github.com/go-asm/go@v1.21.1-0.20240213172139-40c5ead50c48/cmd/compile/test/float_test.go (about) 1 // Copyright 2016 The Go Authors. All rights reserved. 2 // Use of this source code is governed by a BSD-style 3 // license that can be found in the LICENSE file. 4 5 package test 6 7 import ( 8 "math" 9 "testing" 10 ) 11 12 //go:noinline 13 func compare1(a, b float64) bool { 14 return a < b 15 } 16 17 //go:noinline 18 func compare2(a, b float32) bool { 19 return a < b 20 } 21 22 func TestFloatCompare(t *testing.T) { 23 if !compare1(3, 5) { 24 t.Errorf("compare1 returned false") 25 } 26 if !compare2(3, 5) { 27 t.Errorf("compare2 returned false") 28 } 29 } 30 31 func TestFloatCompareFolded(t *testing.T) { 32 // float64 comparisons 33 d1, d3, d5, d9 := float64(1), float64(3), float64(5), float64(9) 34 if d3 == d5 { 35 t.Errorf("d3 == d5 returned true") 36 } 37 if d3 != d3 { 38 t.Errorf("d3 != d3 returned true") 39 } 40 if d3 > d5 { 41 t.Errorf("d3 > d5 returned true") 42 } 43 if d3 >= d9 { 44 t.Errorf("d3 >= d9 returned true") 45 } 46 if d5 < d1 { 47 t.Errorf("d5 < d1 returned true") 48 } 49 if d9 <= d1 { 50 t.Errorf("d9 <= d1 returned true") 51 } 52 if math.NaN() == math.NaN() { 53 t.Errorf("math.NaN() == math.NaN() returned true") 54 } 55 if math.NaN() >= math.NaN() { 56 t.Errorf("math.NaN() >= math.NaN() returned true") 57 } 58 if math.NaN() <= math.NaN() { 59 t.Errorf("math.NaN() <= math.NaN() returned true") 60 } 61 if math.Copysign(math.NaN(), -1) < math.NaN() { 62 t.Errorf("math.Copysign(math.NaN(), -1) < math.NaN() returned true") 63 } 64 if math.Inf(1) != math.Inf(1) { 65 t.Errorf("math.Inf(1) != math.Inf(1) returned true") 66 } 67 if math.Inf(-1) != math.Inf(-1) { 68 t.Errorf("math.Inf(-1) != math.Inf(-1) returned true") 69 } 70 if math.Copysign(0, -1) != 0 { 71 t.Errorf("math.Copysign(0, -1) != 0 returned true") 72 } 73 if math.Copysign(0, -1) < 0 { 74 t.Errorf("math.Copysign(0, -1) < 0 returned true") 75 } 76 if 0 > math.Copysign(0, -1) { 77 t.Errorf("0 > math.Copysign(0, -1) returned true") 78 } 79 80 // float32 comparisons 81 s1, s3, s5, s9 := float32(1), float32(3), float32(5), float32(9) 82 if s3 == s5 { 83 t.Errorf("s3 == s5 returned true") 84 } 85 if s3 != s3 { 86 t.Errorf("s3 != s3 returned true") 87 } 88 if s3 > s5 { 89 t.Errorf("s3 > s5 returned true") 90 } 91 if s3 >= s9 { 92 t.Errorf("s3 >= s9 returned true") 93 } 94 if s5 < s1 { 95 t.Errorf("s5 < s1 returned true") 96 } 97 if s9 <= s1 { 98 t.Errorf("s9 <= s1 returned true") 99 } 100 sPosNaN, sNegNaN := float32(math.NaN()), float32(math.Copysign(math.NaN(), -1)) 101 if sPosNaN == sPosNaN { 102 t.Errorf("sPosNaN == sPosNaN returned true") 103 } 104 if sPosNaN >= sPosNaN { 105 t.Errorf("sPosNaN >= sPosNaN returned true") 106 } 107 if sPosNaN <= sPosNaN { 108 t.Errorf("sPosNaN <= sPosNaN returned true") 109 } 110 if sNegNaN < sPosNaN { 111 t.Errorf("sNegNaN < sPosNaN returned true") 112 } 113 sPosInf, sNegInf := float32(math.Inf(1)), float32(math.Inf(-1)) 114 if sPosInf != sPosInf { 115 t.Errorf("sPosInf != sPosInf returned true") 116 } 117 if sNegInf != sNegInf { 118 t.Errorf("sNegInf != sNegInf returned true") 119 } 120 sNegZero := float32(math.Copysign(0, -1)) 121 if sNegZero != 0 { 122 t.Errorf("sNegZero != 0 returned true") 123 } 124 if sNegZero < 0 { 125 t.Errorf("sNegZero < 0 returned true") 126 } 127 if 0 > sNegZero { 128 t.Errorf("0 > sNegZero returned true") 129 } 130 } 131 132 //go:noinline 133 func cvt1(a float64) uint64 { 134 return uint64(a) 135 } 136 137 //go:noinline 138 func cvt2(a float64) uint32 { 139 return uint32(a) 140 } 141 142 //go:noinline 143 func cvt3(a float32) uint64 { 144 return uint64(a) 145 } 146 147 //go:noinline 148 func cvt4(a float32) uint32 { 149 return uint32(a) 150 } 151 152 //go:noinline 153 func cvt5(a float64) int64 { 154 return int64(a) 155 } 156 157 //go:noinline 158 func cvt6(a float64) int32 { 159 return int32(a) 160 } 161 162 //go:noinline 163 func cvt7(a float32) int64 { 164 return int64(a) 165 } 166 167 //go:noinline 168 func cvt8(a float32) int32 { 169 return int32(a) 170 } 171 172 // make sure to cover int, uint cases (issue #16738) 173 // 174 //go:noinline 175 func cvt9(a float64) int { 176 return int(a) 177 } 178 179 //go:noinline 180 func cvt10(a float64) uint { 181 return uint(a) 182 } 183 184 //go:noinline 185 func cvt11(a float32) int { 186 return int(a) 187 } 188 189 //go:noinline 190 func cvt12(a float32) uint { 191 return uint(a) 192 } 193 194 //go:noinline 195 func f2i64p(v float64) *int64 { 196 return ip64(int64(v / 0.1)) 197 } 198 199 //go:noinline 200 func ip64(v int64) *int64 { 201 return &v 202 } 203 204 func TestFloatConvert(t *testing.T) { 205 if got := cvt1(3.5); got != 3 { 206 t.Errorf("cvt1 got %d, wanted 3", got) 207 } 208 if got := cvt2(3.5); got != 3 { 209 t.Errorf("cvt2 got %d, wanted 3", got) 210 } 211 if got := cvt3(3.5); got != 3 { 212 t.Errorf("cvt3 got %d, wanted 3", got) 213 } 214 if got := cvt4(3.5); got != 3 { 215 t.Errorf("cvt4 got %d, wanted 3", got) 216 } 217 if got := cvt5(3.5); got != 3 { 218 t.Errorf("cvt5 got %d, wanted 3", got) 219 } 220 if got := cvt6(3.5); got != 3 { 221 t.Errorf("cvt6 got %d, wanted 3", got) 222 } 223 if got := cvt7(3.5); got != 3 { 224 t.Errorf("cvt7 got %d, wanted 3", got) 225 } 226 if got := cvt8(3.5); got != 3 { 227 t.Errorf("cvt8 got %d, wanted 3", got) 228 } 229 if got := cvt9(3.5); got != 3 { 230 t.Errorf("cvt9 got %d, wanted 3", got) 231 } 232 if got := cvt10(3.5); got != 3 { 233 t.Errorf("cvt10 got %d, wanted 3", got) 234 } 235 if got := cvt11(3.5); got != 3 { 236 t.Errorf("cvt11 got %d, wanted 3", got) 237 } 238 if got := cvt12(3.5); got != 3 { 239 t.Errorf("cvt12 got %d, wanted 3", got) 240 } 241 if got := *f2i64p(10); got != 100 { 242 t.Errorf("f2i64p got %d, wanted 100", got) 243 } 244 } 245 246 func TestFloatConvertFolded(t *testing.T) { 247 // Assign constants to variables so that they are (hopefully) constant folded 248 // by the SSA backend rather than the frontend. 249 u64, u32, u16, u8 := uint64(1<<63), uint32(1<<31), uint16(1<<15), uint8(1<<7) 250 i64, i32, i16, i8 := int64(-1<<63), int32(-1<<31), int16(-1<<15), int8(-1<<7) 251 du64, du32, du16, du8 := float64(1<<63), float64(1<<31), float64(1<<15), float64(1<<7) 252 di64, di32, di16, di8 := float64(-1<<63), float64(-1<<31), float64(-1<<15), float64(-1<<7) 253 su64, su32, su16, su8 := float32(1<<63), float32(1<<31), float32(1<<15), float32(1<<7) 254 si64, si32, si16, si8 := float32(-1<<63), float32(-1<<31), float32(-1<<15), float32(-1<<7) 255 256 // integer to float 257 if float64(u64) != du64 { 258 t.Errorf("float64(u64) != du64") 259 } 260 if float64(u32) != du32 { 261 t.Errorf("float64(u32) != du32") 262 } 263 if float64(u16) != du16 { 264 t.Errorf("float64(u16) != du16") 265 } 266 if float64(u8) != du8 { 267 t.Errorf("float64(u8) != du8") 268 } 269 if float64(i64) != di64 { 270 t.Errorf("float64(i64) != di64") 271 } 272 if float64(i32) != di32 { 273 t.Errorf("float64(i32) != di32") 274 } 275 if float64(i16) != di16 { 276 t.Errorf("float64(i16) != di16") 277 } 278 if float64(i8) != di8 { 279 t.Errorf("float64(i8) != di8") 280 } 281 if float32(u64) != su64 { 282 t.Errorf("float32(u64) != su64") 283 } 284 if float32(u32) != su32 { 285 t.Errorf("float32(u32) != su32") 286 } 287 if float32(u16) != su16 { 288 t.Errorf("float32(u16) != su16") 289 } 290 if float32(u8) != su8 { 291 t.Errorf("float32(u8) != su8") 292 } 293 if float32(i64) != si64 { 294 t.Errorf("float32(i64) != si64") 295 } 296 if float32(i32) != si32 { 297 t.Errorf("float32(i32) != si32") 298 } 299 if float32(i16) != si16 { 300 t.Errorf("float32(i16) != si16") 301 } 302 if float32(i8) != si8 { 303 t.Errorf("float32(i8) != si8") 304 } 305 306 // float to integer 307 if uint64(du64) != u64 { 308 t.Errorf("uint64(du64) != u64") 309 } 310 if uint32(du32) != u32 { 311 t.Errorf("uint32(du32) != u32") 312 } 313 if uint16(du16) != u16 { 314 t.Errorf("uint16(du16) != u16") 315 } 316 if uint8(du8) != u8 { 317 t.Errorf("uint8(du8) != u8") 318 } 319 if int64(di64) != i64 { 320 t.Errorf("int64(di64) != i64") 321 } 322 if int32(di32) != i32 { 323 t.Errorf("int32(di32) != i32") 324 } 325 if int16(di16) != i16 { 326 t.Errorf("int16(di16) != i16") 327 } 328 if int8(di8) != i8 { 329 t.Errorf("int8(di8) != i8") 330 } 331 if uint64(su64) != u64 { 332 t.Errorf("uint64(su64) != u64") 333 } 334 if uint32(su32) != u32 { 335 t.Errorf("uint32(su32) != u32") 336 } 337 if uint16(su16) != u16 { 338 t.Errorf("uint16(su16) != u16") 339 } 340 if uint8(su8) != u8 { 341 t.Errorf("uint8(su8) != u8") 342 } 343 if int64(si64) != i64 { 344 t.Errorf("int64(si64) != i64") 345 } 346 if int32(si32) != i32 { 347 t.Errorf("int32(si32) != i32") 348 } 349 if int16(si16) != i16 { 350 t.Errorf("int16(si16) != i16") 351 } 352 if int8(si8) != i8 { 353 t.Errorf("int8(si8) != i8") 354 } 355 } 356 357 func TestFloat32StoreToLoadConstantFold(t *testing.T) { 358 // Test that math.Float32{,from}bits constant fold correctly. 359 // In particular we need to be careful that signaling NaN (sNaN) values 360 // are not converted to quiet NaN (qNaN) values during compilation. 361 // See issue #27193 for more information. 362 363 // signaling NaNs 364 { 365 const nan = uint32(0x7f800001) // sNaN 366 if x := math.Float32bits(math.Float32frombits(nan)); x != nan { 367 t.Errorf("got %#x, want %#x", x, nan) 368 } 369 } 370 { 371 const nan = uint32(0x7fbfffff) // sNaN 372 if x := math.Float32bits(math.Float32frombits(nan)); x != nan { 373 t.Errorf("got %#x, want %#x", x, nan) 374 } 375 } 376 { 377 const nan = uint32(0xff800001) // sNaN 378 if x := math.Float32bits(math.Float32frombits(nan)); x != nan { 379 t.Errorf("got %#x, want %#x", x, nan) 380 } 381 } 382 { 383 const nan = uint32(0xffbfffff) // sNaN 384 if x := math.Float32bits(math.Float32frombits(nan)); x != nan { 385 t.Errorf("got %#x, want %#x", x, nan) 386 } 387 } 388 389 // quiet NaNs 390 { 391 const nan = uint32(0x7fc00000) // qNaN 392 if x := math.Float32bits(math.Float32frombits(nan)); x != nan { 393 t.Errorf("got %#x, want %#x", x, nan) 394 } 395 } 396 { 397 const nan = uint32(0x7fffffff) // qNaN 398 if x := math.Float32bits(math.Float32frombits(nan)); x != nan { 399 t.Errorf("got %#x, want %#x", x, nan) 400 } 401 } 402 { 403 const nan = uint32(0x8fc00000) // qNaN 404 if x := math.Float32bits(math.Float32frombits(nan)); x != nan { 405 t.Errorf("got %#x, want %#x", x, nan) 406 } 407 } 408 { 409 const nan = uint32(0x8fffffff) // qNaN 410 if x := math.Float32bits(math.Float32frombits(nan)); x != nan { 411 t.Errorf("got %#x, want %#x", x, nan) 412 } 413 } 414 415 // infinities 416 { 417 const inf = uint32(0x7f800000) // +∞ 418 if x := math.Float32bits(math.Float32frombits(inf)); x != inf { 419 t.Errorf("got %#x, want %#x", x, inf) 420 } 421 } 422 { 423 const negInf = uint32(0xff800000) // -∞ 424 if x := math.Float32bits(math.Float32frombits(negInf)); x != negInf { 425 t.Errorf("got %#x, want %#x", x, negInf) 426 } 427 } 428 429 // numbers 430 { 431 const zero = uint32(0) // +0.0 432 if x := math.Float32bits(math.Float32frombits(zero)); x != zero { 433 t.Errorf("got %#x, want %#x", x, zero) 434 } 435 } 436 { 437 const negZero = uint32(1 << 31) // -0.0 438 if x := math.Float32bits(math.Float32frombits(negZero)); x != negZero { 439 t.Errorf("got %#x, want %#x", x, negZero) 440 } 441 } 442 { 443 const one = uint32(0x3f800000) // 1.0 444 if x := math.Float32bits(math.Float32frombits(one)); x != one { 445 t.Errorf("got %#x, want %#x", x, one) 446 } 447 } 448 { 449 const negOne = uint32(0xbf800000) // -1.0 450 if x := math.Float32bits(math.Float32frombits(negOne)); x != negOne { 451 t.Errorf("got %#x, want %#x", x, negOne) 452 } 453 } 454 { 455 const frac = uint32(0x3fc00000) // +1.5 456 if x := math.Float32bits(math.Float32frombits(frac)); x != frac { 457 t.Errorf("got %#x, want %#x", x, frac) 458 } 459 } 460 { 461 const negFrac = uint32(0xbfc00000) // -1.5 462 if x := math.Float32bits(math.Float32frombits(negFrac)); x != negFrac { 463 t.Errorf("got %#x, want %#x", x, negFrac) 464 } 465 } 466 } 467 468 // Signaling NaN values as constants. 469 const ( 470 snan32bits uint32 = 0x7f800001 471 snan64bits uint64 = 0x7ff0000000000001 472 ) 473 474 // Signaling NaNs as variables. 475 var snan32bitsVar uint32 = snan32bits 476 var snan64bitsVar uint64 = snan64bits 477 478 func TestFloatSignalingNaN(t *testing.T) { 479 // Make sure we generate a signaling NaN from a constant properly. 480 // See issue 36400. 481 f32 := math.Float32frombits(snan32bits) 482 g32 := math.Float32frombits(snan32bitsVar) 483 x32 := math.Float32bits(f32) 484 y32 := math.Float32bits(g32) 485 if x32 != y32 { 486 t.Errorf("got %x, want %x (diff=%x)", x32, y32, x32^y32) 487 } 488 489 f64 := math.Float64frombits(snan64bits) 490 g64 := math.Float64frombits(snan64bitsVar) 491 x64 := math.Float64bits(f64) 492 y64 := math.Float64bits(g64) 493 if x64 != y64 { 494 t.Errorf("got %x, want %x (diff=%x)", x64, y64, x64^y64) 495 } 496 } 497 498 func TestFloatSignalingNaNConversion(t *testing.T) { 499 // Test to make sure when we convert a signaling NaN, we get a NaN. 500 // (Ideally we want a quiet NaN, but some platforms don't agree.) 501 // See issue 36399. 502 s32 := math.Float32frombits(snan32bitsVar) 503 if s32 == s32 { 504 t.Errorf("converting a NaN did not result in a NaN") 505 } 506 s64 := math.Float64frombits(snan64bitsVar) 507 if s64 == s64 { 508 t.Errorf("converting a NaN did not result in a NaN") 509 } 510 } 511 512 func TestFloatSignalingNaNConversionConst(t *testing.T) { 513 // Test to make sure when we convert a signaling NaN, it converts to a NaN. 514 // (Ideally we want a quiet NaN, but some platforms don't agree.) 515 // See issue 36399 and 36400. 516 s32 := math.Float32frombits(snan32bits) 517 if s32 == s32 { 518 t.Errorf("converting a NaN did not result in a NaN") 519 } 520 s64 := math.Float64frombits(snan64bits) 521 if s64 == s64 { 522 t.Errorf("converting a NaN did not result in a NaN") 523 } 524 } 525 526 var sinkFloat float64 527 528 func BenchmarkMul2(b *testing.B) { 529 for i := 0; i < b.N; i++ { 530 var m float64 = 1 531 for j := 0; j < 500; j++ { 532 m *= 2 533 } 534 sinkFloat = m 535 } 536 } 537 func BenchmarkMulNeg2(b *testing.B) { 538 for i := 0; i < b.N; i++ { 539 var m float64 = 1 540 for j := 0; j < 500; j++ { 541 m *= -2 542 } 543 sinkFloat = m 544 } 545 }