAN;
573a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  case FP_INFINITE:
574a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    return TRIO_FP_INFINITE;
575a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  case FP_SUBNORMAL:
576a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    return TRIO_FP_SUBNORMAL;
577a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  case FP_ZERO:
578a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    return TRIO_FP_ZERO;
579a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  default:
580a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    return TRIO_FP_NORMAL;
581a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  }
582a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
583a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#else
584a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang# if defined(TRIO_COMPILER_DECC)
585a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  /*
586a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   * DECC has an fp_class() function.
587a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   */
588a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#  define TRIO_FPCLASSIFY(n) fp_class(n)
589a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#  define TRIO_QUIET_NAN FP_QNAN
590a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#  define TRIO_SIGNALLING_NAN FP_SNAN
591a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#  define TRIO_POSITIVE_INFINITY FP_POS_INF
592a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#  define TRIO_NEGATIVE_INFINITY FP_NEG_INF
593a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#  define TRIO_POSITIVE_SUBNORMAL FP_POS_DENORM
594a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#  define TRIO_NEGATIVE_SUBNORMAL FP_NEG_DENORM
595a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#  define TRIO_POSITIVE_ZERO FP_POS_ZERO
596a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#  define TRIO_NEGATIVE_ZERO FP_NEG_ZERO
597a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#  define TRIO_POSITIVE_NORMAL FP_POS_NORM
598a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#  define TRIO_NEGATIVE_NORMAL FP_NEG_NORM
599a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
600a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang# elif defined(TRIO_COMPILER_MSVC) || defined(TRIO_COMPILER_BCB)
601a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  /*
602a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   * Microsoft Visual C++ and Borland C++ Builder have an _fpclass()
603a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   * function.
604a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   */
605a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#  define TRIO_FPCLASSIFY(n) _fpclass(n)
606a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#  define TRIO_QUIET_NAN _FPCLASS_QNAN
607a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#  define TRIO_SIGNALLING_NAN _FPCLASS_SNAN
608a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#  define TRIO_POSITIVE_INFINITY _FPCLASS_PINF
609a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#  define TRIO_NEGATIVE_INFINITY _FPCLASS_NINF
610a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#  define TRIO_POSITIVE_SUBNORMAL _FPCLASS_PD
611a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#  define TRIO_NEGATIVE_SUBNORMAL _FPCLASS_ND
612a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#  define TRIO_POSITIVE_ZERO _FPCLASS_PZ
613a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#  define TRIO_NEGATIVE_ZERO _FPCLASS_NZ
614a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#  define TRIO_POSITIVE_NORMAL _FPCLASS_PN
615a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#  define TRIO_NEGATIVE_NORMAL _FPCLASS_NN
616a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
617a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang# elif defined(FP_PLUS_NORM)
618a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  /*
619a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   * HP-UX 9.x and 10.x have an fpclassify() function, that is different
620a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   * from the C99 fpclassify() macro supported on HP-UX 11.x.
621a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   *
622a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   * AIX has class() for C, and _class() for C++, which returns the
623a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   * same values as the HP-UX fpclassify() function.
624a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   */
625a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#  if defined(TRIO_PLATFORM_AIX)
626a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#   if defined(__cplusplus)
627a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#    define TRIO_FPCLASSIFY(n) _class(n)
628a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#   else
629a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#    define TRIO_FPCLASSIFY(n) class(n)
630a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#   endif
631a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#  else
632a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#   define TRIO_FPCLASSIFY(n) fpclassify(n)
633a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#  endif
634a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#  define TRIO_QUIET_NAN FP_QNAN
635a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#  define TRIO_SIGNALLING_NAN FP_SNAN
636a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#  define TRIO_POSITIVE_INFINITY FP_PLUS_INF
637a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#  define TRIO_NEGATIVE_INFINITY FP_MINUS_INF
638a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#  define TRIO_POSITIVE_SUBNORMAL FP_PLUS_DENORM
639a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#  define TRIO_NEGATIVE_SUBNORMAL FP_MINUS_DENORM
640a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#  define TRIO_POSITIVE_ZERO FP_PLUS_ZERO
641a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#  define TRIO_NEGATIVE_ZERO FP_MINUS_ZERO
642a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#  define TRIO_POSITIVE_NORMAL FP_PLUS_NORM
643a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#  define TRIO_NEGATIVE_NORMAL FP_MINUS_NORM
644a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang# endif
645a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
646a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang# if defined(TRIO_FPCLASSIFY)
647a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  switch (TRIO_FPCLASSIFY(number)) {
648a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  case TRIO_QUIET_NAN:
649a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  case TRIO_SIGNALLING_NAN:
650a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    *is_negative = TRIO_FALSE; /* NaN has no sign */
651a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    return TRIO_FP_NAN;
652a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  case TRIO_POSITIVE_INFINITY:
653a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    *is_negative = TRIO_FALSE;
654a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    return TRIO_FP_INFINITE;
655a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  case TRIO_NEGATIVE_INFINITY:
656a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    *is_negative = TRIO_TRUE;
657a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    return TRIO_FP_INFINITE;
658a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  case TRIO_POSITIVE_SUBNORMAL:
659a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    *is_negative = TRIO_FALSE;
660a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    return TRIO_FP_SUBNORMAL;
661a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  case TRIO_NEGATIVE_SUBNORMAL:
662a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    *is_negative = TRIO_TRUE;
663a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    return TRIO_FP_SUBNORMAL;
664a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  case TRIO_POSITIVE_ZERO:
665a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    *is_negative = TRIO_FALSE;
666a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    return TRIO_FP_ZERO;
667a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  case TRIO_NEGATIVE_ZERO:
668a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    *is_negative = TRIO_TRUE;
669a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    return TRIO_FP_ZERO;
670a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  case TRIO_POSITIVE_NORMAL:
671a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    *is_negative = TRIO_FALSE;
672a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    return TRIO_FP_NORMAL;
673a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  case TRIO_NEGATIVE_NORMAL:
674a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    *is_negative = TRIO_TRUE;
675a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    return TRIO_FP_NORMAL;
676a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  default:
677a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    /* Just in case... */
678a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    *is_negative = (number < 0.0);
679a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    return TRIO_FP_NORMAL;
680a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  }
681a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
682a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang# else
683a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  /*
684a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   * Fallback solution.
685a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   */
686a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  int rc;
687a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
688a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  if (number == 0.0) {
689a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    /*
690a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang     * In IEEE 754 the sign of zero is ignored in comparisons, so we
691a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang     * have to handle this as a special case by examining the sign bit
692a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang     * directly.
693a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang     */
694a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#  if defined(USE_IEEE_754)
695a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    *is_negative = trio_is_negative(number);
696a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#  else
697a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    *is_negative = TRIO_FALSE; /* FIXME */
698a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#  endif
699a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    return TRIO_FP_ZERO;
700a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  }
701a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  if (trio_isnan(number)) {
702a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    *is_negative = TRIO_FALSE;
703a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    return TRIO_FP_NAN;
704a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  }
705a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  if ((rc = trio_isinf(number))) {
706a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    *is_negative = (rc == -1);
707a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    return TRIO_FP_INFINITE;
708a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  }
709a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  if ((number > 0.0) && (number < DBL_MIN)) {
710a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    *is_negative = TRIO_FALSE;
711a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    return TRIO_FP_SUBNORMAL;
712a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  }
713a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  if ((number < 0.0) && (number > -DBL_MIN)) {
714a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    *is_negative = TRIO_TRUE;
715a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    return TRIO_FP_SUBNORMAL;
716a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  }
717a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  *is_negative = (number < 0.0);
718a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  return TRIO_FP_NORMAL;
719a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
720a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang# endif
721a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#endif
722a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang}
723a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
724a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang/**
725a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   Examine the sign of a number.
726a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
727a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   @param number An arbitrary floating-point number.
728a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   @return Boolean value indicating whether or not the number has the
729a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   sign bit set (i.e. is negative).
730a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang*/
731a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) WangTRIO_PUBLIC int
732a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wangtrio_signbit
733a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) WangTRIO_ARGS1((number),
734a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	   double number)
735a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang{
736a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  int is_negative;
737a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
738a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  (void)trio_fpclassify_and_signbit(number, &is_negative);
739a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  return is_negative;
740a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang}
741a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
742a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#if 0
743a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	/* Temporary fix - this routine is not used in libxml */
744a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang/**
745a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   Examine the class of a number.
746a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
747a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   @param number An arbitrary floating-point number.
748a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang   @return Enumerable value indicating the class of @p number
749a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang*/
750a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) WangTRIO_PUBLIC int
751a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wangtrio_fpclassify
752a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) WangTRIO_ARGS1((number),
753a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	   double number)
754a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang{
755a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  int dummy;
756a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
757a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  return trio_fpclassify_and_signbit(number, &dummy);
758a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang}
759a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
760a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#endif
761a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
762a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang/** @} SpecialQuantities */
763a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
764a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang/*************************************************************************
765a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang * For test purposes.
766a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang *
767a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang * Add the following compiler option to include this test code.
768a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang *
769a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang *  Unix : -DSTANDALONE
770a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang *  VMS  : /DEFINE=(STANDALONE)
771a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang */
772a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#if defined(STANDALONE)
773a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang# include <stdio.h>
774a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
775a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wangstatic TRIO_CONST char *
776a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) WanggetClassification
777a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) WangTRIO_ARGS1((type),
778a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	   int type)
779a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang{
780a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  switch (type) {
781a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  case TRIO_FP_INFINITE:
782a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    return "FP_INFINITE";
783a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  case TRIO_FP_NAN:
784a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    return "FP_NAN";
785a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  case TRIO_FP_NORMAL:
786a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    return "FP_NORMAL";
787a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  case TRIO_FP_SUBNORMAL:
788a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    return "FP_SUBNORMAL";
789a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  case TRIO_FP_ZERO:
790a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    return "FP_ZERO";
791a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  default:
792a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang    return "FP_UNKNOWN";
793a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  }
794a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang}
795a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
796a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wangstatic void
797a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wangprint_class
798a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) WangTRIO_ARGS2((prefix, number),
799a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	   TRIO_CONST char *prefix,
800a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	   double number)
801a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang{
802a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  printf("%-6s: %s %-15s %g\n",
803a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 prefix,
804a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 trio_signbit(number) ? "-" : "+",
805a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 getClassification(TRIO_FPCLASSIFY(number)),
806a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 number);
807a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang}
808a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
809a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wangint main(TRIO_NOARGS)
810a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang{
811a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  double my_nan;
812a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  double my_pinf;
813a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  double my_ninf;
814a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang# if defined(TRIO_PLATFORM_UNIX)
815a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  void (*signal_handler) TRIO_PROTO((int));
816a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang# endif
817a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
818a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  my_nan = trio_nan();
819a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  my_pinf = trio_pinf();
820a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  my_ninf = trio_ninf();
821a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
822a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  print_class("Nan", my_nan);
823a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  print_class("PInf", my_pinf);
824a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  print_class("NInf", my_ninf);
825a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  print_class("PZero", 0.0);
826a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  print_class("NZero", -0.0);
827a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  print_class("PNorm", 1.0);
828a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  print_class("NNorm", -1.0);
829a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  print_class("PSub", 1.01e-307 - 1.00e-307);
830a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  print_class("NSub", 1.00e-307 - 1.01e-307);
831a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
832a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  printf("NaN : %4g 0x%02x%02x%02x%02x%02x%02x%02x%02x (%2d, %2d)\n",
833a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 my_nan,
834a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 ((unsigned char *)&my_nan)[0],
835a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 ((unsigned char *)&my_nan)[1],
836a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 ((unsigned char *)&my_nan)[2],
837a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 ((unsigned char *)&my_nan)[3],
838a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 ((unsigned char *)&my_nan)[4],
839a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 ((unsigned char *)&my_nan)[5],
840a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 ((unsigned char *)&my_nan)[6],
841a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 ((unsigned char *)&my_nan)[7],
842a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 trio_isnan(my_nan), trio_isinf(my_nan));
843a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  printf("PInf: %4g 0x%02x%02x%02x%02x%02x%02x%02x%02x (%2d, %2d)\n",
844a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 my_pinf,
845a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 ((unsigned char *)&my_pinf)[0],
846a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 ((unsigned char *)&my_pinf)[1],
847a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 ((unsigned char *)&my_pinf)[2],
848a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 ((unsigned char *)&my_pinf)[3],
849a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 ((unsigned char *)&my_pinf)[4],
850a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 ((unsigned char *)&my_pinf)[5],
851a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 ((unsigned char *)&my_pinf)[6],
852a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 ((unsigned char *)&my_pinf)[7],
853a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 trio_isnan(my_pinf), trio_isinf(my_pinf));
854a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  printf("NInf: %4g 0x%02x%02x%02x%02x%02x%02x%02x%02x (%2d, %2d)\n",
855a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 my_ninf,
856a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 ((unsigned char *)&my_ninf)[0],
857a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 ((unsigned char *)&my_ninf)[1],
858a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 ((unsigned char *)&my_ninf)[2],
859a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 ((unsigned char *)&my_ninf)[3],
860a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 ((unsigned char *)&my_ninf)[4],
861a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 ((unsigned char *)&my_ninf)[5],
862a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 ((unsigned char *)&my_ninf)[6],
863a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 ((unsigned char *)&my_ninf)[7],
864a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 trio_isnan(my_ninf), trio_isinf(my_ninf));
865a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
866a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang# if defined(TRIO_PLATFORM_UNIX)
867a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  signal_handler = signal(SIGFPE, SIG_IGN);
868a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang# endif
869a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
870a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  my_pinf = DBL_MAX + DBL_MAX;
871a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  my_ninf = -my_pinf;
872a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  my_nan = my_pinf / my_pinf;
873a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
874a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang# if defined(TRIO_PLATFORM_UNIX)
875a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  signal(SIGFPE, signal_handler);
876a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang# endif
877a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
878a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  printf("NaN : %4g 0x%02x%02x%02x%02x%02x%02x%02x%02x (%2d, %2d)\n",
879a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 my_nan,
880a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 ((unsigned char *)&my_nan)[0],
881a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 ((unsigned char *)&my_nan)[1],
882a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 ((unsigned char *)&my_nan)[2],
883a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 ((unsigned char *)&my_nan)[3],
884a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 ((unsigned char *)&my_nan)[4],
885a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 ((unsigned char *)&my_nan)[5],
886a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 ((unsigned char *)&my_nan)[6],
887a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 ((unsigned char *)&my_nan)[7],
888a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 trio_isnan(my_nan), trio_isinf(my_nan));
889a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  printf("PInf: %4g 0x%02x%02x%02x%02x%02x%02x%02x%02x (%2d, %2d)\n",
890a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 my_pinf,
891a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 ((unsigned char *)&my_pinf)[0],
892a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 ((unsigned char *)&my_pinf)[1],
893a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 ((unsigned char *)&my_pinf)[2],
894a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 ((unsigned char *)&my_pinf)[3],
895a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 ((unsigned char *)&my_pinf)[4],
896a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 ((unsigned char *)&my_pinf)[5],
897a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 ((unsigned char *)&my_pinf)[6],
898a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 ((unsigned char *)&my_pinf)[7],
899a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 trio_isnan(my_pinf), trio_isinf(my_pinf));
900a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  printf("NInf: %4g 0x%02x%02x%02x%02x%02x%02x%02x%02x (%2d, %2d)\n",
901a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 my_ninf,
902a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 ((unsigned char *)&my_ninf)[0],
903a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 ((unsigned char *)&my_ninf)[1],
904a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 ((unsigned char *)&my_ninf)[2],
905a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 ((unsigned char *)&my_ninf)[3],
906a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 ((unsigned char *)&my_ninf)[4],
907a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 ((unsigned char *)&my_ninf)[5],
908a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 ((unsigned char *)&my_ninf)[6],
909a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 ((unsigned char *)&my_ninf)[7],
910a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang	 trio_isnan(my_ninf), trio_isinf(my_ninf));
911a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang
912a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang  return 0;
913a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang}
914a66dd5f0b030e773d3af602682150eebdc9f2bddShimeng (Simon) Wang#endif
915