testFunction.c revision 1.3
1 1.3 ross /* $NetBSD: testFunction.c,v 1.3 2001/03/13 07:39:59 ross Exp $ */ 2 1.3 ross 3 1.3 ross /* This is a derivative work. */ 4 1.3 ross 5 1.3 ross /*- 6 1.3 ross * Copyright (c) 2001 The NetBSD Foundation, Inc. 7 1.3 ross * All rights reserved. 8 1.3 ross * 9 1.3 ross * This code is derived from software contributed to The NetBSD Foundation 10 1.3 ross * by Ross Harvey. 11 1.3 ross * 12 1.3 ross * Redistribution and use in source and binary forms, with or without 13 1.3 ross * modification, are permitted provided that the following conditions 14 1.3 ross * are met: 15 1.3 ross * 1. Redistributions of source code must retain the above copyright 16 1.3 ross * notice, this list of conditions and the following disclaimer. 17 1.3 ross * 2. Redistributions in binary form must reproduce the above copyright 18 1.3 ross * notice, this list of conditions and the following disclaimer in the 19 1.3 ross * documentation and/or other materials provided with the distribution. 20 1.3 ross * 3. All advertising materials mentioning features or use of this software 21 1.3 ross * must display the following acknowledgement: 22 1.3 ross * This product includes software developed by the NetBSD 23 1.3 ross * Foundation, Inc. and its contributors. 24 1.3 ross * 4. Neither the name of The NetBSD Foundation nor the names of its 25 1.3 ross * contributors may be used to endorse or promote products derived 26 1.3 ross * from this software without specific prior written permission. 27 1.3 ross * 28 1.3 ross * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS 29 1.3 ross * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 30 1.3 ross * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 31 1.3 ross * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS 32 1.3 ross * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 33 1.3 ross * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 34 1.3 ross * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 35 1.3 ross * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 36 1.3 ross * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 37 1.3 ross * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 38 1.3 ross * POSSIBILITY OF SUCH DAMAGE. 39 1.3 ross */ 40 1.1 ross 41 1.1 ross /* 42 1.1 ross =============================================================================== 43 1.1 ross 44 1.1 ross This C source file is part of TestFloat, Release 2a, a package of programs 45 1.1 ross for testing the correctness of floating-point arithmetic complying to the 46 1.1 ross IEC/IEEE Standard for Floating-Point. 47 1.1 ross 48 1.1 ross Written by John R. Hauser. More information is available through the Web 49 1.1 ross page `http://HTTP.CS.Berkeley.EDU/~jhauser/arithmetic/TestFloat.html'. 50 1.1 ross 51 1.1 ross THIS SOFTWARE IS DISTRIBUTED AS IS, FOR FREE. Although reasonable effort 52 1.1 ross has been made to avoid it, THIS SOFTWARE MAY CONTAIN FAULTS THAT WILL AT 53 1.1 ross TIMES RESULT IN INCORRECT BEHAVIOR. USE OF THIS SOFTWARE IS RESTRICTED TO 54 1.1 ross PERSONS AND ORGANIZATIONS WHO CAN AND WILL TAKE FULL RESPONSIBILITY FOR ANY 55 1.1 ross AND ALL LOSSES, COSTS, OR OTHER PROBLEMS ARISING FROM ITS USE. 56 1.1 ross 57 1.1 ross Derivative works are acceptable, even for commercial purposes, so long as 58 1.1 ross (1) they include prominent notice that the work is derivative, and (2) they 59 1.1 ross include prominent notice akin to these four paragraphs for those parts of 60 1.1 ross this code that are retained. 61 1.1 ross 62 1.1 ross =============================================================================== 63 1.1 ross */ 64 1.1 ross 65 1.1 ross #include "milieu.h" 66 1.1 ross #include "softfloat.h" 67 1.1 ross #include "testCases.h" 68 1.1 ross #include "testLoops.h" 69 1.1 ross #include "systmodes.h" 70 1.1 ross #include "systflags.h" 71 1.1 ross #include "systfloat.h" 72 1.1 ross #include "testFunction.h" 73 1.1 ross 74 1.1 ross const functionT functions[ NUM_FUNCTIONS ] = { 75 1.1 ross { 0, 0, 0, 0 }, 76 1.1 ross { "int32_to_float32", 1, FALSE, TRUE }, 77 1.1 ross { "int32_to_float64", 1, FALSE, FALSE }, 78 1.1 ross { "int32_to_floatx80", 1, FALSE, FALSE }, 79 1.1 ross { "int32_to_float128", 1, FALSE, FALSE }, 80 1.1 ross { "int64_to_float32", 1, FALSE, TRUE }, 81 1.1 ross { "int64_to_float64", 1, FALSE, TRUE }, 82 1.1 ross { "int64_to_floatx80", 1, FALSE, FALSE }, 83 1.1 ross { "int64_to_float128", 1, FALSE, FALSE }, 84 1.1 ross { "float32_to_int32", 1, FALSE, TRUE }, 85 1.1 ross { "float32_to_int32_round_to_zero", 1, FALSE, FALSE }, 86 1.1 ross { "float32_to_int64", 1, FALSE, TRUE }, 87 1.1 ross { "float32_to_int64_round_to_zero", 1, FALSE, FALSE }, 88 1.1 ross { "float32_to_float64", 1, FALSE, FALSE }, 89 1.1 ross { "float32_to_floatx80", 1, FALSE, FALSE }, 90 1.1 ross { "float32_to_float128", 1, FALSE, FALSE }, 91 1.1 ross { "float32_round_to_int", 1, FALSE, TRUE }, 92 1.1 ross { "float32_add", 2, FALSE, TRUE }, 93 1.1 ross { "float32_sub", 2, FALSE, TRUE }, 94 1.1 ross { "float32_mul", 2, FALSE, TRUE }, 95 1.1 ross { "float32_div", 2, FALSE, TRUE }, 96 1.1 ross { "float32_rem", 2, FALSE, FALSE }, 97 1.1 ross { "float32_sqrt", 1, FALSE, TRUE }, 98 1.1 ross { "float32_eq", 2, FALSE, FALSE }, 99 1.1 ross { "float32_le", 2, FALSE, FALSE }, 100 1.1 ross { "float32_lt", 2, FALSE, FALSE }, 101 1.1 ross { "float32_eq_signaling", 2, FALSE, FALSE }, 102 1.1 ross { "float32_le_quiet", 2, FALSE, FALSE }, 103 1.1 ross { "float32_lt_quiet", 2, FALSE, FALSE }, 104 1.1 ross { "float64_to_int32", 1, FALSE, TRUE }, 105 1.1 ross { "float64_to_int32_round_to_zero", 1, FALSE, FALSE }, 106 1.1 ross { "float64_to_int64", 1, FALSE, TRUE }, 107 1.1 ross { "float64_to_int64_round_to_zero", 1, FALSE, FALSE }, 108 1.1 ross { "float64_to_float32", 1, FALSE, TRUE }, 109 1.1 ross { "float64_to_floatx80", 1, FALSE, FALSE }, 110 1.1 ross { "float64_to_float128", 1, FALSE, FALSE }, 111 1.1 ross { "float64_round_to_int", 1, FALSE, TRUE }, 112 1.1 ross { "float64_add", 2, FALSE, TRUE }, 113 1.1 ross { "float64_sub", 2, FALSE, TRUE }, 114 1.1 ross { "float64_mul", 2, FALSE, TRUE }, 115 1.1 ross { "float64_div", 2, FALSE, TRUE }, 116 1.1 ross { "float64_rem", 2, FALSE, FALSE }, 117 1.1 ross { "float64_sqrt", 1, FALSE, TRUE }, 118 1.1 ross { "float64_eq", 2, FALSE, FALSE }, 119 1.1 ross { "float64_le", 2, FALSE, FALSE }, 120 1.1 ross { "float64_lt", 2, FALSE, FALSE }, 121 1.1 ross { "float64_eq_signaling", 2, FALSE, FALSE }, 122 1.1 ross { "float64_le_quiet", 2, FALSE, FALSE }, 123 1.1 ross { "float64_lt_quiet", 2, FALSE, FALSE }, 124 1.1 ross { "floatx80_to_int32", 1, FALSE, TRUE }, 125 1.1 ross { "floatx80_to_int32_round_to_zero", 1, FALSE, FALSE }, 126 1.1 ross { "floatx80_to_int64", 1, FALSE, TRUE }, 127 1.1 ross { "floatx80_to_int64_round_to_zero", 1, FALSE, FALSE }, 128 1.1 ross { "floatx80_to_float32", 1, FALSE, TRUE }, 129 1.1 ross { "floatx80_to_float64", 1, FALSE, TRUE }, 130 1.1 ross { "floatx80_to_float128", 1, FALSE, FALSE }, 131 1.1 ross { "floatx80_round_to_int", 1, FALSE, TRUE }, 132 1.1 ross { "floatx80_add", 2, TRUE, TRUE }, 133 1.1 ross { "floatx80_sub", 2, TRUE, TRUE }, 134 1.1 ross { "floatx80_mul", 2, TRUE, TRUE }, 135 1.1 ross { "floatx80_div", 2, TRUE, TRUE }, 136 1.1 ross { "floatx80_rem", 2, FALSE, FALSE }, 137 1.1 ross { "floatx80_sqrt", 1, TRUE, TRUE }, 138 1.1 ross { "floatx80_eq", 2, FALSE, FALSE }, 139 1.1 ross { "floatx80_le", 2, FALSE, FALSE }, 140 1.1 ross { "floatx80_lt", 2, FALSE, FALSE }, 141 1.1 ross { "floatx80_eq_signaling", 2, FALSE, FALSE }, 142 1.1 ross { "floatx80_le_quiet", 2, FALSE, FALSE }, 143 1.1 ross { "floatx80_lt_quiet", 2, FALSE, FALSE }, 144 1.1 ross { "float128_to_int32", 1, FALSE, TRUE }, 145 1.1 ross { "float128_to_int32_round_to_zero", 1, FALSE, FALSE }, 146 1.1 ross { "float128_to_int64", 1, FALSE, TRUE }, 147 1.1 ross { "float128_to_int64_round_to_zero", 1, FALSE, FALSE }, 148 1.1 ross { "float128_to_float32", 1, FALSE, TRUE }, 149 1.1 ross { "float128_to_float64", 1, FALSE, TRUE }, 150 1.1 ross { "float128_to_floatx80", 1, FALSE, TRUE }, 151 1.1 ross { "float128_round_to_int", 1, FALSE, TRUE }, 152 1.1 ross { "float128_add", 2, FALSE, TRUE }, 153 1.1 ross { "float128_sub", 2, FALSE, TRUE }, 154 1.1 ross { "float128_mul", 2, FALSE, TRUE }, 155 1.1 ross { "float128_div", 2, FALSE, TRUE }, 156 1.1 ross { "float128_rem", 2, FALSE, FALSE }, 157 1.1 ross { "float128_sqrt", 1, FALSE, TRUE }, 158 1.1 ross { "float128_eq", 2, FALSE, FALSE }, 159 1.1 ross { "float128_le", 2, FALSE, FALSE }, 160 1.1 ross { "float128_lt", 2, FALSE, FALSE }, 161 1.1 ross { "float128_eq_signaling", 2, FALSE, FALSE }, 162 1.1 ross { "float128_le_quiet", 2, FALSE, FALSE }, 163 1.1 ross { "float128_lt_quiet", 2, FALSE, FALSE }, 164 1.1 ross }; 165 1.1 ross 166 1.1 ross const flag functionExists[ NUM_FUNCTIONS ] = { 167 1.1 ross 0, 168 1.1 ross #ifdef SYST_INT32_TO_FLOAT32 169 1.1 ross 1, 170 1.1 ross #else 171 1.1 ross 0, 172 1.1 ross #endif 173 1.1 ross #ifdef SYST_INT32_TO_FLOAT64 174 1.1 ross 1, 175 1.1 ross #else 176 1.1 ross 0, 177 1.1 ross #endif 178 1.1 ross #ifdef SYST_INT32_TO_FLOATX80 179 1.1 ross 1, 180 1.1 ross #else 181 1.1 ross 0, 182 1.1 ross #endif 183 1.1 ross #ifdef SYST_INT32_TO_FLOAT128 184 1.1 ross 1, 185 1.1 ross #else 186 1.1 ross 0, 187 1.1 ross #endif 188 1.1 ross #ifdef SYST_INT64_TO_FLOAT32 189 1.1 ross 1, 190 1.1 ross #else 191 1.1 ross 0, 192 1.1 ross #endif 193 1.1 ross #ifdef SYST_INT64_TO_FLOAT64 194 1.1 ross 1, 195 1.1 ross #else 196 1.1 ross 0, 197 1.1 ross #endif 198 1.1 ross #ifdef SYST_INT64_TO_FLOATX80 199 1.1 ross 1, 200 1.1 ross #else 201 1.1 ross 0, 202 1.1 ross #endif 203 1.1 ross #ifdef SYST_INT64_TO_FLOAT128 204 1.1 ross 1, 205 1.1 ross #else 206 1.1 ross 0, 207 1.1 ross #endif 208 1.1 ross #ifdef SYST_FLOAT32_TO_INT32 209 1.1 ross 1, 210 1.1 ross #else 211 1.1 ross 0, 212 1.1 ross #endif 213 1.1 ross #ifdef SYST_FLOAT32_TO_INT32_ROUND_TO_ZERO 214 1.1 ross 1, 215 1.1 ross #else 216 1.1 ross 0, 217 1.1 ross #endif 218 1.1 ross #ifdef SYST_FLOAT32_TO_INT64 219 1.1 ross 1, 220 1.1 ross #else 221 1.1 ross 0, 222 1.1 ross #endif 223 1.1 ross #ifdef SYST_FLOAT32_TO_INT64_ROUND_TO_ZERO 224 1.1 ross 1, 225 1.1 ross #else 226 1.1 ross 0, 227 1.1 ross #endif 228 1.1 ross #ifdef SYST_FLOAT32_TO_FLOAT64 229 1.1 ross 1, 230 1.1 ross #else 231 1.1 ross 0, 232 1.1 ross #endif 233 1.1 ross #ifdef SYST_FLOAT32_TO_FLOATX80 234 1.1 ross 1, 235 1.1 ross #else 236 1.1 ross 0, 237 1.1 ross #endif 238 1.1 ross #ifdef SYST_FLOAT32_TO_FLOAT128 239 1.1 ross 1, 240 1.1 ross #else 241 1.1 ross 0, 242 1.1 ross #endif 243 1.1 ross #ifdef SYST_FLOAT32_ROUND_TO_INT 244 1.1 ross 1, 245 1.1 ross #else 246 1.1 ross 0, 247 1.1 ross #endif 248 1.1 ross #ifdef SYST_FLOAT32_ADD 249 1.1 ross 1, 250 1.1 ross #else 251 1.1 ross 0, 252 1.1 ross #endif 253 1.1 ross #ifdef SYST_FLOAT32_SUB 254 1.1 ross 1, 255 1.1 ross #else 256 1.1 ross 0, 257 1.1 ross #endif 258 1.1 ross #ifdef SYST_FLOAT32_MUL 259 1.1 ross 1, 260 1.1 ross #else 261 1.1 ross 0, 262 1.1 ross #endif 263 1.1 ross #ifdef SYST_FLOAT32_DIV 264 1.1 ross 1, 265 1.1 ross #else 266 1.1 ross 0, 267 1.1 ross #endif 268 1.1 ross #ifdef SYST_FLOAT32_REM 269 1.1 ross 1, 270 1.1 ross #else 271 1.1 ross 0, 272 1.1 ross #endif 273 1.1 ross #ifdef SYST_FLOAT32_SQRT 274 1.1 ross 1, 275 1.1 ross #else 276 1.1 ross 0, 277 1.1 ross #endif 278 1.1 ross #ifdef SYST_FLOAT32_EQ 279 1.1 ross 1, 280 1.1 ross #else 281 1.1 ross 0, 282 1.1 ross #endif 283 1.1 ross #ifdef SYST_FLOAT32_LE 284 1.1 ross 1, 285 1.1 ross #else 286 1.1 ross 0, 287 1.1 ross #endif 288 1.1 ross #ifdef SYST_FLOAT32_LT 289 1.1 ross 1, 290 1.1 ross #else 291 1.1 ross 0, 292 1.1 ross #endif 293 1.1 ross #ifdef SYST_FLOAT32_EQ_SIGNALING 294 1.1 ross 1, 295 1.1 ross #else 296 1.1 ross 0, 297 1.1 ross #endif 298 1.1 ross #ifdef SYST_FLOAT32_LE_QUIET 299 1.1 ross 1, 300 1.1 ross #else 301 1.1 ross 0, 302 1.1 ross #endif 303 1.1 ross #ifdef SYST_FLOAT32_LT_QUIET 304 1.1 ross 1, 305 1.1 ross #else 306 1.1 ross 0, 307 1.1 ross #endif 308 1.1 ross #ifdef SYST_FLOAT64_TO_INT32 309 1.1 ross 1, 310 1.1 ross #else 311 1.1 ross 0, 312 1.1 ross #endif 313 1.1 ross #ifdef SYST_FLOAT64_TO_INT32_ROUND_TO_ZERO 314 1.1 ross 1, 315 1.1 ross #else 316 1.1 ross 0, 317 1.1 ross #endif 318 1.1 ross #ifdef SYST_FLOAT64_TO_INT64 319 1.1 ross 1, 320 1.1 ross #else 321 1.1 ross 0, 322 1.1 ross #endif 323 1.1 ross #ifdef SYST_FLOAT64_TO_INT64_ROUND_TO_ZERO 324 1.1 ross 1, 325 1.1 ross #else 326 1.1 ross 0, 327 1.1 ross #endif 328 1.1 ross #ifdef SYST_FLOAT64_TO_FLOAT32 329 1.1 ross 1, 330 1.1 ross #else 331 1.1 ross 0, 332 1.1 ross #endif 333 1.1 ross #ifdef SYST_FLOAT64_TO_FLOATX80 334 1.1 ross 1, 335 1.1 ross #else 336 1.1 ross 0, 337 1.1 ross #endif 338 1.1 ross #ifdef SYST_FLOAT64_TO_FLOAT128 339 1.1 ross 1, 340 1.1 ross #else 341 1.1 ross 0, 342 1.1 ross #endif 343 1.1 ross #ifdef SYST_FLOAT64_ROUND_TO_INT 344 1.1 ross 1, 345 1.1 ross #else 346 1.1 ross 0, 347 1.1 ross #endif 348 1.1 ross #ifdef SYST_FLOAT64_ADD 349 1.1 ross 1, 350 1.1 ross #else 351 1.1 ross 0, 352 1.1 ross #endif 353 1.1 ross #ifdef SYST_FLOAT64_SUB 354 1.1 ross 1, 355 1.1 ross #else 356 1.1 ross 0, 357 1.1 ross #endif 358 1.1 ross #ifdef SYST_FLOAT64_MUL 359 1.1 ross 1, 360 1.1 ross #else 361 1.1 ross 0, 362 1.1 ross #endif 363 1.1 ross #ifdef SYST_FLOAT64_DIV 364 1.1 ross 1, 365 1.1 ross #else 366 1.1 ross 0, 367 1.1 ross #endif 368 1.1 ross #ifdef SYST_FLOAT64_REM 369 1.1 ross 1, 370 1.1 ross #else 371 1.1 ross 0, 372 1.1 ross #endif 373 1.1 ross #ifdef SYST_FLOAT64_SQRT 374 1.1 ross 1, 375 1.1 ross #else 376 1.1 ross 0, 377 1.1 ross #endif 378 1.1 ross #ifdef SYST_FLOAT64_EQ 379 1.1 ross 1, 380 1.1 ross #else 381 1.1 ross 0, 382 1.1 ross #endif 383 1.1 ross #ifdef SYST_FLOAT64_LE 384 1.1 ross 1, 385 1.1 ross #else 386 1.1 ross 0, 387 1.1 ross #endif 388 1.1 ross #ifdef SYST_FLOAT64_LT 389 1.1 ross 1, 390 1.1 ross #else 391 1.1 ross 0, 392 1.1 ross #endif 393 1.1 ross #ifdef SYST_FLOAT64_EQ_SIGNALING 394 1.1 ross 1, 395 1.1 ross #else 396 1.1 ross 0, 397 1.1 ross #endif 398 1.1 ross #ifdef SYST_FLOAT64_LE_QUIET 399 1.1 ross 1, 400 1.1 ross #else 401 1.1 ross 0, 402 1.1 ross #endif 403 1.1 ross #ifdef SYST_FLOAT64_LT_QUIET 404 1.1 ross 1, 405 1.1 ross #else 406 1.1 ross 0, 407 1.1 ross #endif 408 1.1 ross #ifdef SYST_FLOATX80_TO_INT32 409 1.1 ross 1, 410 1.1 ross #else 411 1.1 ross 0, 412 1.1 ross #endif 413 1.1 ross #ifdef SYST_FLOATX80_TO_INT32_ROUND_TO_ZERO 414 1.1 ross 1, 415 1.1 ross #else 416 1.1 ross 0, 417 1.1 ross #endif 418 1.1 ross #ifdef SYST_FLOATX80_TO_INT64 419 1.1 ross 1, 420 1.1 ross #else 421 1.1 ross 0, 422 1.1 ross #endif 423 1.1 ross #ifdef SYST_FLOATX80_TO_INT64_ROUND_TO_ZERO 424 1.1 ross 1, 425 1.1 ross #else 426 1.1 ross 0, 427 1.1 ross #endif 428 1.1 ross #ifdef SYST_FLOATX80_TO_FLOAT32 429 1.1 ross 1, 430 1.1 ross #else 431 1.1 ross 0, 432 1.1 ross #endif 433 1.1 ross #ifdef SYST_FLOATX80_TO_FLOAT64 434 1.1 ross 1, 435 1.1 ross #else 436 1.1 ross 0, 437 1.1 ross #endif 438 1.1 ross #ifdef SYST_FLOATX80_TO_FLOAT128 439 1.1 ross 1, 440 1.1 ross #else 441 1.1 ross 0, 442 1.1 ross #endif 443 1.1 ross #ifdef SYST_FLOATX80_ROUND_TO_INT 444 1.1 ross 1, 445 1.1 ross #else 446 1.1 ross 0, 447 1.1 ross #endif 448 1.1 ross #ifdef SYST_FLOATX80_ADD 449 1.1 ross 1, 450 1.1 ross #else 451 1.1 ross 0, 452 1.1 ross #endif 453 1.1 ross #ifdef SYST_FLOATX80_SUB 454 1.1 ross 1, 455 1.1 ross #else 456 1.1 ross 0, 457 1.1 ross #endif 458 1.1 ross #ifdef SYST_FLOATX80_MUL 459 1.1 ross 1, 460 1.1 ross #else 461 1.1 ross 0, 462 1.1 ross #endif 463 1.1 ross #ifdef SYST_FLOATX80_DIV 464 1.1 ross 1, 465 1.1 ross #else 466 1.1 ross 0, 467 1.1 ross #endif 468 1.1 ross #ifdef SYST_FLOATX80_REM 469 1.1 ross 1, 470 1.1 ross #else 471 1.1 ross 0, 472 1.1 ross #endif 473 1.1 ross #ifdef SYST_FLOATX80_SQRT 474 1.1 ross 1, 475 1.1 ross #else 476 1.1 ross 0, 477 1.1 ross #endif 478 1.1 ross #ifdef SYST_FLOATX80_EQ 479 1.1 ross 1, 480 1.1 ross #else 481 1.1 ross 0, 482 1.1 ross #endif 483 1.1 ross #ifdef SYST_FLOATX80_LE 484 1.1 ross 1, 485 1.1 ross #else 486 1.1 ross 0, 487 1.1 ross #endif 488 1.1 ross #ifdef SYST_FLOATX80_LT 489 1.1 ross 1, 490 1.1 ross #else 491 1.1 ross 0, 492 1.1 ross #endif 493 1.1 ross #ifdef SYST_FLOATX80_EQ_SIGNALING 494 1.1 ross 1, 495 1.1 ross #else 496 1.1 ross 0, 497 1.1 ross #endif 498 1.1 ross #ifdef SYST_FLOATX80_LE_QUIET 499 1.1 ross 1, 500 1.1 ross #else 501 1.1 ross 0, 502 1.1 ross #endif 503 1.1 ross #ifdef SYST_FLOATX80_LT_QUIET 504 1.1 ross 1, 505 1.1 ross #else 506 1.1 ross 0, 507 1.1 ross #endif 508 1.1 ross #ifdef SYST_FLOAT128_TO_INT32 509 1.1 ross 1, 510 1.1 ross #else 511 1.1 ross 0, 512 1.1 ross #endif 513 1.1 ross #ifdef SYST_FLOAT128_TO_INT32_ROUND_TO_ZERO 514 1.1 ross 1, 515 1.1 ross #else 516 1.1 ross 0, 517 1.1 ross #endif 518 1.1 ross #ifdef SYST_FLOAT128_TO_INT64 519 1.1 ross 1, 520 1.1 ross #else 521 1.1 ross 0, 522 1.1 ross #endif 523 1.1 ross #ifdef SYST_FLOAT128_TO_INT64_ROUND_TO_ZERO 524 1.1 ross 1, 525 1.1 ross #else 526 1.1 ross 0, 527 1.1 ross #endif 528 1.1 ross #ifdef SYST_FLOAT128_TO_FLOAT32 529 1.1 ross 1, 530 1.1 ross #else 531 1.1 ross 0, 532 1.1 ross #endif 533 1.1 ross #ifdef SYST_FLOAT128_TO_FLOAT64 534 1.1 ross 1, 535 1.1 ross #else 536 1.1 ross 0, 537 1.1 ross #endif 538 1.1 ross #ifdef SYST_FLOAT128_TO_FLOATX80 539 1.1 ross 1, 540 1.1 ross #else 541 1.1 ross 0, 542 1.1 ross #endif 543 1.1 ross #ifdef SYST_FLOAT128_ROUND_TO_INT 544 1.1 ross 1, 545 1.1 ross #else 546 1.1 ross 0, 547 1.1 ross #endif 548 1.1 ross #ifdef SYST_FLOAT128_ADD 549 1.1 ross 1, 550 1.1 ross #else 551 1.1 ross 0, 552 1.1 ross #endif 553 1.1 ross #ifdef SYST_FLOAT128_SUB 554 1.1 ross 1, 555 1.1 ross #else 556 1.1 ross 0, 557 1.1 ross #endif 558 1.1 ross #ifdef SYST_FLOAT128_MUL 559 1.1 ross 1, 560 1.1 ross #else 561 1.1 ross 0, 562 1.1 ross #endif 563 1.1 ross #ifdef SYST_FLOAT128_DIV 564 1.1 ross 1, 565 1.1 ross #else 566 1.1 ross 0, 567 1.1 ross #endif 568 1.1 ross #ifdef SYST_FLOAT128_REM 569 1.1 ross 1, 570 1.1 ross #else 571 1.1 ross 0, 572 1.1 ross #endif 573 1.1 ross #ifdef SYST_FLOAT128_SQRT 574 1.1 ross 1, 575 1.1 ross #else 576 1.1 ross 0, 577 1.1 ross #endif 578 1.1 ross #ifdef SYST_FLOAT128_EQ 579 1.1 ross 1, 580 1.1 ross #else 581 1.1 ross 0, 582 1.1 ross #endif 583 1.1 ross #ifdef SYST_FLOAT128_LE 584 1.1 ross 1, 585 1.1 ross #else 586 1.1 ross 0, 587 1.1 ross #endif 588 1.1 ross #ifdef SYST_FLOAT128_LT 589 1.1 ross 1, 590 1.1 ross #else 591 1.1 ross 0, 592 1.1 ross #endif 593 1.1 ross #ifdef SYST_FLOAT128_EQ_SIGNALING 594 1.1 ross 1, 595 1.1 ross #else 596 1.1 ross 0, 597 1.1 ross #endif 598 1.1 ross #ifdef SYST_FLOAT128_LE_QUIET 599 1.1 ross 1, 600 1.1 ross #else 601 1.1 ross 0, 602 1.1 ross #endif 603 1.1 ross #ifdef SYST_FLOAT128_LT_QUIET 604 1.1 ross 1, 605 1.1 ross #else 606 1.1 ross 0, 607 1.1 ross #endif 608 1.1 ross }; 609 1.1 ross 610 1.1 ross static void 611 1.1 ross testFunctionVariety( 612 1.1 ross uint8 functionCode, int8 roundingPrecision, int8 roundingMode ) 613 1.1 ross { 614 1.1 ross uint8 roundingCode; 615 1.1 ross 616 1.1 ross functionName = functions[ functionCode ].name; 617 1.1 ross #ifdef FLOATX80 618 1.1 ross if ( roundingPrecision == 32 ) { 619 1.1 ross roundingPrecisionName = "32"; 620 1.1 ross } 621 1.1 ross else if ( roundingPrecision == 64 ) { 622 1.1 ross roundingPrecisionName = "64"; 623 1.1 ross } 624 1.1 ross else if ( roundingPrecision == 80 ) { 625 1.1 ross roundingPrecisionName = "80"; 626 1.1 ross } 627 1.1 ross else { 628 1.1 ross roundingPrecision = 80; 629 1.1 ross roundingPrecisionName = 0; 630 1.1 ross } 631 1.1 ross floatx80_rounding_precision = roundingPrecision; 632 1.1 ross syst_float_set_rounding_precision( roundingPrecision ); 633 1.1 ross #endif 634 1.1 ross switch ( roundingMode ) { 635 1.1 ross case 0: 636 1.1 ross roundingModeName = 0; 637 1.1 ross roundingCode = float_round_nearest_even; 638 1.1 ross break; 639 1.1 ross case ROUND_NEAREST_EVEN: 640 1.1 ross roundingModeName = "nearest_even"; 641 1.1 ross roundingCode = float_round_nearest_even; 642 1.1 ross break; 643 1.1 ross case ROUND_TO_ZERO: 644 1.1 ross roundingModeName = "to_zero"; 645 1.1 ross roundingCode = float_round_to_zero; 646 1.1 ross break; 647 1.1 ross case ROUND_DOWN: 648 1.1 ross roundingModeName = "down"; 649 1.1 ross roundingCode = float_round_down; 650 1.1 ross break; 651 1.1 ross case ROUND_UP: 652 1.1 ross roundingModeName = "up"; 653 1.1 ross roundingCode = float_round_up; 654 1.1 ross break; 655 1.1 ross } 656 1.1 ross float_rounding_mode = roundingCode; 657 1.1 ross syst_float_set_rounding_mode( roundingCode ); 658 1.1 ross fputs( "Testing ", stderr ); 659 1.1 ross writeFunctionName( stderr ); 660 1.1 ross fputs( ".\n", stderr ); 661 1.1 ross switch ( functionCode ) { 662 1.1 ross #ifdef SYST_INT32_TO_FLOAT32 663 1.1 ross case INT32_TO_FLOAT32: 664 1.1 ross test_a_int32_z_float32( int32_to_float32, syst_int32_to_float32 ); 665 1.1 ross break; 666 1.1 ross #endif 667 1.1 ross #ifdef SYST_INT32_TO_FLOAT64 668 1.1 ross case INT32_TO_FLOAT64: 669 1.1 ross test_a_int32_z_float64( int32_to_float64, syst_int32_to_float64 ); 670 1.1 ross break; 671 1.1 ross #endif 672 1.1 ross #ifdef SYST_INT32_TO_FLOATX80 673 1.1 ross case INT32_TO_FLOATX80: 674 1.1 ross test_a_int32_z_floatx80( int32_to_floatx80, syst_int32_to_floatx80 ); 675 1.1 ross break; 676 1.1 ross #endif 677 1.1 ross #ifdef SYST_INT32_TO_FLOAT128 678 1.1 ross case INT32_TO_FLOAT128: 679 1.1 ross test_a_int32_z_float128( int32_to_float128, syst_int32_to_float128 ); 680 1.1 ross break; 681 1.1 ross #endif 682 1.1 ross #ifdef SYST_INT64_TO_FLOAT32 683 1.1 ross case INT64_TO_FLOAT32: 684 1.1 ross test_a_int64_z_float32( int64_to_float32, syst_int64_to_float32 ); 685 1.1 ross break; 686 1.1 ross #endif 687 1.1 ross #ifdef SYST_INT64_TO_FLOAT64 688 1.1 ross case INT64_TO_FLOAT64: 689 1.1 ross test_a_int64_z_float64( int64_to_float64, syst_int64_to_float64 ); 690 1.1 ross break; 691 1.1 ross #endif 692 1.1 ross #ifdef SYST_INT64_TO_FLOATX80 693 1.1 ross case INT64_TO_FLOATX80: 694 1.1 ross test_a_int64_z_floatx80( int64_to_floatx80, syst_int64_to_floatx80 ); 695 1.1 ross break; 696 1.1 ross #endif 697 1.1 ross #ifdef SYST_INT64_TO_FLOAT128 698 1.1 ross case INT64_TO_FLOAT128: 699 1.1 ross test_a_int64_z_float128( int64_to_float128, syst_int64_to_float128 ); 700 1.1 ross break; 701 1.1 ross #endif 702 1.1 ross #ifdef SYST_FLOAT32_TO_INT32 703 1.1 ross case FLOAT32_TO_INT32: 704 1.1 ross test_a_float32_z_int32( float32_to_int32, syst_float32_to_int32 ); 705 1.1 ross break; 706 1.1 ross #endif 707 1.1 ross #ifdef SYST_FLOAT32_TO_INT32_ROUND_TO_ZERO 708 1.1 ross case FLOAT32_TO_INT32_ROUND_TO_ZERO: 709 1.1 ross test_a_float32_z_int32( 710 1.1 ross float32_to_int32_round_to_zero, 711 1.1 ross syst_float32_to_int32_round_to_zero 712 1.1 ross ); 713 1.1 ross break; 714 1.1 ross #endif 715 1.1 ross #ifdef SYST_FLOAT32_TO_INT64 716 1.1 ross case FLOAT32_TO_INT64: 717 1.1 ross test_a_float32_z_int64( float32_to_int64, syst_float32_to_int64 ); 718 1.1 ross break; 719 1.1 ross #endif 720 1.1 ross #ifdef SYST_FLOAT32_TO_INT64_ROUND_TO_ZERO 721 1.1 ross case FLOAT32_TO_INT64_ROUND_TO_ZERO: 722 1.1 ross test_a_float32_z_int64( 723 1.1 ross float32_to_int64_round_to_zero, 724 1.1 ross syst_float32_to_int64_round_to_zero 725 1.1 ross ); 726 1.1 ross break; 727 1.1 ross #endif 728 1.1 ross #ifdef SYST_FLOAT32_TO_FLOAT64 729 1.1 ross case FLOAT32_TO_FLOAT64: 730 1.1 ross test_a_float32_z_float64( 731 1.1 ross float32_to_float64, syst_float32_to_float64 ); 732 1.1 ross break; 733 1.1 ross #endif 734 1.1 ross #ifdef SYST_FLOAT32_TO_FLOATX80 735 1.1 ross case FLOAT32_TO_FLOATX80: 736 1.1 ross test_a_float32_z_floatx80( 737 1.1 ross float32_to_floatx80, syst_float32_to_floatx80 ); 738 1.1 ross break; 739 1.1 ross #endif 740 1.1 ross #ifdef SYST_FLOAT32_TO_FLOAT128 741 1.1 ross case FLOAT32_TO_FLOAT128: 742 1.1 ross test_a_float32_z_float128( 743 1.1 ross float32_to_float128, syst_float32_to_float128 ); 744 1.1 ross break; 745 1.1 ross #endif 746 1.1 ross #ifdef SYST_FLOAT32_ROUND_TO_INT 747 1.1 ross case FLOAT32_ROUND_TO_INT: 748 1.1 ross test_az_float32( float32_round_to_int, syst_float32_round_to_int ); 749 1.1 ross break; 750 1.1 ross #endif 751 1.1 ross #ifdef SYST_FLOAT32_ADD 752 1.1 ross case FLOAT32_ADD: 753 1.1 ross test_abz_float32( float32_add, syst_float32_add ); 754 1.1 ross break; 755 1.1 ross #endif 756 1.1 ross #ifdef SYST_FLOAT32_SUB 757 1.1 ross case FLOAT32_SUB: 758 1.1 ross test_abz_float32( float32_sub, syst_float32_sub ); 759 1.1 ross break; 760 1.1 ross #endif 761 1.1 ross #ifdef SYST_FLOAT32_MUL 762 1.1 ross case FLOAT32_MUL: 763 1.1 ross test_abz_float32( float32_mul, syst_float32_mul ); 764 1.1 ross break; 765 1.1 ross #endif 766 1.1 ross #ifdef SYST_FLOAT32_DIV 767 1.1 ross case FLOAT32_DIV: 768 1.1 ross test_abz_float32( float32_div, syst_float32_div ); 769 1.1 ross break; 770 1.1 ross #endif 771 1.1 ross #ifdef SYST_FLOAT32_REM 772 1.1 ross case FLOAT32_REM: 773 1.1 ross test_abz_float32( float32_rem, syst_float32_rem ); 774 1.1 ross break; 775 1.1 ross #endif 776 1.1 ross #ifdef SYST_FLOAT32_SQRT 777 1.1 ross case FLOAT32_SQRT: 778 1.1 ross test_az_float32( float32_sqrt, syst_float32_sqrt ); 779 1.1 ross break; 780 1.1 ross #endif 781 1.1 ross #ifdef SYST_FLOAT32_EQ 782 1.1 ross case FLOAT32_EQ: 783 1.1 ross test_ab_float32_z_flag( float32_eq, syst_float32_eq ); 784 1.1 ross break; 785 1.1 ross #endif 786 1.1 ross #ifdef SYST_FLOAT32_LE 787 1.1 ross case FLOAT32_LE: 788 1.1 ross test_ab_float32_z_flag( float32_le, syst_float32_le ); 789 1.1 ross break; 790 1.1 ross #endif 791 1.1 ross #ifdef SYST_FLOAT32_LT 792 1.1 ross case FLOAT32_LT: 793 1.1 ross test_ab_float32_z_flag( float32_lt, syst_float32_lt ); 794 1.1 ross break; 795 1.1 ross #endif 796 1.1 ross #ifdef SYST_FLOAT32_EQ_SIGNALING 797 1.1 ross case FLOAT32_EQ_SIGNALING: 798 1.1 ross test_ab_float32_z_flag( 799 1.1 ross float32_eq_signaling, syst_float32_eq_signaling ); 800 1.1 ross break; 801 1.1 ross #endif 802 1.1 ross #ifdef SYST_FLOAT32_LE_QUIET 803 1.1 ross case FLOAT32_LE_QUIET: 804 1.1 ross test_ab_float32_z_flag( float32_le_quiet, syst_float32_le_quiet ); 805 1.1 ross break; 806 1.1 ross #endif 807 1.1 ross #ifdef SYST_FLOAT32_LT_QUIET 808 1.1 ross case FLOAT32_LT_QUIET: 809 1.1 ross test_ab_float32_z_flag( float32_lt_quiet, syst_float32_lt_quiet ); 810 1.1 ross break; 811 1.1 ross #endif 812 1.1 ross #ifdef SYST_FLOAT64_TO_INT32 813 1.1 ross case FLOAT64_TO_INT32: 814 1.1 ross test_a_float64_z_int32( float64_to_int32, syst_float64_to_int32 ); 815 1.1 ross break; 816 1.1 ross #endif 817 1.1 ross #ifdef SYST_FLOAT64_TO_INT32_ROUND_TO_ZERO 818 1.1 ross case FLOAT64_TO_INT32_ROUND_TO_ZERO: 819 1.1 ross test_a_float64_z_int32( 820 1.1 ross float64_to_int32_round_to_zero, 821 1.1 ross syst_float64_to_int32_round_to_zero 822 1.1 ross ); 823 1.1 ross break; 824 1.1 ross #endif 825 1.1 ross #ifdef SYST_FLOAT64_TO_INT64 826 1.1 ross case FLOAT64_TO_INT64: 827 1.1 ross test_a_float64_z_int64( float64_to_int64, syst_float64_to_int64 ); 828 1.1 ross break; 829 1.1 ross #endif 830 1.1 ross #ifdef SYST_FLOAT64_TO_INT64_ROUND_TO_ZERO 831 1.1 ross case FLOAT64_TO_INT64_ROUND_TO_ZERO: 832 1.1 ross test_a_float64_z_int64( 833 1.1 ross float64_to_int64_round_to_zero, 834 1.1 ross syst_float64_to_int64_round_to_zero 835 1.1 ross ); 836 1.1 ross break; 837 1.1 ross #endif 838 1.1 ross #ifdef SYST_FLOAT64_TO_FLOAT32 839 1.1 ross case FLOAT64_TO_FLOAT32: 840 1.1 ross test_a_float64_z_float32( 841 1.1 ross float64_to_float32, syst_float64_to_float32 ); 842 1.1 ross break; 843 1.1 ross #endif 844 1.1 ross #ifdef SYST_FLOAT64_TO_FLOATX80 845 1.1 ross case FLOAT64_TO_FLOATX80: 846 1.1 ross test_a_float64_z_floatx80( 847 1.1 ross float64_to_floatx80, syst_float64_to_floatx80 ); 848 1.1 ross break; 849 1.1 ross #endif 850 1.1 ross #ifdef SYST_FLOAT64_TO_FLOAT128 851 1.1 ross case FLOAT64_TO_FLOAT128: 852 1.1 ross test_a_float64_z_float128( 853 1.1 ross float64_to_float128, syst_float64_to_float128 ); 854 1.1 ross break; 855 1.1 ross #endif 856 1.1 ross #ifdef SYST_FLOAT64_ROUND_TO_INT 857 1.1 ross case FLOAT64_ROUND_TO_INT: 858 1.1 ross test_az_float64( float64_round_to_int, syst_float64_round_to_int ); 859 1.1 ross break; 860 1.1 ross #endif 861 1.1 ross #ifdef SYST_FLOAT64_ADD 862 1.1 ross case FLOAT64_ADD: 863 1.1 ross test_abz_float64( float64_add, syst_float64_add ); 864 1.1 ross break; 865 1.1 ross #endif 866 1.1 ross #ifdef SYST_FLOAT64_SUB 867 1.1 ross case FLOAT64_SUB: 868 1.1 ross test_abz_float64( float64_sub, syst_float64_sub ); 869 1.1 ross break; 870 1.1 ross #endif 871 1.1 ross #ifdef SYST_FLOAT64_MUL 872 1.1 ross case FLOAT64_MUL: 873 1.1 ross test_abz_float64( float64_mul, syst_float64_mul ); 874 1.1 ross break; 875 1.1 ross #endif 876 1.1 ross #ifdef SYST_FLOAT64_DIV 877 1.1 ross case FLOAT64_DIV: 878 1.1 ross test_abz_float64( float64_div, syst_float64_div ); 879 1.1 ross break; 880 1.1 ross #endif 881 1.1 ross #ifdef SYST_FLOAT64_REM 882 1.1 ross case FLOAT64_REM: 883 1.1 ross test_abz_float64( float64_rem, syst_float64_rem ); 884 1.1 ross break; 885 1.1 ross #endif 886 1.1 ross #ifdef SYST_FLOAT64_SQRT 887 1.1 ross case FLOAT64_SQRT: 888 1.1 ross test_az_float64( float64_sqrt, syst_float64_sqrt ); 889 1.1 ross break; 890 1.1 ross #endif 891 1.1 ross #ifdef SYST_FLOAT64_EQ 892 1.1 ross case FLOAT64_EQ: 893 1.1 ross test_ab_float64_z_flag( float64_eq, syst_float64_eq ); 894 1.1 ross break; 895 1.1 ross #endif 896 1.1 ross #ifdef SYST_FLOAT64_LE 897 1.1 ross case FLOAT64_LE: 898 1.1 ross test_ab_float64_z_flag( float64_le, syst_float64_le ); 899 1.1 ross break; 900 1.1 ross #endif 901 1.1 ross #ifdef SYST_FLOAT64_LT 902 1.1 ross case FLOAT64_LT: 903 1.1 ross test_ab_float64_z_flag( float64_lt, syst_float64_lt ); 904 1.1 ross break; 905 1.1 ross #endif 906 1.1 ross #ifdef SYST_FLOAT64_EQ_SIGNALING 907 1.1 ross case FLOAT64_EQ_SIGNALING: 908 1.1 ross test_ab_float64_z_flag( 909 1.1 ross float64_eq_signaling, syst_float64_eq_signaling ); 910 1.1 ross break; 911 1.1 ross #endif 912 1.1 ross #ifdef SYST_FLOAT64_LE_QUIET 913 1.1 ross case FLOAT64_LE_QUIET: 914 1.1 ross test_ab_float64_z_flag( float64_le_quiet, syst_float64_le_quiet ); 915 1.1 ross break; 916 1.1 ross #endif 917 1.1 ross #ifdef SYST_FLOAT64_LT_QUIET 918 1.1 ross case FLOAT64_LT_QUIET: 919 1.1 ross test_ab_float64_z_flag( float64_lt_quiet, syst_float64_lt_quiet ); 920 1.1 ross break; 921 1.1 ross #endif 922 1.1 ross #ifdef SYST_FLOATX80_TO_INT32 923 1.1 ross case FLOATX80_TO_INT32: 924 1.1 ross test_a_floatx80_z_int32( floatx80_to_int32, syst_floatx80_to_int32 ); 925 1.1 ross break; 926 1.1 ross #endif 927 1.1 ross #ifdef SYST_FLOATX80_TO_INT32_ROUND_TO_ZERO 928 1.1 ross case FLOATX80_TO_INT32_ROUND_TO_ZERO: 929 1.1 ross test_a_floatx80_z_int32( 930 1.1 ross floatx80_to_int32_round_to_zero, 931 1.1 ross syst_floatx80_to_int32_round_to_zero 932 1.1 ross ); 933 1.1 ross break; 934 1.1 ross #endif 935 1.1 ross #ifdef SYST_FLOATX80_TO_INT64 936 1.1 ross case FLOATX80_TO_INT64: 937 1.1 ross test_a_floatx80_z_int64( floatx80_to_int64, syst_floatx80_to_int64 ); 938 1.1 ross break; 939 1.1 ross #endif 940 1.1 ross #ifdef SYST_FLOATX80_TO_INT64_ROUND_TO_ZERO 941 1.1 ross case FLOATX80_TO_INT64_ROUND_TO_ZERO: 942 1.1 ross test_a_floatx80_z_int64( 943 1.1 ross floatx80_to_int64_round_to_zero, 944 1.1 ross syst_floatx80_to_int64_round_to_zero 945 1.1 ross ); 946 1.1 ross break; 947 1.1 ross #endif 948 1.1 ross #ifdef SYST_FLOATX80_TO_FLOAT32 949 1.1 ross case FLOATX80_TO_FLOAT32: 950 1.1 ross test_a_floatx80_z_float32( 951 1.1 ross floatx80_to_float32, syst_floatx80_to_float32 ); 952 1.1 ross break; 953 1.1 ross #endif 954 1.1 ross #ifdef SYST_FLOATX80_TO_FLOAT64 955 1.1 ross case FLOATX80_TO_FLOAT64: 956 1.1 ross test_a_floatx80_z_float64( 957 1.1 ross floatx80_to_float64, syst_floatx80_to_float64 ); 958 1.1 ross break; 959 1.1 ross #endif 960 1.1 ross #ifdef SYST_FLOATX80_TO_FLOAT128 961 1.1 ross case FLOATX80_TO_FLOAT128: 962 1.1 ross test_a_floatx80_z_float128( 963 1.1 ross floatx80_to_float128, syst_floatx80_to_float128 ); 964 1.1 ross break; 965 1.1 ross #endif 966 1.1 ross #ifdef SYST_FLOATX80_ROUND_TO_INT 967 1.1 ross case FLOATX80_ROUND_TO_INT: 968 1.1 ross test_az_floatx80( floatx80_round_to_int, syst_floatx80_round_to_int ); 969 1.1 ross break; 970 1.1 ross #endif 971 1.1 ross #ifdef SYST_FLOATX80_ADD 972 1.1 ross case FLOATX80_ADD: 973 1.1 ross test_abz_floatx80( floatx80_add, syst_floatx80_add ); 974 1.1 ross break; 975 1.1 ross #endif 976 1.1 ross #ifdef SYST_FLOATX80_SUB 977 1.1 ross case FLOATX80_SUB: 978 1.1 ross test_abz_floatx80( floatx80_sub, syst_floatx80_sub ); 979 1.1 ross break; 980 1.1 ross #endif 981 1.1 ross #ifdef SYST_FLOATX80_MUL 982 1.1 ross case FLOATX80_MUL: 983 1.1 ross test_abz_floatx80( floatx80_mul, syst_floatx80_mul ); 984 1.1 ross break; 985 1.1 ross #endif 986 1.1 ross #ifdef SYST_FLOATX80_DIV 987 1.1 ross case FLOATX80_DIV: 988 1.1 ross test_abz_floatx80( floatx80_div, syst_floatx80_div ); 989 1.1 ross break; 990 1.1 ross #endif 991 1.1 ross #ifdef SYST_FLOATX80_REM 992 1.1 ross case FLOATX80_REM: 993 1.1 ross test_abz_floatx80( floatx80_rem, syst_floatx80_rem ); 994 1.1 ross break; 995 1.1 ross #endif 996 1.1 ross #ifdef SYST_FLOATX80_SQRT 997 1.1 ross case FLOATX80_SQRT: 998 1.1 ross test_az_floatx80( floatx80_sqrt, syst_floatx80_sqrt ); 999 1.1 ross break; 1000 1.1 ross #endif 1001 1.1 ross #ifdef SYST_FLOATX80_EQ 1002 1.1 ross case FLOATX80_EQ: 1003 1.1 ross test_ab_floatx80_z_flag( floatx80_eq, syst_floatx80_eq ); 1004 1.1 ross break; 1005 1.1 ross #endif 1006 1.1 ross #ifdef SYST_FLOATX80_LE 1007 1.1 ross case FLOATX80_LE: 1008 1.1 ross test_ab_floatx80_z_flag( floatx80_le, syst_floatx80_le ); 1009 1.1 ross break; 1010 1.1 ross #endif 1011 1.1 ross #ifdef SYST_FLOATX80_LT 1012 1.1 ross case FLOATX80_LT: 1013 1.1 ross test_ab_floatx80_z_flag( floatx80_lt, syst_floatx80_lt ); 1014 1.1 ross break; 1015 1.1 ross #endif 1016 1.1 ross #ifdef SYST_FLOATX80_EQ_SIGNALING 1017 1.1 ross case FLOATX80_EQ_SIGNALING: 1018 1.1 ross test_ab_floatx80_z_flag( 1019 1.1 ross floatx80_eq_signaling, syst_floatx80_eq_signaling ); 1020 1.1 ross break; 1021 1.1 ross #endif 1022 1.1 ross #ifdef SYST_FLOATX80_LE_QUIET 1023 1.1 ross case FLOATX80_LE_QUIET: 1024 1.1 ross test_ab_floatx80_z_flag( floatx80_le_quiet, syst_floatx80_le_quiet ); 1025 1.1 ross break; 1026 1.1 ross #endif 1027 1.1 ross #ifdef SYST_FLOATX80_LT_QUIET 1028 1.1 ross case FLOATX80_LT_QUIET: 1029 1.1 ross test_ab_floatx80_z_flag( floatx80_lt_quiet, syst_floatx80_lt_quiet ); 1030 1.1 ross break; 1031 1.1 ross #endif 1032 1.1 ross #ifdef SYST_FLOAT128_TO_INT32 1033 1.1 ross case FLOAT128_TO_INT32: 1034 1.1 ross test_a_float128_z_int32( float128_to_int32, syst_float128_to_int32 ); 1035 1.1 ross break; 1036 1.1 ross #endif 1037 1.1 ross #ifdef SYST_FLOAT128_TO_INT32_ROUND_TO_ZERO 1038 1.1 ross case FLOAT128_TO_INT32_ROUND_TO_ZERO: 1039 1.1 ross test_a_float128_z_int32( 1040 1.1 ross float128_to_int32_round_to_zero, 1041 1.1 ross syst_float128_to_int32_round_to_zero 1042 1.1 ross ); 1043 1.1 ross break; 1044 1.1 ross #endif 1045 1.1 ross #ifdef SYST_FLOAT128_TO_INT64 1046 1.1 ross case FLOAT128_TO_INT64: 1047 1.1 ross test_a_float128_z_int64( float128_to_int64, syst_float128_to_int64 ); 1048 1.1 ross break; 1049 1.1 ross #endif 1050 1.1 ross #ifdef SYST_FLOAT128_TO_INT64_ROUND_TO_ZERO 1051 1.1 ross case FLOAT128_TO_INT64_ROUND_TO_ZERO: 1052 1.1 ross test_a_float128_z_int64( 1053 1.1 ross float128_to_int64_round_to_zero, 1054 1.1 ross syst_float128_to_int64_round_to_zero 1055 1.1 ross ); 1056 1.1 ross break; 1057 1.1 ross #endif 1058 1.1 ross #ifdef SYST_FLOAT128_TO_FLOAT32 1059 1.1 ross case FLOAT128_TO_FLOAT32: 1060 1.1 ross test_a_float128_z_float32( 1061 1.1 ross float128_to_float32, syst_float128_to_float32 ); 1062 1.1 ross break; 1063 1.1 ross #endif 1064 1.1 ross #ifdef SYST_FLOAT128_TO_FLOAT64 1065 1.1 ross case FLOAT128_TO_FLOAT64: 1066 1.1 ross test_a_float128_z_float64( 1067 1.1 ross float128_to_float64, syst_float128_to_float64 ); 1068 1.1 ross break; 1069 1.1 ross #endif 1070 1.1 ross #ifdef SYST_FLOAT128_TO_FLOATX80 1071 1.1 ross case FLOAT128_TO_FLOATX80: 1072 1.1 ross test_a_float128_z_floatx80( 1073 1.1 ross float128_to_floatx80, syst_float128_to_floatx80 ); 1074 1.1 ross break; 1075 1.1 ross #endif 1076 1.1 ross #ifdef SYST_FLOAT128_ROUND_TO_INT 1077 1.1 ross case FLOAT128_ROUND_TO_INT: 1078 1.1 ross test_az_float128( float128_round_to_int, syst_float128_round_to_int ); 1079 1.1 ross break; 1080 1.1 ross #endif 1081 1.1 ross #ifdef SYST_FLOAT128_ADD 1082 1.1 ross case FLOAT128_ADD: 1083 1.1 ross test_abz_float128( float128_add, syst_float128_add ); 1084 1.1 ross break; 1085 1.1 ross #endif 1086 1.1 ross #ifdef SYST_FLOAT128_SUB 1087 1.1 ross case FLOAT128_SUB: 1088 1.1 ross test_abz_float128( float128_sub, syst_float128_sub ); 1089 1.1 ross break; 1090 1.1 ross #endif 1091 1.1 ross #ifdef SYST_FLOAT128_MUL 1092 1.1 ross case FLOAT128_MUL: 1093 1.1 ross test_abz_float128( float128_mul, syst_float128_mul ); 1094 1.1 ross break; 1095 1.1 ross #endif 1096 1.1 ross #ifdef SYST_FLOAT128_DIV 1097 1.1 ross case FLOAT128_DIV: 1098 1.1 ross test_abz_float128( float128_div, syst_float128_div ); 1099 1.1 ross break; 1100 1.1 ross #endif 1101 1.1 ross #ifdef SYST_FLOAT128_REM 1102 1.1 ross case FLOAT128_REM: 1103 1.1 ross test_abz_float128( float128_rem, syst_float128_rem ); 1104 1.1 ross break; 1105 1.1 ross #endif 1106 1.1 ross #ifdef SYST_FLOAT128_SQRT 1107 1.1 ross case FLOAT128_SQRT: 1108 1.1 ross test_az_float128( float128_sqrt, syst_float128_sqrt ); 1109 1.1 ross break; 1110 1.1 ross #endif 1111 1.1 ross #ifdef SYST_FLOAT128_EQ 1112 1.1 ross case FLOAT128_EQ: 1113 1.1 ross test_ab_float128_z_flag( float128_eq, syst_float128_eq ); 1114 1.1 ross break; 1115 1.1 ross #endif 1116 1.1 ross #ifdef SYST_FLOAT128_LE 1117 1.1 ross case FLOAT128_LE: 1118 1.1 ross test_ab_float128_z_flag( float128_le, syst_float128_le ); 1119 1.1 ross break; 1120 1.1 ross #endif 1121 1.1 ross #ifdef SYST_FLOAT128_LT 1122 1.1 ross case FLOAT128_LT: 1123 1.1 ross test_ab_float128_z_flag( float128_lt, syst_float128_lt ); 1124 1.1 ross break; 1125 1.1 ross #endif 1126 1.1 ross #ifdef SYST_FLOAT128_EQ_SIGNALING 1127 1.1 ross case FLOAT128_EQ_SIGNALING: 1128 1.1 ross test_ab_float128_z_flag( 1129 1.1 ross float128_eq_signaling, syst_float128_eq_signaling ); 1130 1.1 ross break; 1131 1.1 ross #endif 1132 1.1 ross #ifdef SYST_FLOAT128_LE_QUIET 1133 1.1 ross case FLOAT128_LE_QUIET: 1134 1.1 ross test_ab_float128_z_flag( float128_le_quiet, syst_float128_le_quiet ); 1135 1.1 ross break; 1136 1.1 ross #endif 1137 1.1 ross #ifdef SYST_FLOAT128_LT_QUIET 1138 1.1 ross case FLOAT128_LT_QUIET: 1139 1.1 ross test_ab_float128_z_flag( float128_lt_quiet, syst_float128_lt_quiet ); 1140 1.1 ross break; 1141 1.1 ross #endif 1142 1.1 ross } 1143 1.1 ross if ( ( errorStop && anyErrors ) || stop ) exitWithStatus(); 1144 1.1 ross 1145 1.1 ross } 1146 1.1 ross 1147 1.1 ross void 1148 1.1 ross testFunction( 1149 1.1 ross uint8 functionCode, int8 roundingPrecisionIn, int8 roundingModeIn ) 1150 1.1 ross { 1151 1.1 ross int8 roundingPrecision, roundingMode; 1152 1.1 ross 1153 1.1 ross roundingPrecision = 32; 1154 1.1 ross for (;;) { 1155 1.1 ross if ( ! functions[ functionCode ].roundingPrecision ) { 1156 1.1 ross roundingPrecision = 0; 1157 1.1 ross } 1158 1.1 ross else if ( roundingPrecisionIn ) { 1159 1.1 ross roundingPrecision = roundingPrecisionIn; 1160 1.1 ross } 1161 1.1 ross for ( roundingMode = 1; 1162 1.1 ross roundingMode < NUM_ROUNDINGMODES; 1163 1.1 ross ++roundingMode 1164 1.1 ross ) { 1165 1.1 ross if ( ! functions[ functionCode ].roundingMode ) { 1166 1.1 ross roundingMode = 0; 1167 1.1 ross } 1168 1.1 ross else if ( roundingModeIn ) { 1169 1.1 ross roundingMode = roundingModeIn; 1170 1.1 ross } 1171 1.1 ross testFunctionVariety( 1172 1.1 ross functionCode, roundingPrecision, roundingMode ); 1173 1.1 ross if ( roundingModeIn || ! roundingMode ) break; 1174 1.1 ross } 1175 1.1 ross if ( roundingPrecisionIn || ! roundingPrecision ) break; 1176 1.1 ross if ( roundingPrecision == 80 ) { 1177 1.1 ross break; 1178 1.1 ross } 1179 1.1 ross else if ( roundingPrecision == 64 ) { 1180 1.1 ross roundingPrecision = 80; 1181 1.1 ross } 1182 1.1 ross else if ( roundingPrecision == 32 ) { 1183 1.1 ross roundingPrecision = 64; 1184 1.1 ross } 1185 1.1 ross } 1186 1.1 ross 1187 1.1 ross } 1188 1.1 ross 1189
Indexes created Sun Sep 21 15:09:59 GMT 2025