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[gnulib.git] / tests / test-isinf.c
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1 /* Test of isinf() substitute.
2 Copyright (C) 2007-2017 Free Software Foundation, Inc.
4 This program is free software: you can redistribute it and/or modify
5 it under the terms of the GNU General Public License as published by
6 the Free Software Foundation; either version 3 of the License, or
7 (at your option) any later version.
9 This program is distributed in the hope that it will be useful,
10 but WITHOUT ANY WARRANTY; without even the implied warranty of
11 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
12 GNU General Public License for more details.
14 You should have received a copy of the GNU General Public License
15 along with this program. If not, see <https://www.gnu.org/licenses/>. */
17 /* Written by Ben Pfaff, 2008, using Bruno Haible's code as a
18 template. */
20 #include <config.h>
22 #include <math.h>
24 /* isinf must be a macro. */
25 #ifndef isinf
26 # error missing declaration
27 #endif
29 #include <float.h>
30 #include <limits.h>
32 #include "infinity.h"
33 #include "macros.h"
35 float zerof = 0.0f;
36 double zerod = 0.0;
37 long double zerol = 0.0L;
39 static void
40 test_isinff ()
42 /* Zero. */
43 ASSERT (!isinf (0.0f));
44 /* Subnormal values. */
45 ASSERT (!isinf (FLT_MIN / 2));
46 ASSERT (!isinf (-FLT_MIN / 2));
47 /* Finite values. */
48 ASSERT (!isinf (3.141f));
49 ASSERT (!isinf (3.141e30f));
50 ASSERT (!isinf (3.141e-30f));
51 ASSERT (!isinf (-2.718f));
52 ASSERT (!isinf (-2.718e30f));
53 ASSERT (!isinf (-2.718e-30f));
54 ASSERT (!isinf (FLT_MAX));
55 ASSERT (!isinf (-FLT_MAX));
56 /* Infinite values. */
57 ASSERT (isinf (Infinityf ()));
58 ASSERT (isinf (- Infinityf ()));
59 /* Quiet NaN. */
60 ASSERT (!isinf (zerof / zerof));
61 #if defined FLT_EXPBIT0_WORD && defined FLT_EXPBIT0_BIT
62 /* Signalling NaN. */
64 #define NWORDS \
65 ((sizeof (float) + sizeof (unsigned int) - 1) / sizeof (unsigned int))
66 typedef union { float value; unsigned int word[NWORDS]; } memory_float;
67 memory_float m;
68 m.value = zerof / zerof;
69 # if FLT_EXPBIT0_BIT > 0
70 m.word[FLT_EXPBIT0_WORD] ^= (unsigned int) 1 << (FLT_EXPBIT0_BIT - 1);
71 # else
72 m.word[FLT_EXPBIT0_WORD + (FLT_EXPBIT0_WORD < NWORDS / 2 ? 1 : - 1)]
73 ^= (unsigned int) 1 << (sizeof (unsigned int) * CHAR_BIT - 1);
74 # endif
75 if (FLT_EXPBIT0_WORD < NWORDS / 2)
76 m.word[FLT_EXPBIT0_WORD + 1] |= (unsigned int) 1 << FLT_EXPBIT0_BIT;
77 else
78 m.word[0] |= (unsigned int) 1;
79 ASSERT (!isinf (m.value));
80 #undef NWORDS
82 #endif
85 static void
86 test_isinfd ()
88 /* Zero. */
89 ASSERT (!isinf (0.0));
90 /* Subnormal values. */
91 ASSERT (!isinf (DBL_MIN / 2));
92 ASSERT (!isinf (-DBL_MIN / 2));
93 /* Finite values. */
94 ASSERT (!isinf (3.141));
95 ASSERT (!isinf (3.141e30));
96 ASSERT (!isinf (3.141e-30));
97 ASSERT (!isinf (-2.718));
98 ASSERT (!isinf (-2.718e30));
99 ASSERT (!isinf (-2.718e-30));
100 ASSERT (!isinf (DBL_MAX));
101 ASSERT (!isinf (-DBL_MAX));
102 /* Infinite values. */
103 ASSERT (isinf (Infinityd ()));
104 ASSERT (isinf (- Infinityd ()));
105 /* Quiet NaN. */
106 ASSERT (!isinf (zerod / zerod));
107 #if defined DBL_EXPBIT0_WORD && defined DBL_EXPBIT0_BIT
108 /* Signalling NaN. */
110 #define NWORDS \
111 ((sizeof (double) + sizeof (unsigned int) - 1) / sizeof (unsigned int))
112 typedef union { double value; unsigned int word[NWORDS]; } memory_double;
113 memory_double m;
114 m.value = zerod / zerod;
115 # if DBL_EXPBIT0_BIT > 0
116 m.word[DBL_EXPBIT0_WORD] ^= (unsigned int) 1 << (DBL_EXPBIT0_BIT - 1);
117 # else
118 m.word[DBL_EXPBIT0_WORD + (DBL_EXPBIT0_WORD < NWORDS / 2 ? 1 : - 1)]
119 ^= (unsigned int) 1 << (sizeof (unsigned int) * CHAR_BIT - 1);
120 # endif
121 m.word[DBL_EXPBIT0_WORD + (DBL_EXPBIT0_WORD < NWORDS / 2 ? 1 : - 1)]
122 |= (unsigned int) 1 << DBL_EXPBIT0_BIT;
123 ASSERT (!isinf (m.value));
124 #undef NWORDS
126 #endif
129 static void
130 test_isinfl ()
132 #define NWORDS \
133 ((sizeof (long double) + sizeof (unsigned int) - 1) / sizeof (unsigned int))
134 typedef union { unsigned int word[NWORDS]; long double value; }
135 memory_long_double;
137 /* Zero. */
138 ASSERT (!isinf (0.0L));
139 /* Subnormal values. */
140 ASSERT (!isinf (LDBL_MIN / 2));
141 ASSERT (!isinf (-LDBL_MIN / 2));
142 /* Finite values. */
143 ASSERT (!isinf (3.141L));
144 ASSERT (!isinf (3.141e30L));
145 ASSERT (!isinf (3.141e-30L));
146 ASSERT (!isinf (-2.718L));
147 ASSERT (!isinf (-2.718e30L));
148 ASSERT (!isinf (-2.718e-30L));
149 ASSERT (!isinf (LDBL_MAX));
150 ASSERT (!isinf (-LDBL_MAX));
151 /* Infinite values. */
152 ASSERT (isinf (Infinityl ()));
153 ASSERT (isinf (- Infinityl ()));
154 /* Quiet NaN. */
155 ASSERT (!isinf (zerol / zerol));
157 #if defined LDBL_EXPBIT0_WORD && defined LDBL_EXPBIT0_BIT
158 /* A bit pattern that is different from a Quiet NaN. With a bit of luck,
159 it's a Signalling NaN. */
161 #if defined __powerpc__ && LDBL_MANT_DIG == 106
162 /* This is PowerPC "double double", a pair of two doubles. Inf and Nan are
163 represented as the corresponding 64-bit IEEE values in the first double;
164 the second is ignored. Manipulate only the first double. */
165 #undef NWORDS
166 #define NWORDS \
167 ((sizeof (double) + sizeof (unsigned int) - 1) / sizeof (unsigned int))
168 #endif
170 memory_long_double m;
171 m.value = zerol / zerol;
172 # if LDBL_EXPBIT0_BIT > 0
173 m.word[LDBL_EXPBIT0_WORD] ^= (unsigned int) 1 << (LDBL_EXPBIT0_BIT - 1);
174 # else
175 m.word[LDBL_EXPBIT0_WORD + (LDBL_EXPBIT0_WORD < NWORDS / 2 ? 1 : - 1)]
176 ^= (unsigned int) 1 << (sizeof (unsigned int) * CHAR_BIT - 1);
177 # endif
178 m.word[LDBL_EXPBIT0_WORD + (LDBL_EXPBIT0_WORD < NWORDS / 2 ? 1 : - 1)]
179 |= (unsigned int) 1 << LDBL_EXPBIT0_BIT;
180 ASSERT (!isinf (m.value));
182 #endif
184 #if ((defined __ia64 && LDBL_MANT_DIG == 64) || (defined __x86_64__ || defined __amd64__) || (defined __i386 || defined __i386__ || defined _I386 || defined _M_IX86 || defined _X86_)) && !HAVE_SAME_LONG_DOUBLE_AS_DOUBLE
185 /* Representation of an 80-bit 'long double' as an initializer for a sequence
186 of 'unsigned int' words. */
187 # ifdef WORDS_BIGENDIAN
188 # define LDBL80_WORDS(exponent,manthi,mantlo) \
189 { ((unsigned int) (exponent) << 16) | ((unsigned int) (manthi) >> 16), \
190 ((unsigned int) (manthi) << 16) | ((unsigned int) (mantlo) >> 16), \
191 (unsigned int) (mantlo) << 16 \
193 # else
194 # define LDBL80_WORDS(exponent,manthi,mantlo) \
195 { mantlo, manthi, exponent }
196 # endif
197 { /* Quiet NaN. */
198 static memory_long_double x =
199 { LDBL80_WORDS (0xFFFF, 0xC3333333, 0x00000000) };
200 ASSERT (!isinf (x.value));
203 /* Signalling NaN. */
204 static memory_long_double x =
205 { LDBL80_WORDS (0xFFFF, 0x83333333, 0x00000000) };
206 ASSERT (!isinf (x.value));
208 /* isinf should return something for noncanonical values. */
209 { /* Pseudo-NaN. */
210 static memory_long_double x =
211 { LDBL80_WORDS (0xFFFF, 0x40000001, 0x00000000) };
212 ASSERT (isinf (x.value) || !isinf (x.value));
214 { /* Pseudo-Infinity. */
215 static memory_long_double x =
216 { LDBL80_WORDS (0xFFFF, 0x00000000, 0x00000000) };
217 ASSERT (isinf (x.value) || !isinf (x.value));
219 { /* Pseudo-Zero. */
220 static memory_long_double x =
221 { LDBL80_WORDS (0x4004, 0x00000000, 0x00000000) };
222 ASSERT (isinf (x.value) || !isinf (x.value));
224 { /* Unnormalized number. */
225 static memory_long_double x =
226 { LDBL80_WORDS (0x4000, 0x63333333, 0x00000000) };
227 ASSERT (isinf (x.value) || !isinf (x.value));
229 { /* Pseudo-Denormal. */
230 static memory_long_double x =
231 { LDBL80_WORDS (0x0000, 0x83333333, 0x00000000) };
232 ASSERT (isinf (x.value) || !isinf (x.value));
234 #endif
236 #undef NWORDS
240 main ()
242 test_isinff ();
243 test_isinfd ();
244 test_isinfl ();
245 return 0;