t_fe_round.c revision 1.11
1 1.1 maya /* 2 1.1 maya * Written by Maya Rashish <maya (at) NetBSD.org> 3 1.1 maya * Public domain. 4 1.1 maya * 5 1.1 maya * Testing IEEE-754 rounding modes (and lrint) 6 1.1 maya */ 7 1.1 maya 8 1.1 maya #include <atf-c.h> 9 1.1 maya #include <fenv.h> 10 1.1 maya #ifdef __HAVE_FENV 11 1.1 maya #include <math.h> 12 1.1 maya #include <stdio.h> 13 1.1 maya #include <stdlib.h> 14 1.1 maya 15 1.1 maya /*#pragma STDC FENV_ACCESS ON gcc?? */ 16 1.1 maya 17 1.1 maya #define INT 9223L 18 1.1 maya 19 1.1 maya #define EPSILON 0.001 20 1.1 maya 21 1.10 riastrad static const char * 22 1.10 riastrad rmname(int rm) 23 1.10 riastrad { 24 1.10 riastrad switch (rm) { 25 1.10 riastrad case FE_TOWARDZERO: 26 1.10 riastrad return "FE_TOWARDZERO"; 27 1.10 riastrad case FE_DOWNWARD: 28 1.10 riastrad return "FE_DOWNWARD"; 29 1.10 riastrad case FE_UPWARD: 30 1.10 riastrad return "FE_UPWARD"; 31 1.10 riastrad case FE_TONEAREST: 32 1.10 riastrad return "FE_TONEAREST"; 33 1.10 riastrad default: 34 1.10 riastrad return "unknown"; 35 1.10 riastrad } 36 1.10 riastrad } 37 1.10 riastrad 38 1.1 maya static const struct { 39 1.1 maya int round_mode; 40 1.1 maya double input; 41 1.1 maya long int expected; 42 1.1 maya } values[] = { 43 1.1 maya { FE_DOWNWARD, 3.7, 3}, 44 1.1 maya { FE_DOWNWARD, -3.7, -4}, 45 1.1 maya { FE_DOWNWARD, +0, 0}, 46 1.1 maya { FE_DOWNWARD, -INT-0.01, -INT-1}, 47 1.1 maya { FE_DOWNWARD, +INT-0.01, INT-1}, 48 1.1 maya { FE_DOWNWARD, -INT+0.01, -INT}, 49 1.1 maya { FE_DOWNWARD, +INT+0.01, INT}, 50 1.1 maya #if 0 /* cpu bugs? */ 51 1.1 maya { FE_DOWNWARD, -0, -1}, 52 1.1 maya 53 1.1 maya { FE_UPWARD, +0, 1}, 54 1.1 maya #endif 55 1.1 maya { FE_UPWARD, -0, 0}, 56 1.1 maya { FE_UPWARD, -123.7, -123}, 57 1.1 maya { FE_UPWARD, 123.999, 124}, 58 1.1 maya { FE_UPWARD, -INT-0.01, -INT}, 59 1.1 maya { FE_UPWARD, +INT-0.01, INT}, 60 1.1 maya { FE_UPWARD, -INT+0.01, -INT+1}, 61 1.1 maya { FE_UPWARD, +INT+0.01, INT+1}, 62 1.1 maya 63 1.1 maya { FE_TOWARDZERO, 1.99, 1}, 64 1.1 maya { FE_TOWARDZERO, -1.99, -1}, 65 1.1 maya { FE_TOWARDZERO, 0.2, 0}, 66 1.1 maya { FE_TOWARDZERO, INT+0.01, INT}, 67 1.1 maya { FE_TOWARDZERO, INT-0.01, INT - 1}, 68 1.1 maya { FE_TOWARDZERO, -INT+0.01, -INT + 1}, 69 1.1 maya { FE_TOWARDZERO, +0, 0}, 70 1.1 maya { FE_TOWARDZERO, -0, 0}, 71 1.1 maya 72 1.1 maya { FE_TONEAREST, -INT-0.01, -INT}, 73 1.1 maya { FE_TONEAREST, +INT-0.01, INT}, 74 1.1 maya { FE_TONEAREST, -INT+0.01, -INT}, 75 1.1 maya { FE_TONEAREST, +INT+0.01, INT}, 76 1.1 maya { FE_TONEAREST, -INT-0.501, -INT-1}, 77 1.1 maya { FE_TONEAREST, +INT-0.501, INT-1}, 78 1.1 maya { FE_TONEAREST, -INT+0.501, -INT+1}, 79 1.1 maya { FE_TONEAREST, +INT+0.501, INT+1}, 80 1.1 maya { FE_TONEAREST, +0, 0}, 81 1.1 maya { FE_TONEAREST, -0, 0}, 82 1.1 maya }; 83 1.1 maya 84 1.1 maya ATF_TC(fe_round); 85 1.1 maya ATF_TC_HEAD(fe_round, tc) 86 1.1 maya { 87 1.1 maya atf_tc_set_md_var(tc, "descr","Checking IEEE 754 rounding modes using lrint"); 88 1.1 maya } 89 1.1 maya 90 1.1 maya ATF_TC_BODY(fe_round, tc) 91 1.1 maya { 92 1.1 maya long int received; 93 1.1 maya 94 1.1 maya for (unsigned int i = 0; i < __arraycount(values); i++) { 95 1.1 maya fesetround(values[i].round_mode); 96 1.1 maya 97 1.1 maya received = lrint(values[i].input); 98 1.1 maya ATF_CHECK_MSG( 99 1.2 maya (labs(received - values[i].expected) < EPSILON), 100 1.1 maya "lrint rounding wrong, difference too large\n" 101 1.1 maya "input: %f (index %d): got %ld, expected %ld\n", 102 1.1 maya values[i].input, i, received, values[i].expected); 103 1.1 maya 104 1.1 maya /* Do we get the same rounding mode out? */ 105 1.1 maya ATF_CHECK_MSG( 106 1.1 maya (fegetround() == values[i].round_mode), 107 1.1 maya "Didn't get the same rounding mode out!\n" 108 1.1 maya "(index %d) fed in %d rounding mode, got %d out\n", 109 1.3 he i, values[i].round_mode, fegetround()); 110 1.1 maya } 111 1.1 maya } 112 1.1 maya 113 1.6 he ATF_TC(fe_nearbyint); 114 1.6 he ATF_TC_HEAD(fe_nearbyint, tc) 115 1.6 he { 116 1.10 riastrad atf_tc_set_md_var(tc, "descr", 117 1.10 riastrad "Checking IEEE 754 rounding modes using nearbyint"); 118 1.6 he } 119 1.6 he 120 1.6 he ATF_TC_BODY(fe_nearbyint, tc) 121 1.6 he { 122 1.10 riastrad double received, ipart, fpart; 123 1.6 he 124 1.6 he for (unsigned int i = 0; i < __arraycount(values); i++) { 125 1.6 he fesetround(values[i].round_mode); 126 1.6 he 127 1.6 he received = nearbyint(values[i].input); 128 1.10 riastrad fpart = modf(received, &ipart); 129 1.10 riastrad ATF_CHECK_MSG(fpart == 0, 130 1.10 riastrad "%s nearbyint(%f) has fractional part %f", 131 1.10 riastrad rmname(values[i].round_mode), values[i].input, fpart); 132 1.10 riastrad ATF_CHECK_MSG((long int)received == values[i].expected, 133 1.10 riastrad "%s [%u] nearbyint(%f) got %f, expected %ld\n", 134 1.10 riastrad rmname(values[i].round_mode), 135 1.10 riastrad i, values[i].input, received, values[i].expected); 136 1.6 he 137 1.6 he /* Do we get the same rounding mode out? */ 138 1.10 riastrad ATF_CHECK_MSG(fegetround() == values[i].round_mode, 139 1.10 riastrad "[%u] set %d (%s), got %d (%s)", 140 1.10 riastrad i, 141 1.10 riastrad values[i].round_mode, rmname(values[i].round_mode), 142 1.10 riastrad fegetround(), rmname(fegetround())); 143 1.6 he } 144 1.6 he } 145 1.6 he 146 1.11 riastrad #ifdef __HAVE_LONG_DOUBLE 147 1.11 riastrad 148 1.11 riastrad /* 149 1.11 riastrad * Use one bit more than fits in IEEE 754 binary64. 150 1.11 riastrad */ 151 1.11 riastrad static const struct { 152 1.11 riastrad int round_mode; 153 1.11 riastrad long double input; 154 1.11 riastrad long int expected; 155 1.11 riastrad } valuesl[] = { 156 1.11 riastrad { FE_TOWARDZERO, 0x2.00000000000008p+52L, 0x20000000000000 }, 157 1.11 riastrad { FE_DOWNWARD, 0x2.00000000000008p+52L, 0x20000000000000 }, 158 1.11 riastrad { FE_UPWARD, 0x2.00000000000008p+52L, 0x20000000000001 }, 159 1.11 riastrad { FE_TONEAREST, 0x2.00000000000008p+52L, 0x20000000000000 }, 160 1.11 riastrad { FE_TOWARDZERO, 0x2.00000000000018p+52L, 0x20000000000001 }, 161 1.11 riastrad { FE_DOWNWARD, 0x2.00000000000018p+52L, 0x20000000000001 }, 162 1.11 riastrad { FE_UPWARD, 0x2.00000000000018p+52L, 0x20000000000002 }, 163 1.11 riastrad { FE_TONEAREST, 0x2.00000000000018p+52L, 0x20000000000002 }, 164 1.11 riastrad }; 165 1.11 riastrad 166 1.11 riastrad ATF_TC(fe_nearbyintl); 167 1.11 riastrad ATF_TC_HEAD(fe_nearbyintl, tc) 168 1.11 riastrad { 169 1.11 riastrad atf_tc_set_md_var(tc, "descr", 170 1.11 riastrad "Checking IEEE 754 rounding modes using nearbyintl"); 171 1.11 riastrad } 172 1.11 riastrad 173 1.11 riastrad ATF_TC_BODY(fe_nearbyintl, tc) 174 1.11 riastrad { 175 1.11 riastrad long double received, ipart, fpart; 176 1.11 riastrad 177 1.11 riastrad for (unsigned int i = 0; i < __arraycount(valuesl); i++) { 178 1.11 riastrad fesetround(valuesl[i].round_mode); 179 1.11 riastrad 180 1.11 riastrad received = nearbyintl(valuesl[i].input); 181 1.11 riastrad fpart = modfl(received, &ipart); 182 1.11 riastrad ATF_CHECK_MSG(fpart == 0, 183 1.11 riastrad "%s nearbyintl(%Lf) has fractional part %Lf", 184 1.11 riastrad rmname(values[i].round_mode), valuesl[i].input, fpart); 185 1.11 riastrad ATF_CHECK_MSG((long int)received == valuesl[i].expected, 186 1.11 riastrad "%s [%u] nearbyint(%Lf): got %Lf, expected %ld", 187 1.11 riastrad rmname(values[i].round_mode), i, 188 1.11 riastrad valuesl[i].input, received, valuesl[i].expected); 189 1.11 riastrad 190 1.11 riastrad /* Do we get the same rounding mode out? */ 191 1.11 riastrad ATF_CHECK_MSG(fegetround() == valuesl[i].round_mode, 192 1.11 riastrad "[%u] set %d (%s), got %d (%s)", 193 1.11 riastrad i, 194 1.11 riastrad valuesl[i].round_mode, rmname(valuesl[i].round_mode), 195 1.11 riastrad fegetround(), rmname(fegetround())); 196 1.11 riastrad } 197 1.11 riastrad } 198 1.11 riastrad 199 1.11 riastrad #endif 200 1.11 riastrad 201 1.7 he static const struct { 202 1.7 he double input; 203 1.7 he double toward; 204 1.7 he double expected; 205 1.7 he } values2[] = { 206 1.7 he { 10.0, 11.0, 10.0 }, 207 1.7 he { -5.0, -6.0, -5.0 }, 208 1.7 he }; 209 1.7 he 210 1.7 he ATF_TC(fe_nextafter); 211 1.7 he ATF_TC_HEAD(fe_nextafter, tc) 212 1.7 he { 213 1.7 he atf_tc_set_md_var(tc, "descr", "Checking IEEE 754 rounding using nextafter()"); 214 1.7 he } 215 1.7 he 216 1.7 he ATF_TC_BODY(fe_nextafter, tc) 217 1.7 he { 218 1.7 he double received; 219 1.7 he int res; 220 1.7 he 221 1.7 he for (unsigned int i = 0; i < __arraycount(values2); i++) { 222 1.7 he received = nextafter(values2[i].input, values2[i].toward); 223 1.7 he if (values2[i].input < values2[i].toward) { 224 1.7 he res = (received > values2[i].input); 225 1.7 he } else { 226 1.7 he res = (received < values2[i].input); 227 1.7 he } 228 1.7 he ATF_CHECK_MSG( 229 1.7 he res && (fabs(received - values2[i].expected) < EPSILON), 230 1.7 he "nextafter() rounding wrong, difference too large\n" 231 1.7 he "input: %f (index %d): got %f, expected %f, res %d\n", 232 1.7 he values2[i].input, i, received, values2[i].expected, res); 233 1.7 he } 234 1.7 he } 235 1.7 he 236 1.7 he ATF_TC(fe_nexttoward); 237 1.7 he ATF_TC_HEAD(fe_nexttoward, tc) 238 1.7 he { 239 1.7 he atf_tc_set_md_var(tc, "descr", "Checking IEEE 754 rounding using nexttoward()"); 240 1.7 he } 241 1.7 he 242 1.7 he ATF_TC_BODY(fe_nexttoward, tc) 243 1.7 he { 244 1.7 he double received; 245 1.7 he int res; 246 1.7 he 247 1.7 he for (unsigned int i = 0; i < __arraycount(values2); i++) { 248 1.7 he received = nexttoward(values2[i].input, values2[i].toward); 249 1.7 he if (values2[i].input < values2[i].toward) { 250 1.7 he res = (received > values2[i].input); 251 1.7 he } else { 252 1.7 he res = (received < values2[i].input); 253 1.7 he } 254 1.7 he ATF_CHECK_MSG( 255 1.7 he res && (fabs(received - values2[i].expected) < EPSILON), 256 1.7 he "nexttoward() rounding wrong, difference too large\n" 257 1.7 he "input: %f (index %d): got %f, expected %f, res %d\n", 258 1.7 he values2[i].input, i, received, values2[i].expected, res); 259 1.7 he } 260 1.7 he } 261 1.7 he 262 1.1 maya ATF_TP_ADD_TCS(tp) 263 1.1 maya { 264 1.1 maya 265 1.1 maya ATF_TP_ADD_TC(tp, fe_round); 266 1.6 he ATF_TP_ADD_TC(tp, fe_nearbyint); 267 1.11 riastrad #ifdef __HAVE_LONG_DOUBLE 268 1.11 riastrad ATF_TP_ADD_TC(tp, fe_nearbyintl); 269 1.11 riastrad #endif 270 1.7 he ATF_TP_ADD_TC(tp, fe_nextafter); 271 1.7 he ATF_TP_ADD_TC(tp, fe_nexttoward); 272 1.1 maya 273 1.1 maya return atf_no_error(); 274 1.1 maya } 275 1.1 maya #else 276 1.1 maya ATF_TC(t_nofe_round); 277 1.1 maya 278 1.1 maya ATF_TC_HEAD(t_nofe_round, tc) 279 1.1 maya { 280 1.1 maya atf_tc_set_md_var(tc, "descr", 281 1.1 maya "dummy test case - no fenv.h support"); 282 1.1 maya } 283 1.1 maya 284 1.4 he ATF_TC_BODY(t_nofe_round, tc) 285 1.4 he { 286 1.4 he atf_tc_skip("no fenv.h support on this architecture"); 287 1.4 he } 288 1.1 maya 289 1.6 he ATF_TC(t_nofe_nearbyint); 290 1.6 he 291 1.6 he ATF_TC_HEAD(t_nofe_nearbyint, tc) 292 1.6 he { 293 1.6 he atf_tc_set_md_var(tc, "descr", 294 1.6 he "dummy test case - no fenv.h support"); 295 1.6 he } 296 1.6 he 297 1.6 he ATF_TC_BODY(t_nofe_nearbyint, tc) 298 1.6 he { 299 1.6 he atf_tc_skip("no fenv.h support on this architecture"); 300 1.6 he } 301 1.6 he 302 1.7 he ATF_TC(t_nofe_nextafter); 303 1.7 he 304 1.7 he ATF_TC_HEAD(t_nofe_nextafter, tc) 305 1.7 he { 306 1.7 he atf_tc_set_md_var(tc, "descr", 307 1.7 he "dummy test case - no fenv.h support"); 308 1.7 he } 309 1.7 he 310 1.7 he ATF_TC_BODY(t_nofe_nextafter, tc) 311 1.7 he { 312 1.7 he atf_tc_skip("no fenv.h support on this architecture"); 313 1.7 he } 314 1.7 he 315 1.7 he ATF_TC(t_nofe_nexttoward); 316 1.7 he 317 1.7 he ATF_TC_HEAD(t_nofe_nexttoward, tc) 318 1.7 he { 319 1.7 he atf_tc_set_md_var(tc, "descr", 320 1.7 he "dummy test case - no fenv.h support"); 321 1.7 he } 322 1.7 he 323 1.7 he ATF_TC_BODY(t_nofe_nexttoward, tc) 324 1.7 he { 325 1.7 he atf_tc_skip("no fenv.h support on this architecture"); 326 1.7 he } 327 1.6 he 328 1.1 maya ATF_TP_ADD_TCS(tp) 329 1.1 maya { 330 1.1 maya ATF_TP_ADD_TC(tp, t_nofe_round); 331 1.6 he ATF_TP_ADD_TC(tp, t_nofe_nearbyint); 332 1.7 he ATF_TP_ADD_TC(tp, t_nofe_nextafter); 333 1.7 he ATF_TP_ADD_TC(tp, t_nofe_nexttoward); 334 1.1 maya return atf_no_error(); 335 1.1 maya } 336 1.1 maya 337 1.1 maya #endif 338
Indexes created Tue Sep 23 20:09:58 GMT 2025