1 /* 2 * mathtest.c - test rig for mathlib 3 * 4 * Copyright (c) 1998-2019, Arm Limited. 5 * SPDX-License-Identifier: MIT 6 */ 7 8 #include <assert.h> 9 #include <stdio.h> 10 #include <stdlib.h> 11 #include <string.h> 12 #include <setjmp.h> 13 #include <ctype.h> 14 #include <math.h> 15 #include <errno.h> 16 #include <limits.h> 17 #include <fenv.h> 18 #include "mathlib.h" 19 20 #ifndef math_errhandling 21 # define math_errhandling 0 22 #endif 23 24 #ifdef __cplusplus 25 #define EXTERN_C extern "C" 26 #else 27 #define EXTERN_C extern 28 #endif 29 30 #ifndef TRUE 31 #define TRUE 1 32 #endif 33 #ifndef FALSE 34 #define FALSE 0 35 #endif 36 37 #ifdef IMPORT_SYMBOL 38 #define STR2(x) #x 39 #define STR(x) STR2(x) 40 _Pragma(STR(import IMPORT_SYMBOL)) 41 #endif 42 43 int dmsd, dlsd; 44 int quiet = 0; 45 int doround = 0; 46 unsigned statusmask = FE_ALL_EXCEPT; 47 48 #define EXTRABITS (12) 49 #define ULPUNIT (1<<EXTRABITS) 50 51 typedef int (*test) (void); 52 53 /* 54 struct to hold info about a function (which could actually be a macro) 55 */ 56 typedef struct { 57 enum { 58 t_func, t_macro 59 } type; 60 enum { 61 at_d, at_s, /* double or single precision float */ 62 at_d2, at_s2, /* same, but taking two args */ 63 at_di, at_si, /* double/single and an int */ 64 at_dip, at_sip, /* double/single and an int ptr */ 65 at_ddp, at_ssp, /* d/s and a d/s ptr */ 66 at_dc, at_sc, /* double or single precision complex */ 67 at_dc2, at_sc2 /* same, but taking two args */ 68 } argtype; 69 enum { 70 rt_d, rt_s, rt_i, /* double, single, int */ 71 rt_dc, rt_sc, /* double, single precision complex */ 72 rt_d2, rt_s2 /* also use res2 */ 73 } rettype; 74 union { 75 void* ptr; 76 double (*d_d_ptr)(double); 77 float (*s_s_ptr)(float); 78 int (*d_i_ptr)(double); 79 int (*s_i_ptr)(float); 80 double (*d2_d_ptr)(double, double); 81 float (*s2_s_ptr)(float, float); 82 double (*di_d_ptr)(double,int); 83 float (*si_s_ptr)(float,int); 84 double (*dip_d_ptr)(double,int*); 85 float (*sip_s_ptr)(float,int*); 86 double (*ddp_d_ptr)(double,double*); 87 float (*ssp_s_ptr)(float,float*); 88 } func; 89 enum { 90 m_none, 91 m_isfinite, m_isfinitef, 92 m_isgreater, m_isgreaterequal, 93 m_isgreaterequalf, m_isgreaterf, 94 m_isinf, m_isinff, 95 m_isless, m_islessequal, 96 m_islessequalf, m_islessf, 97 m_islessgreater, m_islessgreaterf, 98 m_isnan, m_isnanf, 99 m_isnormal, m_isnormalf, 100 m_isunordered, m_isunorderedf, 101 m_fpclassify, m_fpclassifyf, 102 m_signbit, m_signbitf, 103 /* not actually a macro, but makes things easier */ 104 m_rred, m_rredf, 105 m_cadd, m_csub, m_cmul, m_cdiv, 106 m_caddf, m_csubf, m_cmulf, m_cdivf 107 } macro_name; /* only used if a macro/something that can't be done using func */ 108 long long tolerance; 109 const char* name; 110 } test_func; 111 112 /* used in qsort */ 113 int compare_tfuncs(const void* a, const void* b) { 114 return strcmp(((test_func*)a)->name, ((test_func*)b)->name); 115 } 116 117 int is_double_argtype(int argtype) { 118 switch(argtype) { 119 case at_d: 120 case at_d2: 121 case at_dc: 122 case at_dc2: 123 return 1; 124 default: 125 return 0; 126 } 127 } 128 129 int is_single_argtype(int argtype) { 130 switch(argtype) { 131 case at_s: 132 case at_s2: 133 case at_sc: 134 case at_sc2: 135 return 1; 136 default: 137 return 0; 138 } 139 } 140 141 int is_double_rettype(int rettype) { 142 switch(rettype) { 143 case rt_d: 144 case rt_dc: 145 case rt_d2: 146 return 1; 147 default: 148 return 0; 149 } 150 } 151 152 int is_single_rettype(int rettype) { 153 switch(rettype) { 154 case rt_s: 155 case rt_sc: 156 case rt_s2: 157 return 1; 158 default: 159 return 0; 160 } 161 } 162 163 int is_complex_argtype(int argtype) { 164 switch(argtype) { 165 case at_dc: 166 case at_sc: 167 case at_dc2: 168 case at_sc2: 169 return 1; 170 default: 171 return 0; 172 } 173 } 174 175 int is_complex_rettype(int rettype) { 176 switch(rettype) { 177 case rt_dc: 178 case rt_sc: 179 return 1; 180 default: 181 return 0; 182 } 183 } 184 185 /* 186 * Special-case flags indicating that some functions' error 187 * tolerance handling is more complicated than a fixed relative 188 * error bound. 189 */ 190 #define ABSLOWERBOUND 0x4000000000000000LL 191 #define PLUSMINUSPIO2 0x1000000000000000LL 192 193 #define ARM_PREFIX(x) x 194 195 #define TFUNC(arg,ret,name,tolerance) { t_func, arg, ret, (void*)&name, m_none, tolerance, #name } 196 #define TFUNCARM(arg,ret,name,tolerance) { t_func, arg, ret, (void*)& ARM_PREFIX(name), m_none, tolerance, #name } 197 #define MFUNC(arg,ret,name,tolerance) { t_macro, arg, ret, NULL, m_##name, tolerance, #name } 198 199 /* sincosf wrappers for easier testing. */ 200 static float sincosf_sinf(float x) { float s,c; sincosf(x, &s, &c); return s; } 201 static float sincosf_cosf(float x) { float s,c; sincosf(x, &s, &c); return c; } 202 203 test_func tfuncs[] = { 204 /* trigonometric */ 205 TFUNC(at_d,rt_d, acos, 4*ULPUNIT), 206 TFUNC(at_d,rt_d, asin, 4*ULPUNIT), 207 TFUNC(at_d,rt_d, atan, 4*ULPUNIT), 208 TFUNC(at_d2,rt_d, atan2, 4*ULPUNIT), 209 210 TFUNC(at_d,rt_d, tan, 2*ULPUNIT), 211 TFUNC(at_d,rt_d, sin, 2*ULPUNIT), 212 TFUNC(at_d,rt_d, cos, 2*ULPUNIT), 213 214 TFUNC(at_s,rt_s, acosf, 4*ULPUNIT), 215 TFUNC(at_s,rt_s, asinf, 4*ULPUNIT), 216 TFUNC(at_s,rt_s, atanf, 4*ULPUNIT), 217 TFUNC(at_s2,rt_s, atan2f, 4*ULPUNIT), 218 TFUNCARM(at_s,rt_s, tanf, 4*ULPUNIT), 219 TFUNCARM(at_s,rt_s, sinf, 3*ULPUNIT/4), 220 TFUNCARM(at_s,rt_s, cosf, 3*ULPUNIT/4), 221 TFUNCARM(at_s,rt_s, sincosf_sinf, 3*ULPUNIT/4), 222 TFUNCARM(at_s,rt_s, sincosf_cosf, 3*ULPUNIT/4), 223 224 /* hyperbolic */ 225 TFUNC(at_d, rt_d, atanh, 4*ULPUNIT), 226 TFUNC(at_d, rt_d, asinh, 4*ULPUNIT), 227 TFUNC(at_d, rt_d, acosh, 4*ULPUNIT), 228 TFUNC(at_d,rt_d, tanh, 4*ULPUNIT), 229 TFUNC(at_d,rt_d, sinh, 4*ULPUNIT), 230 TFUNC(at_d,rt_d, cosh, 4*ULPUNIT), 231 232 TFUNC(at_s, rt_s, atanhf, 4*ULPUNIT), 233 TFUNC(at_s, rt_s, asinhf, 4*ULPUNIT), 234 TFUNC(at_s, rt_s, acoshf, 4*ULPUNIT), 235 TFUNC(at_s,rt_s, tanhf, 4*ULPUNIT), 236 TFUNC(at_s,rt_s, sinhf, 4*ULPUNIT), 237 TFUNC(at_s,rt_s, coshf, 4*ULPUNIT), 238 239 /* exponential and logarithmic */ 240 TFUNC(at_d,rt_d, log, 3*ULPUNIT/4), 241 TFUNC(at_d,rt_d, log10, 3*ULPUNIT), 242 TFUNC(at_d,rt_d, log2, 3*ULPUNIT/4), 243 TFUNC(at_d,rt_d, log1p, 2*ULPUNIT), 244 TFUNC(at_d,rt_d, exp, 3*ULPUNIT/4), 245 TFUNC(at_d,rt_d, exp2, 3*ULPUNIT/4), 246 TFUNC(at_d,rt_d, expm1, ULPUNIT), 247 TFUNCARM(at_s,rt_s, logf, ULPUNIT), 248 TFUNC(at_s,rt_s, log10f, 3*ULPUNIT), 249 TFUNCARM(at_s,rt_s, log2f, ULPUNIT), 250 TFUNC(at_s,rt_s, log1pf, 2*ULPUNIT), 251 TFUNCARM(at_s,rt_s, expf, 3*ULPUNIT/4), 252 TFUNCARM(at_s,rt_s, exp2f, 3*ULPUNIT/4), 253 TFUNC(at_s,rt_s, expm1f, ULPUNIT), 254 255 /* power */ 256 TFUNC(at_d2,rt_d, pow, 3*ULPUNIT/4), 257 TFUNC(at_d,rt_d, sqrt, ULPUNIT/2), 258 TFUNC(at_d,rt_d, cbrt, 2*ULPUNIT), 259 TFUNC(at_d2, rt_d, hypot, 4*ULPUNIT), 260 261 TFUNCARM(at_s2,rt_s, powf, ULPUNIT), 262 TFUNC(at_s,rt_s, sqrtf, ULPUNIT/2), 263 TFUNC(at_s,rt_s, cbrtf, 2*ULPUNIT), 264 TFUNC(at_s2, rt_s, hypotf, 4*ULPUNIT), 265 266 /* error function */ 267 TFUNC(at_d,rt_d, erf, 16*ULPUNIT), 268 TFUNC(at_s,rt_s, erff, 16*ULPUNIT), 269 TFUNC(at_d,rt_d, erfc, 16*ULPUNIT), 270 TFUNC(at_s,rt_s, erfcf, 16*ULPUNIT), 271 272 /* gamma functions */ 273 TFUNC(at_d,rt_d, tgamma, 16*ULPUNIT), 274 TFUNC(at_s,rt_s, tgammaf, 16*ULPUNIT), 275 TFUNC(at_d,rt_d, lgamma, 16*ULPUNIT | ABSLOWERBOUND), 276 TFUNC(at_s,rt_s, lgammaf, 16*ULPUNIT | ABSLOWERBOUND), 277 278 TFUNC(at_d,rt_d, ceil, 0), 279 TFUNC(at_s,rt_s, ceilf, 0), 280 TFUNC(at_d2,rt_d, copysign, 0), 281 TFUNC(at_s2,rt_s, copysignf, 0), 282 TFUNC(at_d,rt_d, floor, 0), 283 TFUNC(at_s,rt_s, floorf, 0), 284 TFUNC(at_d2,rt_d, fmax, 0), 285 TFUNC(at_s2,rt_s, fmaxf, 0), 286 TFUNC(at_d2,rt_d, fmin, 0), 287 TFUNC(at_s2,rt_s, fminf, 0), 288 TFUNC(at_d2,rt_d, fmod, 0), 289 TFUNC(at_s2,rt_s, fmodf, 0), 290 MFUNC(at_d, rt_i, fpclassify, 0), 291 MFUNC(at_s, rt_i, fpclassifyf, 0), 292 TFUNC(at_dip,rt_d, frexp, 0), 293 TFUNC(at_sip,rt_s, frexpf, 0), 294 MFUNC(at_d, rt_i, isfinite, 0), 295 MFUNC(at_s, rt_i, isfinitef, 0), 296 MFUNC(at_d, rt_i, isgreater, 0), 297 MFUNC(at_d, rt_i, isgreaterequal, 0), 298 MFUNC(at_s, rt_i, isgreaterequalf, 0), 299 MFUNC(at_s, rt_i, isgreaterf, 0), 300 MFUNC(at_d, rt_i, isinf, 0), 301 MFUNC(at_s, rt_i, isinff, 0), 302 MFUNC(at_d, rt_i, isless, 0), 303 MFUNC(at_d, rt_i, islessequal, 0), 304 MFUNC(at_s, rt_i, islessequalf, 0), 305 MFUNC(at_s, rt_i, islessf, 0), 306 MFUNC(at_d, rt_i, islessgreater, 0), 307 MFUNC(at_s, rt_i, islessgreaterf, 0), 308 MFUNC(at_d, rt_i, isnan, 0), 309 MFUNC(at_s, rt_i, isnanf, 0), 310 MFUNC(at_d, rt_i, isnormal, 0), 311 MFUNC(at_s, rt_i, isnormalf, 0), 312 MFUNC(at_d, rt_i, isunordered, 0), 313 MFUNC(at_s, rt_i, isunorderedf, 0), 314 TFUNC(at_di,rt_d, ldexp, 0), 315 TFUNC(at_si,rt_s, ldexpf, 0), 316 TFUNC(at_ddp,rt_d2, modf, 0), 317 TFUNC(at_ssp,rt_s2, modff, 0), 318 #ifndef BIGRANGERED 319 MFUNC(at_d, rt_d, rred, 2*ULPUNIT), 320 #else 321 MFUNC(at_d, rt_d, m_rred, ULPUNIT), 322 #endif 323 MFUNC(at_d, rt_i, signbit, 0), 324 MFUNC(at_s, rt_i, signbitf, 0), 325 }; 326 327 /* 328 * keywords are: func size op1 op2 result res2 errno op1r op1i op2r op2i resultr resulti 329 * also we ignore: wrongresult wrongres2 wrongerrno 330 * op1 equivalent to op1r, same with op2 and result 331 */ 332 333 typedef struct { 334 test_func *func; 335 unsigned op1r[2]; /* real part, also used for non-complex numbers */ 336 unsigned op1i[2]; /* imaginary part */ 337 unsigned op2r[2]; 338 unsigned op2i[2]; 339 unsigned resultr[3]; 340 unsigned resulti[3]; 341 enum { 342 rc_none, rc_zero, rc_infinity, rc_nan, rc_finite 343 } resultc; /* special complex results, rc_none means use resultr and resulti as normal */ 344 unsigned res2[2]; 345 unsigned status; /* IEEE status return, if any */ 346 unsigned maybestatus; /* for optional status, or allowance for spurious */ 347 int nresult; /* number of result words */ 348 int in_err, in_err_limit; 349 int err; 350 int maybeerr; 351 int valid; 352 int comment; 353 int random; 354 } testdetail; 355 356 enum { /* keywords */ 357 k_errno, k_errno_in, k_error, k_func, k_maybeerror, k_maybestatus, k_op1, k_op1i, k_op1r, k_op2, k_op2i, k_op2r, 358 k_random, k_res2, k_result, k_resultc, k_resulti, k_resultr, k_status, 359 k_wrongres2, k_wrongresult, k_wrongstatus, k_wrongerrno 360 }; 361 char *keywords[] = { 362 "errno", "errno_in", "error", "func", "maybeerror", "maybestatus", "op1", "op1i", "op1r", "op2", "op2i", "op2r", 363 "random", "res2", "result", "resultc", "resulti", "resultr", "status", 364 "wrongres2", "wrongresult", "wrongstatus", "wrongerrno" 365 }; 366 367 enum { 368 e_0, e_EDOM, e_ERANGE, 369 370 /* 371 * This enum makes sure that we have the right number of errnos in the 372 * errno[] array 373 */ 374 e_number_of_errnos 375 }; 376 char *errnos[] = { 377 "0", "EDOM", "ERANGE" 378 }; 379 380 enum { 381 e_none, e_divbyzero, e_domain, e_overflow, e_underflow 382 }; 383 char *errors[] = { 384 "0", "divbyzero", "domain", "overflow", "underflow" 385 }; 386 387 static int verbose, fo, strict; 388 389 /* state toggled by random=on / random=off */ 390 static int randomstate; 391 392 /* Canonify a double NaN: SNaNs all become 7FF00000.00000001 and QNaNs 393 * all become 7FF80000.00000001 */ 394 void canon_dNaN(unsigned a[2]) { 395 if ((a[0] & 0x7FF00000) != 0x7FF00000) 396 return; /* not Inf or NaN */ 397 if (!(a[0] & 0xFFFFF) && !a[1]) 398 return; /* Inf */ 399 a[0] &= 0x7FF80000; /* canonify top word */ 400 a[1] = 0x00000001; /* canonify bottom word */ 401 } 402 403 /* Canonify a single NaN: SNaNs all become 7F800001 and QNaNs 404 * all become 7FC00001. Returns classification of the NaN. */ 405 void canon_sNaN(unsigned a[1]) { 406 if ((a[0] & 0x7F800000) != 0x7F800000) 407 return; /* not Inf or NaN */ 408 if (!(a[0] & 0x7FFFFF)) 409 return; /* Inf */ 410 a[0] &= 0x7FC00000; /* canonify most bits */ 411 a[0] |= 0x00000001; /* canonify bottom bit */ 412 } 413 414 /* 415 * Detect difficult operands for FO mode. 416 */ 417 int is_dhard(unsigned a[2]) 418 { 419 if ((a[0] & 0x7FF00000) == 0x7FF00000) 420 return TRUE; /* inf or NaN */ 421 if ((a[0] & 0x7FF00000) == 0 && 422 ((a[0] & 0x7FFFFFFF) | a[1]) != 0) 423 return TRUE; /* denormal */ 424 return FALSE; 425 } 426 int is_shard(unsigned a[1]) 427 { 428 if ((a[0] & 0x7F800000) == 0x7F800000) 429 return TRUE; /* inf or NaN */ 430 if ((a[0] & 0x7F800000) == 0 && 431 (a[0] & 0x7FFFFFFF) != 0) 432 return TRUE; /* denormal */ 433 return FALSE; 434 } 435 436 /* 437 * Normalise all zeroes into +0, for FO mode. 438 */ 439 void dnormzero(unsigned a[2]) 440 { 441 if (a[0] == 0x80000000 && a[1] == 0) 442 a[0] = 0; 443 } 444 void snormzero(unsigned a[1]) 445 { 446 if (a[0] == 0x80000000) 447 a[0] = 0; 448 } 449 450 static int find(char *word, char **array, int asize) { 451 int i, j; 452 453 asize /= sizeof(char *); 454 455 i = -1; j = asize; /* strictly between i and j */ 456 while (j-i > 1) { 457 int k = (i+j) / 2; 458 int c = strcmp(word, array[k]); 459 if (c > 0) 460 i = k; 461 else if (c < 0) 462 j = k; 463 else /* found it! */ 464 return k; 465 } 466 return -1; /* not found */ 467 } 468 469 static test_func* find_testfunc(char *word) { 470 int i, j, asize; 471 472 asize = sizeof(tfuncs)/sizeof(test_func); 473 474 i = -1; j = asize; /* strictly between i and j */ 475 while (j-i > 1) { 476 int k = (i+j) / 2; 477 int c = strcmp(word, tfuncs[k].name); 478 if (c > 0) 479 i = k; 480 else if (c < 0) 481 j = k; 482 else /* found it! */ 483 return tfuncs + k; 484 } 485 return NULL; /* not found */ 486 } 487 488 static long long calc_error(unsigned a[2], unsigned b[3], int shift, int rettype) { 489 unsigned r0, r1, r2; 490 int sign, carry; 491 long long result; 492 493 /* 494 * If either number is infinite, require exact equality. If 495 * either number is NaN, require that both are NaN. If either 496 * of these requirements is broken, return INT_MAX. 497 */ 498 if (is_double_rettype(rettype)) { 499 if ((a[0] & 0x7FF00000) == 0x7FF00000 || 500 (b[0] & 0x7FF00000) == 0x7FF00000) { 501 if (((a[0] & 0x800FFFFF) || a[1]) && 502 ((b[0] & 0x800FFFFF) || b[1]) && 503 (a[0] & 0x7FF00000) == 0x7FF00000 && 504 (b[0] & 0x7FF00000) == 0x7FF00000) 505 return 0; /* both NaN - OK */ 506 if (!((a[0] & 0xFFFFF) || a[1]) && 507 !((b[0] & 0xFFFFF) || b[1]) && 508 a[0] == b[0]) 509 return 0; /* both same sign of Inf - OK */ 510 return LLONG_MAX; 511 } 512 } else { 513 if ((a[0] & 0x7F800000) == 0x7F800000 || 514 (b[0] & 0x7F800000) == 0x7F800000) { 515 if ((a[0] & 0x807FFFFF) && 516 (b[0] & 0x807FFFFF) && 517 (a[0] & 0x7F800000) == 0x7F800000 && 518 (b[0] & 0x7F800000) == 0x7F800000) 519 return 0; /* both NaN - OK */ 520 if (!(a[0] & 0x7FFFFF) && 521 !(b[0] & 0x7FFFFF) && 522 a[0] == b[0]) 523 return 0; /* both same sign of Inf - OK */ 524 return LLONG_MAX; 525 } 526 } 527 528 /* 529 * Both finite. Return INT_MAX if the signs differ. 530 */ 531 if ((a[0] ^ b[0]) & 0x80000000) 532 return LLONG_MAX; 533 534 /* 535 * Now it's just straight multiple-word subtraction. 536 */ 537 if (is_double_rettype(rettype)) { 538 r2 = -b[2]; carry = (r2 == 0); 539 r1 = a[1] + ~b[1] + carry; carry = (r1 < a[1] || (carry && r1 == a[1])); 540 r0 = a[0] + ~b[0] + carry; 541 } else { 542 r2 = -b[1]; carry = (r2 == 0); 543 r1 = a[0] + ~b[0] + carry; carry = (r1 < a[0] || (carry && r1 == a[0])); 544 r0 = ~0 + carry; 545 } 546 547 /* 548 * Forgive larger errors in specialised cases. 549 */ 550 if (shift > 0) { 551 if (shift > 32*3) 552 return 0; /* all errors are forgiven! */ 553 while (shift >= 32) { 554 r2 = r1; 555 r1 = r0; 556 r0 = -(r0 >> 31); 557 shift -= 32; 558 } 559 560 if (shift > 0) { 561 r2 = (r2 >> shift) | (r1 << (32-shift)); 562 r1 = (r1 >> shift) | (r0 << (32-shift)); 563 r0 = (r0 >> shift) | ((-(r0 >> 31)) << (32-shift)); 564 } 565 } 566 567 if (r0 & 0x80000000) { 568 sign = 1; 569 r2 = ~r2; carry = (r2 == 0); 570 r1 = 0 + ~r1 + carry; carry = (carry && (r2 == 0)); 571 r0 = 0 + ~r0 + carry; 572 } else { 573 sign = 0; 574 } 575 576 if (r0 >= (1LL<<(31-EXTRABITS))) 577 return LLONG_MAX; /* many ulps out */ 578 579 result = (r2 >> (32-EXTRABITS)) & (ULPUNIT-1); 580 result |= r1 << EXTRABITS; 581 result |= (long long)r0 << (32+EXTRABITS); 582 if (sign) 583 result = -result; 584 return result; 585 } 586 587 /* special named operands */ 588 589 typedef struct { 590 unsigned op1, op2; 591 char* name; 592 } special_op; 593 594 static special_op special_ops_double[] = { 595 {0x00000000,0x00000000,"0"}, 596 {0x3FF00000,0x00000000,"1"}, 597 {0x7FF00000,0x00000000,"inf"}, 598 {0x7FF80000,0x00000001,"qnan"}, 599 {0x7FF00000,0x00000001,"snan"}, 600 {0x3ff921fb,0x54442d18,"pi2"}, 601 {0x400921fb,0x54442d18,"pi"}, 602 {0x3fe921fb,0x54442d18,"pi4"}, 603 {0x4002d97c,0x7f3321d2,"3pi4"}, 604 }; 605 606 static special_op special_ops_float[] = { 607 {0x00000000,0,"0"}, 608 {0x3f800000,0,"1"}, 609 {0x7f800000,0,"inf"}, 610 {0x7fc00000,0,"qnan"}, 611 {0x7f800001,0,"snan"}, 612 {0x3fc90fdb,0,"pi2"}, 613 {0x40490fdb,0,"pi"}, 614 {0x3f490fdb,0,"pi4"}, 615 {0x4016cbe4,0,"3pi4"}, 616 }; 617 618 /* 619 This is what is returned by the below functions. 620 We need it to handle the sign of the number 621 */ 622 static special_op tmp_op = {0,0,0}; 623 624 special_op* find_special_op_from_op(unsigned op1, unsigned op2, int is_double) { 625 int i; 626 special_op* sop; 627 if(is_double) { 628 sop = special_ops_double; 629 } else { 630 sop = special_ops_float; 631 } 632 for(i = 0; i < sizeof(special_ops_double)/sizeof(special_op); i++) { 633 if(sop->op1 == (op1&0x7fffffff) && sop->op2 == op2) { 634 if(tmp_op.name) free(tmp_op.name); 635 tmp_op.name = malloc(strlen(sop->name)+2); 636 if(op1>>31) { 637 sprintf(tmp_op.name,"-%s",sop->name); 638 } else { 639 strcpy(tmp_op.name,sop->name); 640 } 641 return &tmp_op; 642 } 643 sop++; 644 } 645 return NULL; 646 } 647 648 special_op* find_special_op_from_name(const char* name, int is_double) { 649 int i, neg=0; 650 special_op* sop; 651 if(is_double) { 652 sop = special_ops_double; 653 } else { 654 sop = special_ops_float; 655 } 656 if(*name=='-') { 657 neg=1; 658 name++; 659 } else if(*name=='+') { 660 name++; 661 } 662 for(i = 0; i < sizeof(special_ops_double)/sizeof(special_op); i++) { 663 if(0 == strcmp(name,sop->name)) { 664 tmp_op.op1 = sop->op1; 665 if(neg) { 666 tmp_op.op1 |= 0x80000000; 667 } 668 tmp_op.op2 = sop->op2; 669 return &tmp_op; 670 } 671 sop++; 672 } 673 return NULL; 674 } 675 676 /* 677 helper function for the below 678 type=0 for single, 1 for double, 2 for no sop 679 */ 680 int do_op(char* q, unsigned* op, const char* name, int num, int sop_type) { 681 int i; 682 int n=num; 683 special_op* sop = NULL; 684 for(i = 0; i < num; i++) { 685 op[i] = 0; 686 } 687 if(sop_type<2) { 688 sop = find_special_op_from_name(q,sop_type); 689 } 690 if(sop != NULL) { 691 op[0] = sop->op1; 692 op[1] = sop->op2; 693 } else { 694 switch(num) { 695 case 1: n = sscanf(q, "%x", &op[0]); break; 696 case 2: n = sscanf(q, "%x.%x", &op[0], &op[1]); break; 697 case 3: n = sscanf(q, "%x.%x.%x", &op[0], &op[1], &op[2]); break; 698 default: return -1; 699 } 700 } 701 if (verbose) { 702 printf("%s=",name); 703 for (i = 0; (i < n); ++i) printf("%x.", op[i]); 704 printf(" (n=%d)\n", n); 705 } 706 return n; 707 } 708 709 testdetail parsetest(char *testbuf, testdetail oldtest) { 710 char *p; /* Current part of line: Option name */ 711 char *q; /* Current part of line: Option value */ 712 testdetail ret; /* What we return */ 713 int k; /* Function enum from k_* */ 714 int n; /* Used as returns for scanfs */ 715 int argtype=2, rettype=2; /* for do_op */ 716 717 /* clear ret */ 718 memset(&ret, 0, sizeof(ret)); 719 720 if (verbose) printf("Parsing line: %s\n", testbuf); 721 while (*testbuf && isspace(*testbuf)) testbuf++; 722 if (testbuf[0] == ';' || testbuf[0] == '#' || testbuf[0] == '!' || 723 testbuf[0] == '>' || testbuf[0] == '\0') { 724 ret.comment = 1; 725 if (verbose) printf("Line is a comment\n"); 726 return ret; 727 } 728 ret.comment = 0; 729 730 if (*testbuf == '+') { 731 if (oldtest.valid) { 732 ret = oldtest; /* structure copy */ 733 } else { 734 fprintf(stderr, "copy from invalid: ignored\n"); 735 } 736 testbuf++; 737 } 738 739 ret.random = randomstate; 740 741 ret.in_err = 0; 742 ret.in_err_limit = e_number_of_errnos; 743 744 p = strtok(testbuf, " \t"); 745 while (p != NULL) { 746 q = strchr(p, '='); 747 if (!q) 748 goto balderdash; 749 *q++ = '\0'; 750 k = find(p, keywords, sizeof(keywords)); 751 switch (k) { 752 case k_random: 753 randomstate = (!strcmp(q, "on")); 754 ret.comment = 1; 755 return ret; /* otherwise ignore this line */ 756 case k_func: 757 if (verbose) printf("func=%s ", q); 758 //ret.func = find(q, funcs, sizeof(funcs)); 759 ret.func = find_testfunc(q); 760 if (ret.func == NULL) 761 { 762 if (verbose) printf("(id=unknown)\n"); 763 goto balderdash; 764 } 765 if(is_single_argtype(ret.func->argtype)) 766 argtype = 0; 767 else if(is_double_argtype(ret.func->argtype)) 768 argtype = 1; 769 if(is_single_rettype(ret.func->rettype)) 770 rettype = 0; 771 else if(is_double_rettype(ret.func->rettype)) 772 rettype = 1; 773 //ret.size = sizes[ret.func]; 774 if (verbose) printf("(name=%s) (size=%d)\n", ret.func->name, ret.func->argtype); 775 break; 776 case k_op1: 777 case k_op1r: 778 n = do_op(q,ret.op1r,"op1r",2,argtype); 779 if (n < 1) 780 goto balderdash; 781 break; 782 case k_op1i: 783 n = do_op(q,ret.op1i,"op1i",2,argtype); 784 if (n < 1) 785 goto balderdash; 786 break; 787 case k_op2: 788 case k_op2r: 789 n = do_op(q,ret.op2r,"op2r",2,argtype); 790 if (n < 1) 791 goto balderdash; 792 break; 793 case k_op2i: 794 n = do_op(q,ret.op2i,"op2i",2,argtype); 795 if (n < 1) 796 goto balderdash; 797 break; 798 case k_resultc: 799 puts(q); 800 if(strncmp(q,"inf",3)==0) { 801 ret.resultc = rc_infinity; 802 } else if(strcmp(q,"zero")==0) { 803 ret.resultc = rc_zero; 804 } else if(strcmp(q,"nan")==0) { 805 ret.resultc = rc_nan; 806 } else if(strcmp(q,"finite")==0) { 807 ret.resultc = rc_finite; 808 } else { 809 goto balderdash; 810 } 811 break; 812 case k_result: 813 case k_resultr: 814 n = (do_op)(q,ret.resultr,"resultr",3,rettype); 815 if (n < 1) 816 goto balderdash; 817 ret.nresult = n; /* assume real and imaginary have same no. words */ 818 break; 819 case k_resulti: 820 n = do_op(q,ret.resulti,"resulti",3,rettype); 821 if (n < 1) 822 goto balderdash; 823 break; 824 case k_res2: 825 n = do_op(q,ret.res2,"res2",2,rettype); 826 if (n < 1) 827 goto balderdash; 828 break; 829 case k_status: 830 while (*q) { 831 if (*q == 'i') ret.status |= FE_INVALID; 832 if (*q == 'z') ret.status |= FE_DIVBYZERO; 833 if (*q == 'o') ret.status |= FE_OVERFLOW; 834 if (*q == 'u') ret.status |= FE_UNDERFLOW; 835 q++; 836 } 837 break; 838 case k_maybeerror: 839 n = find(q, errors, sizeof(errors)); 840 if (n < 0) 841 goto balderdash; 842 if(math_errhandling&MATH_ERREXCEPT) { 843 switch(n) { 844 case e_domain: ret.maybestatus |= FE_INVALID; break; 845 case e_divbyzero: ret.maybestatus |= FE_DIVBYZERO; break; 846 case e_overflow: ret.maybestatus |= FE_OVERFLOW; break; 847 case e_underflow: ret.maybestatus |= FE_UNDERFLOW; break; 848 } 849 } 850 { 851 switch(n) { 852 case e_domain: 853 ret.maybeerr = e_EDOM; break; 854 case e_divbyzero: 855 case e_overflow: 856 case e_underflow: 857 ret.maybeerr = e_ERANGE; break; 858 } 859 } 860 case k_maybestatus: 861 while (*q) { 862 if (*q == 'i') ret.maybestatus |= FE_INVALID; 863 if (*q == 'z') ret.maybestatus |= FE_DIVBYZERO; 864 if (*q == 'o') ret.maybestatus |= FE_OVERFLOW; 865 if (*q == 'u') ret.maybestatus |= FE_UNDERFLOW; 866 q++; 867 } 868 break; 869 case k_error: 870 n = find(q, errors, sizeof(errors)); 871 if (n < 0) 872 goto balderdash; 873 if(math_errhandling&MATH_ERREXCEPT) { 874 switch(n) { 875 case e_domain: ret.status |= FE_INVALID; break; 876 case e_divbyzero: ret.status |= FE_DIVBYZERO; break; 877 case e_overflow: ret.status |= FE_OVERFLOW; break; 878 case e_underflow: ret.status |= FE_UNDERFLOW; break; 879 } 880 } 881 if(math_errhandling&MATH_ERRNO) { 882 switch(n) { 883 case e_domain: 884 ret.err = e_EDOM; break; 885 case e_divbyzero: 886 case e_overflow: 887 case e_underflow: 888 ret.err = e_ERANGE; break; 889 } 890 } 891 if(!(math_errhandling&MATH_ERRNO)) { 892 switch(n) { 893 case e_domain: 894 ret.maybeerr = e_EDOM; break; 895 case e_divbyzero: 896 case e_overflow: 897 case e_underflow: 898 ret.maybeerr = e_ERANGE; break; 899 } 900 } 901 break; 902 case k_errno: 903 ret.err = find(q, errnos, sizeof(errnos)); 904 if (ret.err < 0) 905 goto balderdash; 906 break; 907 case k_errno_in: 908 ret.in_err = find(q, errnos, sizeof(errnos)); 909 if (ret.err < 0) 910 goto balderdash; 911 ret.in_err_limit = ret.in_err + 1; 912 break; 913 case k_wrongresult: 914 case k_wrongstatus: 915 case k_wrongres2: 916 case k_wrongerrno: 917 /* quietly ignore these keys */ 918 break; 919 default: 920 goto balderdash; 921 } 922 p = strtok(NULL, " \t"); 923 } 924 ret.valid = 1; 925 return ret; 926 927 /* come here from almost any error */ 928 balderdash: 929 ret.valid = 0; 930 return ret; 931 } 932 933 typedef enum { 934 test_comment, /* deliberately not a test */ 935 test_invalid, /* accidentally not a test */ 936 test_decline, /* was a test, and wasn't run */ 937 test_fail, /* was a test, and failed */ 938 test_pass /* was a test, and passed */ 939 } testresult; 940 941 char failtext[512]; 942 943 typedef union { 944 unsigned i[2]; 945 double f; 946 double da[2]; 947 } dbl; 948 949 typedef union { 950 unsigned i; 951 float f; 952 float da[2]; 953 } sgl; 954 955 /* helper function for runtest */ 956 void print_error(int rettype, unsigned *result, char* text, char** failp) { 957 special_op *sop; 958 char *str; 959 960 if(result) { 961 *failp += sprintf(*failp," %s=",text); 962 sop = find_special_op_from_op(result[0],result[1],is_double_rettype(rettype)); 963 if(sop) { 964 *failp += sprintf(*failp,"%s",sop->name); 965 } else { 966 if(is_double_rettype(rettype)) { 967 str="%08x.%08x"; 968 } else { 969 str="%08x"; 970 } 971 *failp += sprintf(*failp,str,result[0],result[1]); 972 } 973 } 974 } 975 976 977 void print_ulps_helper(const char *name, long long ulps, char** failp) { 978 if(ulps == LLONG_MAX) { 979 *failp += sprintf(*failp, " %s=HUGE", name); 980 } else { 981 *failp += sprintf(*failp, " %s=%.3f", name, (double)ulps / ULPUNIT); 982 } 983 } 984 985 /* for complex args make ulpsr or ulpsri = 0 to not print */ 986 void print_ulps(int rettype, long long ulpsr, long long ulpsi, char** failp) { 987 if(is_complex_rettype(rettype)) { 988 if (ulpsr) print_ulps_helper("ulpsr",ulpsr,failp); 989 if (ulpsi) print_ulps_helper("ulpsi",ulpsi,failp); 990 } else { 991 if (ulpsr) print_ulps_helper("ulps",ulpsr,failp); 992 } 993 } 994 995 int runtest(testdetail t) { 996 int err, status; 997 998 dbl d_arg1, d_arg2, d_res, d_res2; 999 sgl s_arg1, s_arg2, s_res, s_res2; 1000 1001 int deferred_decline = FALSE; 1002 char *failp = failtext; 1003 1004 unsigned int intres=0; 1005 1006 int res2_adjust = 0; 1007 1008 if (t.comment) 1009 return test_comment; 1010 if (!t.valid) 1011 return test_invalid; 1012 1013 /* Set IEEE status to mathlib-normal */ 1014 feclearexcept(FE_ALL_EXCEPT); 1015 1016 /* Deal with operands */ 1017 #define DO_DOP(arg,op) arg.i[dmsd] = t.op[0]; arg.i[dlsd] = t.op[1] 1018 DO_DOP(d_arg1,op1r); 1019 DO_DOP(d_arg2,op2r); 1020 s_arg1.i = t.op1r[0]; s_arg2.i = t.op2r[0]; 1021 1022 /* 1023 * Detect NaNs, infinities and denormals on input, and set a 1024 * deferred decline flag if we're in FO mode. 1025 * 1026 * (We defer the decline rather than doing it immediately 1027 * because even in FO mode the operation is not permitted to 1028 * crash or tight-loop; so we _run_ the test, and then ignore 1029 * all the results.) 1030 */ 1031 if (fo) { 1032 if (is_double_argtype(t.func->argtype) && is_dhard(t.op1r)) 1033 deferred_decline = TRUE; 1034 if (t.func->argtype==at_d2 && is_dhard(t.op2r)) 1035 deferred_decline = TRUE; 1036 if (is_single_argtype(t.func->argtype) && is_shard(t.op1r)) 1037 deferred_decline = TRUE; 1038 if (t.func->argtype==at_s2 && is_shard(t.op2r)) 1039 deferred_decline = TRUE; 1040 if (is_double_rettype(t.func->rettype) && is_dhard(t.resultr)) 1041 deferred_decline = TRUE; 1042 if (t.func->rettype==rt_d2 && is_dhard(t.res2)) 1043 deferred_decline = TRUE; 1044 if (is_single_argtype(t.func->rettype) && is_shard(t.resultr)) 1045 deferred_decline = TRUE; 1046 if (t.func->rettype==rt_s2 && is_shard(t.res2)) 1047 deferred_decline = TRUE; 1048 if (t.err == e_ERANGE) 1049 deferred_decline = TRUE; 1050 } 1051 1052 /* 1053 * Perform the operation 1054 */ 1055 1056 errno = t.in_err == e_EDOM ? EDOM : t.in_err == e_ERANGE ? ERANGE : 0; 1057 if (t.err == e_0) 1058 t.err = t.in_err; 1059 if (t.maybeerr == e_0) 1060 t.maybeerr = t.in_err; 1061 1062 if(t.func->type == t_func) { 1063 switch(t.func->argtype) { 1064 case at_d: d_res.f = t.func->func.d_d_ptr(d_arg1.f); break; 1065 case at_s: s_res.f = t.func->func.s_s_ptr(s_arg1.f); break; 1066 case at_d2: d_res.f = t.func->func.d2_d_ptr(d_arg1.f, d_arg2.f); break; 1067 case at_s2: s_res.f = t.func->func.s2_s_ptr(s_arg1.f, s_arg2.f); break; 1068 case at_di: d_res.f = t.func->func.di_d_ptr(d_arg1.f, d_arg2.i[dmsd]); break; 1069 case at_si: s_res.f = t.func->func.si_s_ptr(s_arg1.f, s_arg2.i); break; 1070 case at_dip: d_res.f = t.func->func.dip_d_ptr(d_arg1.f, (int*)&intres); break; 1071 case at_sip: s_res.f = t.func->func.sip_s_ptr(s_arg1.f, (int*)&intres); break; 1072 case at_ddp: d_res.f = t.func->func.ddp_d_ptr(d_arg1.f, &d_res2.f); break; 1073 case at_ssp: s_res.f = t.func->func.ssp_s_ptr(s_arg1.f, &s_res2.f); break; 1074 default: 1075 printf("unhandled function: %s\n",t.func->name); 1076 return test_fail; 1077 } 1078 } else { 1079 /* printf("macro: name=%s, num=%i, s1.i=0x%08x s1.f=%f\n",t.func->name, t.func->macro_name, s_arg1.i, (double)s_arg1.f); */ 1080 switch(t.func->macro_name) { 1081 case m_isfinite: intres = isfinite(d_arg1.f); break; 1082 case m_isinf: intres = isinf(d_arg1.f); break; 1083 case m_isnan: intres = isnan(d_arg1.f); break; 1084 case m_isnormal: intres = isnormal(d_arg1.f); break; 1085 case m_signbit: intres = signbit(d_arg1.f); break; 1086 case m_fpclassify: intres = fpclassify(d_arg1.f); break; 1087 case m_isgreater: intres = isgreater(d_arg1.f, d_arg2.f); break; 1088 case m_isgreaterequal: intres = isgreaterequal(d_arg1.f, d_arg2.f); break; 1089 case m_isless: intres = isless(d_arg1.f, d_arg2.f); break; 1090 case m_islessequal: intres = islessequal(d_arg1.f, d_arg2.f); break; 1091 case m_islessgreater: intres = islessgreater(d_arg1.f, d_arg2.f); break; 1092 case m_isunordered: intres = isunordered(d_arg1.f, d_arg2.f); break; 1093 1094 case m_isfinitef: intres = isfinite(s_arg1.f); break; 1095 case m_isinff: intres = isinf(s_arg1.f); break; 1096 case m_isnanf: intres = isnan(s_arg1.f); break; 1097 case m_isnormalf: intres = isnormal(s_arg1.f); break; 1098 case m_signbitf: intres = signbit(s_arg1.f); break; 1099 case m_fpclassifyf: intres = fpclassify(s_arg1.f); break; 1100 case m_isgreaterf: intres = isgreater(s_arg1.f, s_arg2.f); break; 1101 case m_isgreaterequalf: intres = isgreaterequal(s_arg1.f, s_arg2.f); break; 1102 case m_islessf: intres = isless(s_arg1.f, s_arg2.f); break; 1103 case m_islessequalf: intres = islessequal(s_arg1.f, s_arg2.f); break; 1104 case m_islessgreaterf: intres = islessgreater(s_arg1.f, s_arg2.f); break; 1105 case m_isunorderedf: intres = isunordered(s_arg1.f, s_arg2.f); break; 1106 1107 default: 1108 printf("unhandled macro: %s\n",t.func->name); 1109 return test_fail; 1110 } 1111 } 1112 1113 /* 1114 * Decline the test if the deferred decline flag was set above. 1115 */ 1116 if (deferred_decline) 1117 return test_decline; 1118 1119 /* printf("intres=%i\n",intres); */ 1120 1121 /* Clear the fail text (indicating a pass unless we change it) */ 1122 failp[0] = '\0'; 1123 1124 /* Check the IEEE status bits (except INX, which we disregard). 1125 * We don't bother with this for complex numbers, because the 1126 * complex functions are hard to get exactly right and we don't 1127 * have to anyway (C99 annex G is only informative). */ 1128 if (!(is_complex_argtype(t.func->argtype) || is_complex_rettype(t.func->rettype))) { 1129 status = fetestexcept(FE_INVALID|FE_DIVBYZERO|FE_OVERFLOW|FE_UNDERFLOW); 1130 if ((status|t.maybestatus|~statusmask) != (t.status|t.maybestatus|~statusmask)) { 1131 if (quiet) failtext[0]='x'; 1132 else { 1133 failp += sprintf(failp, 1134 " wrongstatus=%s%s%s%s%s", 1135 (status & FE_INVALID ? "i" : ""), 1136 (status & FE_DIVBYZERO ? "z" : ""), 1137 (status & FE_OVERFLOW ? "o" : ""), 1138 (status & FE_UNDERFLOW ? "u" : ""), 1139 (status ? "" : "OK")); 1140 } 1141 } 1142 } 1143 1144 /* Check the result */ 1145 { 1146 unsigned resultr[2], resulti[2]; 1147 unsigned tresultr[3], tresulti[3], wres; 1148 1149 switch(t.func->rettype) { 1150 case rt_d: 1151 case rt_d2: 1152 tresultr[0] = t.resultr[0]; 1153 tresultr[1] = t.resultr[1]; 1154 resultr[0] = d_res.i[dmsd]; resultr[1] = d_res.i[dlsd]; 1155 wres = 2; 1156 break; 1157 case rt_i: 1158 tresultr[0] = t.resultr[0]; 1159 resultr[0] = intres; 1160 wres = 1; 1161 break; 1162 case rt_s: 1163 case rt_s2: 1164 tresultr[0] = t.resultr[0]; 1165 resultr[0] = s_res.i; 1166 wres = 1; 1167 break; 1168 default: 1169 puts("unhandled rettype in runtest"); 1170 wres = 0; 1171 } 1172 if(t.resultc != rc_none) { 1173 int err = 0; 1174 switch(t.resultc) { 1175 case rc_zero: 1176 if(resultr[0] != 0 || resulti[0] != 0 || 1177 (wres==2 && (resultr[1] != 0 || resulti[1] != 0))) { 1178 err = 1; 1179 } 1180 break; 1181 case rc_infinity: 1182 if(wres==1) { 1183 if(!((resultr[0]&0x7fffffff)==0x7f800000 || 1184 (resulti[0]&0x7fffffff)==0x7f800000)) { 1185 err = 1; 1186 } 1187 } else { 1188 if(!(((resultr[0]&0x7fffffff)==0x7ff00000 && resultr[1]==0) || 1189 ((resulti[0]&0x7fffffff)==0x7ff00000 && resulti[1]==0))) { 1190 err = 1; 1191 } 1192 } 1193 break; 1194 case rc_nan: 1195 if(wres==1) { 1196 if(!((resultr[0]&0x7fffffff)>0x7f800000 || 1197 (resulti[0]&0x7fffffff)>0x7f800000)) { 1198 err = 1; 1199 } 1200 } else { 1201 canon_dNaN(resultr); 1202 canon_dNaN(resulti); 1203 if(!(((resultr[0]&0x7fffffff)>0x7ff00000 && resultr[1]==1) || 1204 ((resulti[0]&0x7fffffff)>0x7ff00000 && resulti[1]==1))) { 1205 err = 1; 1206 } 1207 } 1208 break; 1209 case rc_finite: 1210 if(wres==1) { 1211 if(!((resultr[0]&0x7fffffff)<0x7f800000 || 1212 (resulti[0]&0x7fffffff)<0x7f800000)) { 1213 err = 1; 1214 } 1215 } else { 1216 if(!((resultr[0]&0x7fffffff)<0x7ff00000 || 1217 (resulti[0]&0x7fffffff)<0x7ff00000)) { 1218 err = 1; 1219 } 1220 } 1221 break; 1222 default: 1223 break; 1224 } 1225 if(err) { 1226 print_error(t.func->rettype,resultr,"wrongresultr",&failp); 1227 print_error(t.func->rettype,resulti,"wrongresulti",&failp); 1228 } 1229 } else if (t.nresult > wres) { 1230 /* 1231 * The test case data has provided the result to more 1232 * than double precision. Instead of testing exact 1233 * equality, we test against our maximum error 1234 * tolerance. 1235 */ 1236 int rshift, ishift; 1237 long long ulpsr, ulpsi, ulptolerance; 1238 1239 tresultr[wres] = t.resultr[wres] << (32-EXTRABITS); 1240 tresulti[wres] = t.resulti[wres] << (32-EXTRABITS); 1241 if(strict) { 1242 ulptolerance = 4096; /* one ulp */ 1243 } else { 1244 ulptolerance = t.func->tolerance; 1245 } 1246 rshift = ishift = 0; 1247 if (ulptolerance & ABSLOWERBOUND) { 1248 /* 1249 * Hack for the lgamma functions, which have an 1250 * error behaviour that can't conveniently be 1251 * characterised in pure ULPs. Really, we want to 1252 * say that the error in lgamma is "at most N ULPs, 1253 * or at most an absolute error of X, whichever is 1254 * larger", for appropriately chosen N,X. But since 1255 * these two functions are the only cases where it 1256 * arises, I haven't bothered to do it in a nice way 1257 * in the function table above. 1258 * 1259 * (The difficult cases arise with negative input 1260 * values such that |gamma(x)| is very near to 1; in 1261 * this situation implementations tend to separately 1262 * compute lgamma(|x|) and the log of the correction 1263 * term from the Euler reflection formula, and 1264 * subtract - which catastrophically loses 1265 * significance.) 1266 * 1267 * As far as I can tell, nobody cares about this: 1268 * GNU libm doesn't get those cases right either, 1269 * and OpenCL explicitly doesn't state a ULP error 1270 * limit for lgamma. So my guess is that this is 1271 * simply considered acceptable error behaviour for 1272 * this particular function, and hence I feel free 1273 * to allow for it here. 1274 */ 1275 ulptolerance &= ~ABSLOWERBOUND; 1276 if (t.op1r[0] & 0x80000000) { 1277 if (t.func->rettype == rt_d) 1278 rshift = 0x400 - ((tresultr[0] >> 20) & 0x7ff); 1279 else if (t.func->rettype == rt_s) 1280 rshift = 0x80 - ((tresultr[0] >> 23) & 0xff); 1281 if (rshift < 0) 1282 rshift = 0; 1283 } 1284 } 1285 if (ulptolerance & PLUSMINUSPIO2) { 1286 ulptolerance &= ~PLUSMINUSPIO2; 1287 /* 1288 * Hack for range reduction, which can reduce 1289 * borderline cases in the wrong direction, i.e. 1290 * return a value just outside one end of the interval 1291 * [-pi/4,+pi/4] when it could have returned a value 1292 * just inside the other end by subtracting an 1293 * adjacent multiple of pi/2. 1294 * 1295 * We tolerate this, up to a point, because the 1296 * trigonometric functions making use of the output of 1297 * rred can cope and because making the range reducer 1298 * do the exactly right thing in every case would be 1299 * more expensive. 1300 */ 1301 if (wres == 1) { 1302 /* Upper bound of overshoot derived in rredf.h */ 1303 if ((resultr[0]&0x7FFFFFFF) <= 0x3f494b02 && 1304 (resultr[0]&0x7FFFFFFF) > 0x3f490fda && 1305 (resultr[0]&0x80000000) != (tresultr[0]&0x80000000)) { 1306 unsigned long long val; 1307 val = tresultr[0]; 1308 val = (val << 32) | tresultr[1]; 1309 /* 1310 * Compute the alternative permitted result by 1311 * subtracting from the sum of the extended 1312 * single-precision bit patterns of +pi/4 and 1313 * -pi/4. This is a horrible hack which only 1314 * works because we can be confident that 1315 * numbers in this range all have the same 1316 * exponent! 1317 */ 1318 val = 0xfe921fb54442d184ULL - val; 1319 tresultr[0] = val >> 32; 1320 tresultr[1] = (val >> (32-EXTRABITS)) << (32-EXTRABITS); 1321 /* 1322 * Also, expect a correspondingly different 1323 * value of res2 as a result of this change. 1324 * The adjustment depends on whether we just 1325 * flipped the result from + to - or vice 1326 * versa. 1327 */ 1328 if (resultr[0] & 0x80000000) { 1329 res2_adjust = +1; 1330 } else { 1331 res2_adjust = -1; 1332 } 1333 } 1334 } 1335 } 1336 ulpsr = calc_error(resultr, tresultr, rshift, t.func->rettype); 1337 if(is_complex_rettype(t.func->rettype)) { 1338 ulpsi = calc_error(resulti, tresulti, ishift, t.func->rettype); 1339 } else { 1340 ulpsi = 0; 1341 } 1342 unsigned *rr = (ulpsr > ulptolerance || ulpsr < -ulptolerance) ? resultr : NULL; 1343 unsigned *ri = (ulpsi > ulptolerance || ulpsi < -ulptolerance) ? resulti : NULL; 1344 /* printf("tolerance=%i, ulpsr=%i, ulpsi=%i, rr=%p, ri=%p\n",ulptolerance,ulpsr,ulpsi,rr,ri); */ 1345 if (rr || ri) { 1346 if (quiet) failtext[0]='x'; 1347 else { 1348 print_error(t.func->rettype,rr,"wrongresultr",&failp); 1349 print_error(t.func->rettype,ri,"wrongresulti",&failp); 1350 print_ulps(t.func->rettype,rr ? ulpsr : 0, ri ? ulpsi : 0,&failp); 1351 } 1352 } 1353 } else { 1354 if(is_complex_rettype(t.func->rettype)) 1355 /* 1356 * Complex functions are not fully supported, 1357 * this is unreachable, but prevents warnings. 1358 */ 1359 abort(); 1360 /* 1361 * The test case data has provided the result in 1362 * exactly the output precision. Therefore we must 1363 * complain about _any_ violation. 1364 */ 1365 switch(t.func->rettype) { 1366 case rt_dc: 1367 canon_dNaN(tresulti); 1368 canon_dNaN(resulti); 1369 if (fo) { 1370 dnormzero(tresulti); 1371 dnormzero(resulti); 1372 } 1373 /* deliberate fall-through */ 1374 case rt_d: 1375 canon_dNaN(tresultr); 1376 canon_dNaN(resultr); 1377 if (fo) { 1378 dnormzero(tresultr); 1379 dnormzero(resultr); 1380 } 1381 break; 1382 case rt_sc: 1383 canon_sNaN(tresulti); 1384 canon_sNaN(resulti); 1385 if (fo) { 1386 snormzero(tresulti); 1387 snormzero(resulti); 1388 } 1389 /* deliberate fall-through */ 1390 case rt_s: 1391 canon_sNaN(tresultr); 1392 canon_sNaN(resultr); 1393 if (fo) { 1394 snormzero(tresultr); 1395 snormzero(resultr); 1396 } 1397 break; 1398 default: 1399 break; 1400 } 1401 if(is_complex_rettype(t.func->rettype)) { 1402 unsigned *rr, *ri; 1403 if(resultr[0] != tresultr[0] || 1404 (wres > 1 && resultr[1] != tresultr[1])) { 1405 rr = resultr; 1406 } else { 1407 rr = NULL; 1408 } 1409 if(resulti[0] != tresulti[0] || 1410 (wres > 1 && resulti[1] != tresulti[1])) { 1411 ri = resulti; 1412 } else { 1413 ri = NULL; 1414 } 1415 if(rr || ri) { 1416 if (quiet) failtext[0]='x'; 1417 print_error(t.func->rettype,rr,"wrongresultr",&failp); 1418 print_error(t.func->rettype,ri,"wrongresulti",&failp); 1419 } 1420 } else if (resultr[0] != tresultr[0] || 1421 (wres > 1 && resultr[1] != tresultr[1])) { 1422 if (quiet) failtext[0]='x'; 1423 print_error(t.func->rettype,resultr,"wrongresult",&failp); 1424 } 1425 } 1426 /* 1427 * Now test res2, for those functions (frexp, modf, rred) 1428 * which use it. 1429 */ 1430 if (t.func->func.ptr == &frexp || t.func->func.ptr == &frexpf || 1431 t.func->macro_name == m_rred || t.func->macro_name == m_rredf) { 1432 unsigned tres2 = t.res2[0]; 1433 if (res2_adjust) { 1434 /* Fix for range reduction, propagated from further up */ 1435 tres2 = (tres2 + res2_adjust) & 3; 1436 } 1437 if (tres2 != intres) { 1438 if (quiet) failtext[0]='x'; 1439 else { 1440 failp += sprintf(failp, 1441 " wrongres2=%08x", intres); 1442 } 1443 } 1444 } else if (t.func->func.ptr == &modf || t.func->func.ptr == &modff) { 1445 tresultr[0] = t.res2[0]; 1446 tresultr[1] = t.res2[1]; 1447 if (is_double_rettype(t.func->rettype)) { 1448 canon_dNaN(tresultr); 1449 resultr[0] = d_res2.i[dmsd]; 1450 resultr[1] = d_res2.i[dlsd]; 1451 canon_dNaN(resultr); 1452 if (fo) { 1453 dnormzero(tresultr); 1454 dnormzero(resultr); 1455 } 1456 } else { 1457 canon_sNaN(tresultr); 1458 resultr[0] = s_res2.i; 1459 resultr[1] = s_res2.i; 1460 canon_sNaN(resultr); 1461 if (fo) { 1462 snormzero(tresultr); 1463 snormzero(resultr); 1464 } 1465 } 1466 if (resultr[0] != tresultr[0] || 1467 (wres > 1 && resultr[1] != tresultr[1])) { 1468 if (quiet) failtext[0]='x'; 1469 else { 1470 if (is_double_rettype(t.func->rettype)) 1471 failp += sprintf(failp, " wrongres2=%08x.%08x", 1472 resultr[0], resultr[1]); 1473 else 1474 failp += sprintf(failp, " wrongres2=%08x", 1475 resultr[0]); 1476 } 1477 } 1478 } 1479 } 1480 1481 /* Check errno */ 1482 err = (errno == EDOM ? e_EDOM : errno == ERANGE ? e_ERANGE : e_0); 1483 if (err != t.err && err != t.maybeerr) { 1484 if (quiet) failtext[0]='x'; 1485 else { 1486 failp += sprintf(failp, " wrongerrno=%s expecterrno=%s ", errnos[err], errnos[t.err]); 1487 } 1488 } 1489 1490 return *failtext ? test_fail : test_pass; 1491 } 1492 1493 int passed, failed, declined; 1494 1495 void runtests(char *name, FILE *fp) { 1496 char testbuf[512], linebuf[512]; 1497 int lineno = 1; 1498 testdetail test; 1499 1500 test.valid = 0; 1501 1502 if (verbose) printf("runtests: %s\n", name); 1503 while (fgets(testbuf, sizeof(testbuf), fp)) { 1504 int res, print_errno; 1505 testbuf[strcspn(testbuf, "\r\n")] = '\0'; 1506 strcpy(linebuf, testbuf); 1507 test = parsetest(testbuf, test); 1508 print_errno = 0; 1509 while (test.in_err < test.in_err_limit) { 1510 res = runtest(test); 1511 if (res == test_pass) { 1512 if (verbose) 1513 printf("%s:%d: pass\n", name, lineno); 1514 ++passed; 1515 } else if (res == test_decline) { 1516 if (verbose) 1517 printf("%s:%d: declined\n", name, lineno); 1518 ++declined; 1519 } else if (res == test_fail) { 1520 if (!quiet) 1521 printf("%s:%d: FAIL%s: %s%s%s%s\n", name, lineno, 1522 test.random ? " (random)" : "", 1523 linebuf, 1524 print_errno ? " errno_in=" : "", 1525 print_errno ? errnos[test.in_err] : "", 1526 failtext); 1527 ++failed; 1528 } else if (res == test_invalid) { 1529 printf("%s:%d: malformed: %s\n", name, lineno, linebuf); 1530 ++failed; 1531 } 1532 test.in_err++; 1533 print_errno = 1; 1534 } 1535 lineno++; 1536 } 1537 } 1538 1539 int main(int ac, char **av) { 1540 char **files; 1541 int i, nfiles = 0; 1542 dbl d; 1543 1544 #ifdef MICROLIB 1545 /* 1546 * Invent argc and argv ourselves. 1547 */ 1548 char *argv[256]; 1549 char args[256]; 1550 { 1551 int sargs[2]; 1552 char *p; 1553 1554 ac = 0; 1555 1556 sargs[0]=(int)args; 1557 sargs[1]=(int)sizeof(args); 1558 if (!__semihost(0x15, sargs)) { 1559 args[sizeof(args)-1] = '\0'; /* just in case */ 1560 p = args; 1561 while (1) { 1562 while (*p == ' ' || *p == '\t') p++; 1563 if (!*p) break; 1564 argv[ac++] = p; 1565 while (*p && *p != ' ' && *p != '\t') p++; 1566 if (*p) *p++ = '\0'; 1567 } 1568 } 1569 1570 av = argv; 1571 } 1572 #endif 1573 1574 /* Sort tfuncs */ 1575 qsort(tfuncs, sizeof(tfuncs)/sizeof(test_func), sizeof(test_func), &compare_tfuncs); 1576 1577 /* 1578 * Autodetect the `double' endianness. 1579 */ 1580 dmsd = 0; 1581 d.f = 1.0; /* 0x3ff00000 / 0x00000000 */ 1582 if (d.i[dmsd] == 0) { 1583 dmsd = 1; 1584 } 1585 /* 1586 * Now dmsd denotes what the compiler thinks we're at. Let's 1587 * check that it agrees with what the runtime thinks. 1588 */ 1589 d.i[0] = d.i[1] = 0x11111111;/* a random +ve number */ 1590 d.f /= d.f; /* must now be one */ 1591 if (d.i[dmsd] == 0) { 1592 fprintf(stderr, "YIKES! Compiler and runtime disagree on endianness" 1593 " of `double'. Bailing out\n"); 1594 return 1; 1595 } 1596 dlsd = !dmsd; 1597 1598 /* default is terse */ 1599 verbose = 0; 1600 fo = 0; 1601 strict = 0; 1602 1603 files = (char **)malloc((ac+1) * sizeof(char *)); 1604 if (!files) { 1605 fprintf(stderr, "initial malloc failed!\n"); 1606 return 1; 1607 } 1608 #ifdef NOCMDLINE 1609 files[nfiles++] = "testfile"; 1610 #endif 1611 1612 while (--ac) { 1613 char *p = *++av; 1614 if (*p == '-') { 1615 static char *options[] = { 1616 "-fo", 1617 #if 0 1618 "-noinexact", 1619 "-noround", 1620 #endif 1621 "-nostatus", 1622 "-quiet", 1623 "-strict", 1624 "-v", 1625 "-verbose", 1626 }; 1627 enum { 1628 op_fo, 1629 #if 0 1630 op_noinexact, 1631 op_noround, 1632 #endif 1633 op_nostatus, 1634 op_quiet, 1635 op_strict, 1636 op_v, 1637 op_verbose, 1638 }; 1639 switch (find(p, options, sizeof(options))) { 1640 case op_quiet: 1641 quiet = 1; 1642 break; 1643 #if 0 1644 case op_noinexact: 1645 statusmask &= 0x0F; /* remove bit 4 */ 1646 break; 1647 case op_noround: 1648 doround = 0; 1649 break; 1650 #endif 1651 case op_nostatus: /* no status word => noinx,noround */ 1652 statusmask = 0; 1653 doround = 0; 1654 break; 1655 case op_v: 1656 case op_verbose: 1657 verbose = 1; 1658 break; 1659 case op_fo: 1660 fo = 1; 1661 break; 1662 case op_strict: /* tolerance is 1 ulp */ 1663 strict = 1; 1664 break; 1665 default: 1666 fprintf(stderr, "unrecognised option: %s\n", p); 1667 break; 1668 } 1669 } else { 1670 files[nfiles++] = p; 1671 } 1672 } 1673 1674 passed = failed = declined = 0; 1675 1676 if (nfiles) { 1677 for (i = 0; i < nfiles; i++) { 1678 FILE *fp = fopen(files[i], "r"); 1679 if (!fp) { 1680 fprintf(stderr, "Couldn't open %s\n", files[i]); 1681 } else 1682 runtests(files[i], fp); 1683 } 1684 } else 1685 runtests("(stdin)", stdin); 1686 1687 printf("Completed. Passed %d, failed %d (total %d", 1688 passed, failed, passed+failed); 1689 if (declined) 1690 printf(" plus %d declined", declined); 1691 printf(")\n"); 1692 if (failed || passed == 0) 1693 return 1; 1694 printf("** TEST PASSED OK **\n"); 1695 return 0; 1696 } 1697 1698 void undef_func() { 1699 failed++; 1700 puts("ERROR: undefined function called"); 1701 } 1702