github.com/goproxy0/go@v0.0.0-20171111080102-49cc0c489d2c/src/cmd/compile/internal/gc/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 gc 6 7 import ( 8 "math" 9 "testing" 10 ) 11 12 // For GO386=387, make sure fucomi* opcodes are not used 13 // for comparison operations. 14 // Note that this test will fail only on a Pentium MMX 15 // processor (with GOARCH=386 GO386=387), as it just runs 16 // some code and looks for an unimplemented instruction fault. 17 18 //go:noinline 19 func compare1(a, b float64) bool { 20 return a < b 21 } 22 23 //go:noinline 24 func compare2(a, b float32) bool { 25 return a < b 26 } 27 28 func TestFloatCompare(t *testing.T) { 29 if !compare1(3, 5) { 30 t.Errorf("compare1 returned false") 31 } 32 if !compare2(3, 5) { 33 t.Errorf("compare2 returned false") 34 } 35 } 36 37 func TestFloatCompareFolded(t *testing.T) { 38 // float64 comparisons 39 d1, d3, d5, d9 := float64(1), float64(3), float64(5), float64(9) 40 if d3 == d5 { 41 t.Errorf("d3 == d5 returned true") 42 } 43 if d3 != d3 { 44 t.Errorf("d3 != d3 returned true") 45 } 46 if d3 > d5 { 47 t.Errorf("d3 > d5 returned true") 48 } 49 if d3 >= d9 { 50 t.Errorf("d3 >= d9 returned true") 51 } 52 if d5 < d1 { 53 t.Errorf("d5 < d1 returned true") 54 } 55 if d9 <= d1 { 56 t.Errorf("d9 <= d1 returned true") 57 } 58 if math.NaN() == math.NaN() { 59 t.Errorf("math.NaN() == math.NaN() returned true") 60 } 61 if math.NaN() >= math.NaN() { 62 t.Errorf("math.NaN() >= math.NaN() returned true") 63 } 64 if math.NaN() <= math.NaN() { 65 t.Errorf("math.NaN() <= math.NaN() returned true") 66 } 67 if math.Copysign(math.NaN(), -1) < math.NaN() { 68 t.Errorf("math.Copysign(math.NaN(), -1) < math.NaN() returned true") 69 } 70 if math.Inf(1) != math.Inf(1) { 71 t.Errorf("math.Inf(1) != math.Inf(1) returned true") 72 } 73 if math.Inf(-1) != math.Inf(-1) { 74 t.Errorf("math.Inf(-1) != math.Inf(-1) returned true") 75 } 76 if math.Copysign(0, -1) != 0 { 77 t.Errorf("math.Copysign(0, -1) != 0 returned true") 78 } 79 if math.Copysign(0, -1) < 0 { 80 t.Errorf("math.Copysign(0, -1) < 0 returned true") 81 } 82 if 0 > math.Copysign(0, -1) { 83 t.Errorf("0 > math.Copysign(0, -1) returned true") 84 } 85 86 // float32 comparisons 87 s1, s3, s5, s9 := float32(1), float32(3), float32(5), float32(9) 88 if s3 == s5 { 89 t.Errorf("s3 == s5 returned true") 90 } 91 if s3 != s3 { 92 t.Errorf("s3 != s3 returned true") 93 } 94 if s3 > s5 { 95 t.Errorf("s3 > s5 returned true") 96 } 97 if s3 >= s9 { 98 t.Errorf("s3 >= s9 returned true") 99 } 100 if s5 < s1 { 101 t.Errorf("s5 < s1 returned true") 102 } 103 if s9 <= s1 { 104 t.Errorf("s9 <= s1 returned true") 105 } 106 sPosNaN, sNegNaN := float32(math.NaN()), float32(math.Copysign(math.NaN(), -1)) 107 if sPosNaN == sPosNaN { 108 t.Errorf("sPosNaN == sPosNaN returned true") 109 } 110 if sPosNaN >= sPosNaN { 111 t.Errorf("sPosNaN >= sPosNaN returned true") 112 } 113 if sPosNaN <= sPosNaN { 114 t.Errorf("sPosNaN <= sPosNaN returned true") 115 } 116 if sNegNaN < sPosNaN { 117 t.Errorf("sNegNaN < sPosNaN returned true") 118 } 119 sPosInf, sNegInf := float32(math.Inf(1)), float32(math.Inf(-1)) 120 if sPosInf != sPosInf { 121 t.Errorf("sPosInf != sPosInf returned true") 122 } 123 if sNegInf != sNegInf { 124 t.Errorf("sNegInf != sNegInf returned true") 125 } 126 sNegZero := float32(math.Copysign(0, -1)) 127 if sNegZero != 0 { 128 t.Errorf("sNegZero != 0 returned true") 129 } 130 if sNegZero < 0 { 131 t.Errorf("sNegZero < 0 returned true") 132 } 133 if 0 > sNegZero { 134 t.Errorf("0 > sNegZero returned true") 135 } 136 } 137 138 // For GO386=387, make sure fucomi* opcodes are not used 139 // for float->int conversions. 140 141 //go:noinline 142 func cvt1(a float64) uint64 { 143 return uint64(a) 144 } 145 146 //go:noinline 147 func cvt2(a float64) uint32 { 148 return uint32(a) 149 } 150 151 //go:noinline 152 func cvt3(a float32) uint64 { 153 return uint64(a) 154 } 155 156 //go:noinline 157 func cvt4(a float32) uint32 { 158 return uint32(a) 159 } 160 161 //go:noinline 162 func cvt5(a float64) int64 { 163 return int64(a) 164 } 165 166 //go:noinline 167 func cvt6(a float64) int32 { 168 return int32(a) 169 } 170 171 //go:noinline 172 func cvt7(a float32) int64 { 173 return int64(a) 174 } 175 176 //go:noinline 177 func cvt8(a float32) int32 { 178 return int32(a) 179 } 180 181 // make sure to cover int, uint cases (issue #16738) 182 //go:noinline 183 func cvt9(a float64) int { 184 return int(a) 185 } 186 187 //go:noinline 188 func cvt10(a float64) uint { 189 return uint(a) 190 } 191 192 //go:noinline 193 func cvt11(a float32) int { 194 return int(a) 195 } 196 197 //go:noinline 198 func cvt12(a float32) uint { 199 return uint(a) 200 } 201 202 //go:noinline 203 func f2i64p(v float64) *int64 { 204 return ip64(int64(v / 0.1)) 205 } 206 207 //go:noinline 208 func ip64(v int64) *int64 { 209 return &v 210 } 211 212 func TestFloatConvert(t *testing.T) { 213 if got := cvt1(3.5); got != 3 { 214 t.Errorf("cvt1 got %d, wanted 3", got) 215 } 216 if got := cvt2(3.5); got != 3 { 217 t.Errorf("cvt2 got %d, wanted 3", got) 218 } 219 if got := cvt3(3.5); got != 3 { 220 t.Errorf("cvt3 got %d, wanted 3", got) 221 } 222 if got := cvt4(3.5); got != 3 { 223 t.Errorf("cvt4 got %d, wanted 3", got) 224 } 225 if got := cvt5(3.5); got != 3 { 226 t.Errorf("cvt5 got %d, wanted 3", got) 227 } 228 if got := cvt6(3.5); got != 3 { 229 t.Errorf("cvt6 got %d, wanted 3", got) 230 } 231 if got := cvt7(3.5); got != 3 { 232 t.Errorf("cvt7 got %d, wanted 3", got) 233 } 234 if got := cvt8(3.5); got != 3 { 235 t.Errorf("cvt8 got %d, wanted 3", got) 236 } 237 if got := cvt9(3.5); got != 3 { 238 t.Errorf("cvt9 got %d, wanted 3", got) 239 } 240 if got := cvt10(3.5); got != 3 { 241 t.Errorf("cvt10 got %d, wanted 3", got) 242 } 243 if got := cvt11(3.5); got != 3 { 244 t.Errorf("cvt11 got %d, wanted 3", got) 245 } 246 if got := cvt12(3.5); got != 3 { 247 t.Errorf("cvt12 got %d, wanted 3", got) 248 } 249 if got := *f2i64p(10); got != 100 { 250 t.Errorf("f2i64p got %d, wanted 100", got) 251 } 252 } 253 254 func TestFloatConvertFolded(t *testing.T) { 255 // Assign constants to variables so that they are (hopefully) constant folded 256 // by the SSA backend rather than the frontend. 257 u64, u32, u16, u8 := uint64(1<<63), uint32(1<<31), uint16(1<<15), uint8(1<<7) 258 i64, i32, i16, i8 := int64(-1<<63), int32(-1<<31), int16(-1<<15), int8(-1<<7) 259 du64, du32, du16, du8 := float64(1<<63), float64(1<<31), float64(1<<15), float64(1<<7) 260 di64, di32, di16, di8 := float64(-1<<63), float64(-1<<31), float64(-1<<15), float64(-1<<7) 261 su64, su32, su16, su8 := float32(1<<63), float32(1<<31), float32(1<<15), float32(1<<7) 262 si64, si32, si16, si8 := float32(-1<<63), float32(-1<<31), float32(-1<<15), float32(-1<<7) 263 264 // integer to float 265 if float64(u64) != du64 { 266 t.Errorf("float64(u64) != du64") 267 } 268 if float64(u32) != du32 { 269 t.Errorf("float64(u32) != du32") 270 } 271 if float64(u16) != du16 { 272 t.Errorf("float64(u16) != du16") 273 } 274 if float64(u8) != du8 { 275 t.Errorf("float64(u8) != du8") 276 } 277 if float64(i64) != di64 { 278 t.Errorf("float64(i64) != di64") 279 } 280 if float64(i32) != di32 { 281 t.Errorf("float64(i32) != di32") 282 } 283 if float64(i16) != di16 { 284 t.Errorf("float64(i16) != di16") 285 } 286 if float64(i8) != di8 { 287 t.Errorf("float64(i8) != di8") 288 } 289 if float32(u64) != su64 { 290 t.Errorf("float32(u64) != su64") 291 } 292 if float32(u32) != su32 { 293 t.Errorf("float32(u32) != su32") 294 } 295 if float32(u16) != su16 { 296 t.Errorf("float32(u16) != su16") 297 } 298 if float32(u8) != su8 { 299 t.Errorf("float32(u8) != su8") 300 } 301 if float32(i64) != si64 { 302 t.Errorf("float32(i64) != si64") 303 } 304 if float32(i32) != si32 { 305 t.Errorf("float32(i32) != si32") 306 } 307 if float32(i16) != si16 { 308 t.Errorf("float32(i16) != si16") 309 } 310 if float32(i8) != si8 { 311 t.Errorf("float32(i8) != si8") 312 } 313 314 // float to integer 315 if uint64(du64) != u64 { 316 t.Errorf("uint64(du64) != u64") 317 } 318 if uint32(du32) != u32 { 319 t.Errorf("uint32(du32) != u32") 320 } 321 if uint16(du16) != u16 { 322 t.Errorf("uint16(du16) != u16") 323 } 324 if uint8(du8) != u8 { 325 t.Errorf("uint8(du8) != u8") 326 } 327 if int64(di64) != i64 { 328 t.Errorf("int64(di64) != i64") 329 } 330 if int32(di32) != i32 { 331 t.Errorf("int32(di32) != i32") 332 } 333 if int16(di16) != i16 { 334 t.Errorf("int16(di16) != i16") 335 } 336 if int8(di8) != i8 { 337 t.Errorf("int8(di8) != i8") 338 } 339 if uint64(su64) != u64 { 340 t.Errorf("uint64(su64) != u64") 341 } 342 if uint32(su32) != u32 { 343 t.Errorf("uint32(su32) != u32") 344 } 345 if uint16(su16) != u16 { 346 t.Errorf("uint16(su16) != u16") 347 } 348 if uint8(su8) != u8 { 349 t.Errorf("uint8(su8) != u8") 350 } 351 if int64(si64) != i64 { 352 t.Errorf("int64(si64) != i64") 353 } 354 if int32(si32) != i32 { 355 t.Errorf("int32(si32) != i32") 356 } 357 if int16(si16) != i16 { 358 t.Errorf("int16(si16) != i16") 359 } 360 if int8(si8) != i8 { 361 t.Errorf("int8(si8) != i8") 362 } 363 } 364 365 var sinkFloat float64 366 367 func BenchmarkMul2(b *testing.B) { 368 for i := 0; i < b.N; i++ { 369 var m float64 = 1 370 for j := 0; j < 500; j++ { 371 m *= 2 372 } 373 sinkFloat = m 374 } 375 } 376 func BenchmarkMulNeg2(b *testing.B) { 377 for i := 0; i < b.N; i++ { 378 var m float64 = 1 379 for j := 0; j < 500; j++ { 380 m *= -2 381 } 382 sinkFloat = m 383 } 384 }