1 // RUN: %clang_cc1 -triple x86_64-unknown-unknown -w -o - -emit-llvm %s | FileCheck %s -check-prefix=NO__ERRNO 2 // RUN: %clang_cc1 -triple x86_64-unknown-unknown -w -o - -emit-llvm -fmath-errno %s | FileCheck %s -check-prefix=HAS_ERRNO 3 // RUN: %clang_cc1 -triple x86_64-unknown-unknown -w -o - -emit-llvm -disable-llvm-passes -O2 %s | FileCheck %s -check-prefix=NO__ERRNO 4 // RUN: %clang_cc1 -triple x86_64-unknown-unknown -w -o - -emit-llvm -disable-llvm-passes -O2 -fmath-errno %s | FileCheck %s -check-prefix=HAS_ERRNO 5 // RUN: %clang_cc1 -triple x86_64-unknown-unknown-gnu -w -o - -emit-llvm -fmath-errno %s | FileCheck %s --check-prefix=HAS_ERRNO_GNU 6 // RUN: %clang_cc1 -triple x86_64-unknown-windows-msvc -w -o - -emit-llvm -fmath-errno %s | FileCheck %s --check-prefix=HAS_ERRNO_WIN 7 8 // Test attributes and codegen of math builtins. 9 10 void foo(double *d, float f, float *fp, long double *l, int *i, const char *c) { 11 f = __builtin_fmod(f,f); f = __builtin_fmodf(f,f); f = __builtin_fmodl(f,f); f = __builtin_fmodf128(f,f); 12 13 // NO__ERRNO: frem double 14 // NO__ERRNO: frem float 15 // NO__ERRNO: frem x86_fp80 16 // NO__ERRNO: frem fp128 17 18 // NO__ERRNO: [[FREXP_F64:%.+]] = call { double, i32 } @llvm.frexp.f64.i32(double %{{.+}}) 19 // NO__ERRNO-NEXT: [[FREXP_F64_1:%.+]] = extractvalue { double, i32 } [[FREXP_F64]], 1 20 // NO__ERRNO-NEXT: store i32 [[FREXP_F64_1]], ptr %{{.+}}, align 4 21 // NO__ERRNO-NEXT: [[FREXP_F64_0:%.+]] = extractvalue { double, i32 } [[FREXP_F64]], 0 22 23 // NO__ERRNO: [[FREXP_F32:%.+]] = call { float, i32 } @llvm.frexp.f32.i32(float %{{.+}}) 24 // NO__ERRNO-NEXT: [[FREXP_F32_1:%.+]] = extractvalue { float, i32 } [[FREXP_F32]], 1 25 // NO__ERRNO-NEXT: store i32 [[FREXP_F32_1]], ptr %{{.+}}, align 4 26 // NO__ERRNO-NEXT: [[FREXP_F32_0:%.+]] = extractvalue { float, i32 } [[FREXP_F32]], 0 27 28 29 // NO__ERRNO: [[FREXP_F80:%.+]] = call { x86_fp80, i32 } @llvm.frexp.f80.i32(x86_fp80 %{{.+}}) 30 // NO__ERRNO-NEXT: [[FREXP_F80_1:%.+]] = extractvalue { x86_fp80, i32 } [[FREXP_F80]], 1 31 // NO__ERRNO-NEXT: store i32 [[FREXP_F80_1]], ptr %{{.+}}, align 4 32 // NO__ERRNO-NEXT: [[FREXP_F80_0:%.+]] = extractvalue { x86_fp80, i32 } [[FREXP_F80]], 0 33 34 35 // NO__ERRNO: [[FREXP_F128:%.+]] = call { fp128, i32 } @llvm.frexp.f128.i32(fp128 %{{.+}}) 36 // NO__ERRNO-NEXT: [[FREXP_F128_1:%.+]] = extractvalue { fp128, i32 } [[FREXP_F128]], 1 37 // NO__ERRNO-NEXT: store i32 [[FREXP_F128_1]], ptr %{{.+}}, align 4 38 // NO__ERRNO-NEXT: [[FREXP_F128_0:%.+]] = extractvalue { fp128, i32 } [[FREXP_F128]], 0 39 40 41 // NO__ERRNO: [[SINCOS_F64:%.+]] = call { double, double } @llvm.sincos.f64(double %{{.+}}) 42 // NO__ERRNO-NEXT: [[SINCOS_F64_0:%.+]] = extractvalue { double, double } [[SINCOS_F64]], 0 43 // NO__ERRNO-NEXT: [[SINCOS_F64_1:%.+]] = extractvalue { double, double } [[SINCOS_F64]], 1 44 // NO__ERRNO-NEXT: store double [[SINCOS_F64_0]], ptr %{{.+}}, align 8 45 // NO__ERRNO-NEXT: store double [[SINCOS_F64_1]], ptr %{{.+}}, align 8 46 47 // NO__ERRNO: [[SINCOS_F32:%.+]] = call { float, float } @llvm.sincos.f32(float %{{.+}}) 48 // NO__ERRNO-NEXT: [[SINCOS_F32_0:%.+]] = extractvalue { float, float } [[SINCOS_F32]], 0 49 // NO__ERRNO-NEXT: [[SINCOS_F32_1:%.+]] = extractvalue { float, float } [[SINCOS_F32]], 1 50 // NO__ERRNO-NEXT: store float [[SINCOS_F32_0]], ptr %{{.+}}, align 4 51 // NO__ERRNO-NEXT: store float [[SINCOS_F32_1]], ptr %{{.+}}, align 4 52 53 // NO__ERRNO: [[SINCOS_F80:%.+]] = call { x86_fp80, x86_fp80 } @llvm.sincos.f80(x86_fp80 %{{.+}}) 54 // NO__ERRNO-NEXT: [[SINCOS_F80_0:%.+]] = extractvalue { x86_fp80, x86_fp80 } [[SINCOS_F80]], 0 55 // NO__ERRNO-NEXT: [[SINCOS_F80_1:%.+]] = extractvalue { x86_fp80, x86_fp80 } [[SINCOS_F80]], 1 56 // NO__ERRNO-NEXT: store x86_fp80 [[SINCOS_F80_0]], ptr %{{.+}}, align 16 57 // NO__ERRNO-NEXT: store x86_fp80 [[SINCOS_F80_1]], ptr %{{.+}}, align 16 58 59 // NO__ERRNO: [[SINCOS_F128:%.+]] = call { fp128, fp128 } @llvm.sincos.f128(fp128 %{{.+}}) 60 // NO__ERRNO-NEXT: [[SINCOS_F128_0:%.+]] = extractvalue { fp128, fp128 } [[SINCOS_F128]], 0 61 // NO__ERRNO-NEXT: [[SINCOS_F128_1:%.+]] = extractvalue { fp128, fp128 } [[SINCOS_F128]], 1 62 // NO__ERRNO-NEXT: store fp128 [[SINCOS_F128_0]], ptr %{{.+}}, align 16 63 // NO__ERRNO-NEXT: store fp128 [[SINCOS_F128_1]], ptr %{{.+}}, align 16 64 65 66 // HAS_ERRNO: declare double @fmod(double noundef, double noundef) [[NOT_READNONE:#[0-9]+]] 67 // HAS_ERRNO: declare float @fmodf(float noundef, float noundef) [[NOT_READNONE]] 68 // HAS_ERRNO: declare x86_fp80 @fmodl(x86_fp80 noundef, x86_fp80 noundef) [[NOT_READNONE]] 69 // HAS_ERRNO: declare fp128 @fmodf128(fp128 noundef, fp128 noundef) [[NOT_READNONE]] 70 71 __builtin_atan2(f,f); __builtin_atan2f(f,f) ; __builtin_atan2l(f, f); __builtin_atan2f128(f,f); 72 73 // NO__ERRNO: declare double @llvm.atan2.f64(double, double) [[READNONE_INTRINSIC:#[0-9]+]] 74 // NO__ERRNO: declare float @llvm.atan2.f32(float, float) [[READNONE_INTRINSIC]] 75 // NO__ERRNO: declare x86_fp80 @llvm.atan2.f80(x86_fp80, x86_fp80) [[READNONE_INTRINSIC]] 76 // NO__ERRNO: declare fp128 @llvm.atan2.f128(fp128, fp128) [[READNONE_INTRINSIC]] 77 // HAS_ERRNO: declare double @atan2(double noundef, double noundef) [[NOT_READNONE]] 78 // HAS_ERRNO: declare float @atan2f(float noundef, float noundef) [[NOT_READNONE]] 79 // HAS_ERRNO: declare x86_fp80 @atan2l(x86_fp80 noundef, x86_fp80 noundef) [[NOT_READNONE]] 80 // HAS_ERRNO: declare fp128 @atan2f128(fp128 noundef, fp128 noundef) [[NOT_READNONE]] 81 82 __builtin_copysign(f,f); __builtin_copysignf(f,f); __builtin_copysignl(f,f); __builtin_copysignf128(f,f); 83 84 // NO__ERRNO: declare double @llvm.copysign.f64(double, double) [[READNONE_INTRINSIC]] 85 // NO__ERRNO: declare float @llvm.copysign.f32(float, float) [[READNONE_INTRINSIC]] 86 // NO__ERRNO: declare x86_fp80 @llvm.copysign.f80(x86_fp80, x86_fp80) [[READNONE_INTRINSIC]] 87 // NO__ERRNO: declare fp128 @llvm.copysign.f128(fp128, fp128) [[READNONE_INTRINSIC]] 88 // HAS_ERRNO: declare double @llvm.copysign.f64(double, double) [[READNONE_INTRINSIC:#[0-9]+]] 89 // HAS_ERRNO: declare float @llvm.copysign.f32(float, float) [[READNONE_INTRINSIC]] 90 // HAS_ERRNO: declare x86_fp80 @llvm.copysign.f80(x86_fp80, x86_fp80) [[READNONE_INTRINSIC]] 91 // HAS_ERRNO: declare fp128 @llvm.copysign.f128(fp128, fp128) [[READNONE_INTRINSIC]] 92 93 __builtin_fabs(f); __builtin_fabsf(f); __builtin_fabsl(f); __builtin_fabsf128(f); 94 95 // NO__ERRNO: declare double @llvm.fabs.f64(double) [[READNONE_INTRINSIC]] 96 // NO__ERRNO: declare float @llvm.fabs.f32(float) [[READNONE_INTRINSIC]] 97 // NO__ERRNO: declare x86_fp80 @llvm.fabs.f80(x86_fp80) [[READNONE_INTRINSIC]] 98 // NO__ERRNO: declare fp128 @llvm.fabs.f128(fp128) [[READNONE_INTRINSIC]] 99 // HAS_ERRNO: declare double @llvm.fabs.f64(double) [[READNONE_INTRINSIC]] 100 // HAS_ERRNO: declare float @llvm.fabs.f32(float) [[READNONE_INTRINSIC]] 101 // HAS_ERRNO: declare x86_fp80 @llvm.fabs.f80(x86_fp80) [[READNONE_INTRINSIC]] 102 // HAS_ERRNO: declare fp128 @llvm.fabs.f128(fp128) [[READNONE_INTRINSIC]] 103 104 __builtin_frexp(f,i); __builtin_frexpf(f,i); __builtin_frexpl(f,i); __builtin_frexpf128(f,i); 105 106 // NO__ERRNO: declare { double, i32 } @llvm.frexp.f64.i32(double) [[READNONE_INTRINSIC]] 107 // NO__ERRNO: declare { float, i32 } @llvm.frexp.f32.i32(float) [[READNONE_INTRINSIC]] 108 // NO__ERRNO: declare { x86_fp80, i32 } @llvm.frexp.f80.i32(x86_fp80) [[READNONE_INTRINSIC]] 109 // NO__ERRNO: declare { fp128, i32 } @llvm.frexp.f128.i32(fp128) [[READNONE_INTRINSIC]] 110 // HAS_ERRNO: declare { double, i32 } @llvm.frexp.f64.i32(double) [[READNONE_INTRINSIC]] 111 // HAS_ERRNO: declare { float, i32 } @llvm.frexp.f32.i32(float) [[READNONE_INTRINSIC]] 112 // HAS_ERRNO: declare { x86_fp80, i32 } @llvm.frexp.f80.i32(x86_fp80) [[READNONE_INTRINSIC]] 113 // HAS_ERRNO: declare { fp128, i32 } @llvm.frexp.f128.i32(fp128) [[READNONE_INTRINSIC]] 114 115 __builtin_huge_val(); __builtin_huge_valf(); __builtin_huge_vall(); __builtin_huge_valf128(); 116 117 // NO__ERRNO-NOT: .huge 118 // NO__ERRNO-NOT: @huge 119 // HAS_ERRNO-NOT: .huge 120 // HAS_ERRNO-NOT: @huge 121 122 __builtin_inf(); __builtin_inff(); __builtin_infl(); __builtin_inff128(); 123 124 // NO__ERRNO-NOT: .inf 125 // NO__ERRNO-NOT: @inf 126 // HAS_ERRNO-NOT: .inf 127 // HAS_ERRNO-NOT: @inf 128 129 __builtin_ldexp(f,f); __builtin_ldexpf(f,f); __builtin_ldexpl(f,f); __builtin_ldexpf128(f,f); 130 131 // NO__ERRNO: declare double @llvm.ldexp.f64.i32(double, i32) [[READNONE_INTRINSIC]] 132 // NO__ERRNO: declare float @llvm.ldexp.f32.i32(float, i32) [[READNONE_INTRINSIC]] 133 // NO__ERRNO: declare x86_fp80 @llvm.ldexp.f80.i32(x86_fp80, i32) [[READNONE_INTRINSIC]] 134 // NO__ERRNO: declare fp128 @llvm.ldexp.f128.i32(fp128, i32) [[READNONE_INTRINSIC]] 135 // HAS_ERRNO: declare double @ldexp(double noundef, i32 noundef) [[NOT_READNONE]] 136 // HAS_ERRNO: declare float @ldexpf(float noundef, i32 noundef) [[NOT_READNONE]] 137 // HAS_ERRNO: declare x86_fp80 @ldexpl(x86_fp80 noundef, i32 noundef) [[NOT_READNONE]] 138 // HAS_ERRNO: declare fp128 @ldexpf128(fp128 noundef, i32 noundef) [[NOT_READNONE]] 139 140 __builtin_modf(f,d); __builtin_modff(f,fp); __builtin_modfl(f,l); __builtin_modff128(f,l); 141 142 // NO__ERRNO: declare double @modf(double noundef, ptr noundef) [[NOT_READNONE:#[0-9]+]] 143 // NO__ERRNO: declare float @modff(float noundef, ptr noundef) [[NOT_READNONE]] 144 // NO__ERRNO: declare x86_fp80 @modfl(x86_fp80 noundef, ptr noundef) [[NOT_READNONE]] 145 // NO__ERRNO: declare fp128 @modff128(fp128 noundef, ptr noundef) [[NOT_READNONE]] 146 // HAS_ERRNO: declare double @modf(double noundef, ptr noundef) [[NOT_READNONE]] 147 // HAS_ERRNO: declare float @modff(float noundef, ptr noundef) [[NOT_READNONE]] 148 // HAS_ERRNO: declare x86_fp80 @modfl(x86_fp80 noundef, ptr noundef) [[NOT_READNONE]] 149 // HAS_ERRNO: declare fp128 @modff128(fp128 noundef, ptr noundef) [[NOT_READNONE]] 150 151 __builtin_nan(c); __builtin_nanf(c); __builtin_nanl(c); __builtin_nanf128(c); 152 153 // NO__ERRNO: declare double @nan(ptr noundef) [[PURE:#[0-9]+]] 154 // NO__ERRNO: declare float @nanf(ptr noundef) [[PURE]] 155 // NO__ERRNO: declare x86_fp80 @nanl(ptr noundef) [[PURE]] 156 // NO__ERRNO: declare fp128 @nanf128(ptr noundef) [[PURE]] 157 // HAS_ERRNO: declare double @nan(ptr noundef) [[PURE:#[0-9]+]] 158 // HAS_ERRNO: declare float @nanf(ptr noundef) [[PURE]] 159 // HAS_ERRNO: declare x86_fp80 @nanl(ptr noundef) [[PURE]] 160 // HAS_ERRNO: declare fp128 @nanf128(ptr noundef) [[PURE]] 161 162 __builtin_nans(c); __builtin_nansf(c); __builtin_nansl(c); __builtin_nansf128(c); 163 164 // NO__ERRNO: declare double @nans(ptr noundef) [[PURE]] 165 // NO__ERRNO: declare float @nansf(ptr noundef) [[PURE]] 166 // NO__ERRNO: declare x86_fp80 @nansl(ptr noundef) [[PURE]] 167 // NO__ERRNO: declare fp128 @nansf128(ptr noundef) [[PURE]] 168 // HAS_ERRNO: declare double @nans(ptr noundef) [[PURE]] 169 // HAS_ERRNO: declare float @nansf(ptr noundef) [[PURE]] 170 // HAS_ERRNO: declare x86_fp80 @nansl(ptr noundef) [[PURE]] 171 // HAS_ERRNO: declare fp128 @nansf128(ptr noundef) [[PURE]] 172 173 __builtin_pow(f,f); __builtin_powf(f,f); __builtin_powl(f,f); __builtin_powf128(f,f); 174 175 // NO__ERRNO: declare double @llvm.pow.f64(double, double) [[READNONE_INTRINSIC]] 176 // NO__ERRNO: declare float @llvm.pow.f32(float, float) [[READNONE_INTRINSIC]] 177 // NO__ERRNO: declare x86_fp80 @llvm.pow.f80(x86_fp80, x86_fp80) [[READNONE_INTRINSIC]] 178 // NO__ERRNO: declare fp128 @llvm.pow.f128(fp128, fp128) [[READNONE_INTRINSIC]] 179 // HAS_ERRNO: declare double @pow(double noundef, double noundef) [[NOT_READNONE]] 180 // HAS_ERRNO: declare float @powf(float noundef, float noundef) [[NOT_READNONE]] 181 // HAS_ERRNO: declare x86_fp80 @powl(x86_fp80 noundef, x86_fp80 noundef) [[NOT_READNONE]] 182 // HAS_ERRNO: declare fp128 @powf128(fp128 noundef, fp128 noundef) [[NOT_READNONE]] 183 184 __builtin_powi(f,f); __builtin_powif(f,f); __builtin_powil(f,f); 185 186 // NO__ERRNO: declare double @llvm.powi.f64.i32(double, i32) [[READNONE_INTRINSIC]] 187 // NO__ERRNO: declare float @llvm.powi.f32.i32(float, i32) [[READNONE_INTRINSIC]] 188 // NO__ERRNO: declare x86_fp80 @llvm.powi.f80.i32(x86_fp80, i32) [[READNONE_INTRINSIC]] 189 // HAS_ERRNO: declare double @llvm.powi.f64.i32(double, i32) [[READNONE_INTRINSIC]] 190 // HAS_ERRNO: declare float @llvm.powi.f32.i32(float, i32) [[READNONE_INTRINSIC]] 191 // HAS_ERRNO: declare x86_fp80 @llvm.powi.f80.i32(x86_fp80, i32) [[READNONE_INTRINSIC]] 192 193 /* math */ 194 __builtin_acos(f); __builtin_acosf(f); __builtin_acosl(f); __builtin_acosf128(f); 195 196 // NO__ERRNO: declare double @llvm.acos.f64(double) [[READNONE_INTRINSIC]] 197 // NO__ERRNO: declare float @llvm.acos.f32(float) [[READNONE_INTRINSIC]] 198 // NO__ERRNO: declare x86_fp80 @llvm.acos.f80(x86_fp80) [[READNONE_INTRINSIC]] 199 // NO__ERRNO: declare fp128 @llvm.acos.f128(fp128) [[READNONE_INTRINSIC]] 200 // HAS_ERRNO: declare double @acos(double noundef) [[NOT_READNONE]] 201 // HAS_ERRNO: declare float @acosf(float noundef) [[NOT_READNONE]] 202 // HAS_ERRNO: declare x86_fp80 @acosl(x86_fp80 noundef) [[NOT_READNONE]] 203 // HAS_ERRNO: declare fp128 @acosf128(fp128 noundef) [[NOT_READNONE]] 204 205 __builtin_acosh(f); __builtin_acoshf(f); __builtin_acoshl(f); __builtin_acoshf128(f); 206 207 // NO__ERRNO: declare double @acosh(double noundef) [[READNONE:#[0-9]+]] 208 // NO__ERRNO: declare float @acoshf(float noundef) [[READNONE]] 209 // NO__ERRNO: declare x86_fp80 @acoshl(x86_fp80 noundef) [[READNONE]] 210 // NO__ERRNO: declare fp128 @acoshf128(fp128 noundef) [[READNONE]] 211 // HAS_ERRNO: declare double @acosh(double noundef) [[NOT_READNONE]] 212 // HAS_ERRNO: declare float @acoshf(float noundef) [[NOT_READNONE]] 213 // HAS_ERRNO: declare x86_fp80 @acoshl(x86_fp80 noundef) [[NOT_READNONE]] 214 // HAS_ERRNO: declare fp128 @acoshf128(fp128 noundef) [[NOT_READNONE]] 215 216 __builtin_asin(f); __builtin_asinf(f); __builtin_asinl(f); __builtin_asinf128(f); 217 218 // NO__ERRNO: declare double @llvm.asin.f64(double) [[READNONE_INTRINSIC]] 219 // NO__ERRNO: declare float @llvm.asin.f32(float) [[READNONE_INTRINSIC]] 220 // NO__ERRNO: declare x86_fp80 @llvm.asin.f80(x86_fp80) [[READNONE_INTRINSIC]] 221 // NO__ERRNO: declare fp128 @llvm.asin.f128(fp128) [[READNONE_INTRINSIC]] 222 // HAS_ERRNO: declare double @asin(double noundef) [[NOT_READNONE]] 223 // HAS_ERRNO: declare float @asinf(float noundef) [[NOT_READNONE]] 224 // HAS_ERRNO: declare x86_fp80 @asinl(x86_fp80 noundef) [[NOT_READNONE]] 225 // HAS_ERRNO: declare fp128 @asinf128(fp128 noundef) [[NOT_READNONE]] 226 227 __builtin_asinh(f); __builtin_asinhf(f); __builtin_asinhl(f); __builtin_asinhf128(f); 228 229 // NO__ERRNO: declare double @asinh(double noundef) [[READNONE]] 230 // NO__ERRNO: declare float @asinhf(float noundef) [[READNONE]] 231 // NO__ERRNO: declare x86_fp80 @asinhl(x86_fp80 noundef) [[READNONE]] 232 // NO__ERRNO: declare fp128 @asinhf128(fp128 noundef) [[READNONE]] 233 // HAS_ERRNO: declare double @asinh(double noundef) [[NOT_READNONE]] 234 // HAS_ERRNO: declare float @asinhf(float noundef) [[NOT_READNONE]] 235 // HAS_ERRNO: declare x86_fp80 @asinhl(x86_fp80 noundef) [[NOT_READNONE]] 236 // HAS_ERRNO: declare fp128 @asinhf128(fp128 noundef) [[NOT_READNONE]] 237 238 __builtin_atan(f); __builtin_atanf(f); __builtin_atanl(f); __builtin_atanf128(f); 239 240 // NO__ERRNO: declare double @llvm.atan.f64(double) [[READNONE_INTRINSIC]] 241 // NO__ERRNO: declare float @llvm.atan.f32(float) [[READNONE_INTRINSIC]] 242 // NO__ERRNO: declare x86_fp80 @llvm.atan.f80(x86_fp80) [[READNONE_INTRINSIC]] 243 // NO__ERRNO: declare fp128 @llvm.atan.f128(fp128) [[READNONE_INTRINSIC]] 244 // HAS_ERRNO: declare double @atan(double noundef) [[NOT_READNONE]] 245 // HAS_ERRNO: declare float @atanf(float noundef) [[NOT_READNONE]] 246 // HAS_ERRNO: declare x86_fp80 @atanl(x86_fp80 noundef) [[NOT_READNONE]] 247 // HAS_ERRNO: declare fp128 @atanf128(fp128 noundef) [[NOT_READNONE]] 248 249 __builtin_atanh(f); __builtin_atanhf(f); __builtin_atanhl(f); __builtin_atanhf128(f); 250 251 // NO__ERRNO: declare double @atanh(double noundef) [[READNONE]] 252 // NO__ERRNO: declare float @atanhf(float noundef) [[READNONE]] 253 // NO__ERRNO: declare x86_fp80 @atanhl(x86_fp80 noundef) [[READNONE]] 254 // NO__ERRNO: declare fp128 @atanhf128(fp128 noundef) [[READNONE]] 255 // HAS_ERRNO: declare double @atanh(double noundef) [[NOT_READNONE]] 256 // HAS_ERRNO: declare float @atanhf(float noundef) [[NOT_READNONE]] 257 // HAS_ERRNO: declare x86_fp80 @atanhl(x86_fp80 noundef) [[NOT_READNONE]] 258 // HAS_ERRNO: declare fp128 @atanhf128(fp128 noundef) [[NOT_READNONE]] 259 260 __builtin_cbrt(f); __builtin_cbrtf(f); __builtin_cbrtl(f); __builtin_cbrtf128(f); 261 262 // NO__ERRNO: declare double @cbrt(double noundef) [[READNONE]] 263 // NO__ERRNO: declare float @cbrtf(float noundef) [[READNONE]] 264 // NO__ERRNO: declare x86_fp80 @cbrtl(x86_fp80 noundef) [[READNONE]] 265 // NO__ERRNO: declare fp128 @cbrtf128(fp128 noundef) [[READNONE]] 266 // HAS_ERRNO: declare double @cbrt(double noundef) [[READNONE:#[0-9]+]] 267 // HAS_ERRNO: declare float @cbrtf(float noundef) [[READNONE]] 268 // HAS_ERRNO: declare x86_fp80 @cbrtl(x86_fp80 noundef) [[READNONE]] 269 // HAS_ERRNO: declare fp128 @cbrtf128(fp128 noundef) [[READNONE]] 270 271 __builtin_ceil(f); __builtin_ceilf(f); __builtin_ceill(f); __builtin_ceilf128(f); 272 273 // NO__ERRNO: declare double @llvm.ceil.f64(double) [[READNONE_INTRINSIC]] 274 // NO__ERRNO: declare float @llvm.ceil.f32(float) [[READNONE_INTRINSIC]] 275 // NO__ERRNO: declare x86_fp80 @llvm.ceil.f80(x86_fp80) [[READNONE_INTRINSIC]] 276 // NO__ERRNO: declare fp128 @llvm.ceil.f128(fp128) [[READNONE_INTRINSIC]] 277 // HAS_ERRNO: declare double @llvm.ceil.f64(double) [[READNONE_INTRINSIC]] 278 // HAS_ERRNO: declare float @llvm.ceil.f32(float) [[READNONE_INTRINSIC]] 279 // HAS_ERRNO: declare x86_fp80 @llvm.ceil.f80(x86_fp80) [[READNONE_INTRINSIC]] 280 // HAS_ERRNO: declare fp128 @llvm.ceil.f128(fp128) [[READNONE_INTRINSIC]] 281 282 __builtin_cos(f); __builtin_cosf(f); __builtin_cosl(f); __builtin_cosf128(f); 283 284 // NO__ERRNO: declare double @llvm.cos.f64(double) [[READNONE_INTRINSIC]] 285 // NO__ERRNO: declare float @llvm.cos.f32(float) [[READNONE_INTRINSIC]] 286 // NO__ERRNO: declare x86_fp80 @llvm.cos.f80(x86_fp80) [[READNONE_INTRINSIC]] 287 // NO__ERRNO: declare fp128 @llvm.cos.f128(fp128) [[READNONE_INTRINSIC]] 288 // HAS_ERRNO: declare double @cos(double noundef) [[NOT_READNONE]] 289 // HAS_ERRNO: declare float @cosf(float noundef) [[NOT_READNONE]] 290 // HAS_ERRNO: declare x86_fp80 @cosl(x86_fp80 noundef) [[NOT_READNONE]] 291 // HAS_ERRNO: declare fp128 @cosf128(fp128 noundef) [[NOT_READNONE]] 292 293 __builtin_cosh(f); __builtin_coshf(f); __builtin_coshl(f); __builtin_coshf128(f); 294 295 // NO__ERRNO: declare double @llvm.cosh.f64(double) [[READNONE_INTRINSIC]] 296 // NO__ERRNO: declare float @llvm.cosh.f32(float) [[READNONE_INTRINSIC]] 297 // NO__ERRNO: declare x86_fp80 @llvm.cosh.f80(x86_fp80) [[READNONE_INTRINSIC]] 298 // NO__ERRNO: declare fp128 @llvm.cosh.f128(fp128) [[READNONE_INTRINSIC]] 299 // HAS_ERRNO: declare double @cosh(double noundef) [[NOT_READNONE]] 300 // HAS_ERRNO: declare float @coshf(float noundef) [[NOT_READNONE]] 301 // HAS_ERRNO: declare x86_fp80 @coshl(x86_fp80 noundef) [[NOT_READNONE]] 302 // HAS_ERRNO: declare fp128 @coshf128(fp128 noundef) [[NOT_READNONE]] 303 304 __builtin_erf(f); __builtin_erff(f); __builtin_erfl(f); __builtin_erff128(f); 305 306 // NO__ERRNO: declare double @erf(double noundef) [[READNONE]] 307 // NO__ERRNO: declare float @erff(float noundef) [[READNONE]] 308 // NO__ERRNO: declare x86_fp80 @erfl(x86_fp80 noundef) [[READNONE]] 309 // NO__ERRNO: declare fp128 @erff128(fp128 noundef) [[READNONE]] 310 // HAS_ERRNO: declare double @erf(double noundef) [[NOT_READNONE]] 311 // HAS_ERRNO: declare float @erff(float noundef) [[NOT_READNONE]] 312 // HAS_ERRNO: declare x86_fp80 @erfl(x86_fp80 noundef) [[NOT_READNONE]] 313 // HAS_ERRNO: declare fp128 @erff128(fp128 noundef) [[NOT_READNONE]] 314 315 __builtin_erfc(f); __builtin_erfcf(f); __builtin_erfcl(f); __builtin_erfcf128(f); 316 317 // NO__ERRNO: declare double @erfc(double noundef) [[READNONE]] 318 // NO__ERRNO: declare float @erfcf(float noundef) [[READNONE]] 319 // NO__ERRNO: declare x86_fp80 @erfcl(x86_fp80 noundef) [[READNONE]] 320 // NO__ERRNO: declare fp128 @erfcf128(fp128 noundef) [[READNONE]] 321 // HAS_ERRNO: declare double @erfc(double noundef) [[NOT_READNONE]] 322 // HAS_ERRNO: declare float @erfcf(float noundef) [[NOT_READNONE]] 323 // HAS_ERRNO: declare x86_fp80 @erfcl(x86_fp80 noundef) [[NOT_READNONE]] 324 // HAS_ERRNO: declare fp128 @erfcf128(fp128 noundef) [[NOT_READNONE]] 325 326 __builtin_exp(f); __builtin_expf(f); __builtin_expl(f); __builtin_expf128(f); 327 328 // NO__ERRNO: declare double @llvm.exp.f64(double) [[READNONE_INTRINSIC]] 329 // NO__ERRNO: declare float @llvm.exp.f32(float) [[READNONE_INTRINSIC]] 330 // NO__ERRNO: declare x86_fp80 @llvm.exp.f80(x86_fp80) [[READNONE_INTRINSIC]] 331 // NO__ERRNO: declare fp128 @llvm.exp.f128(fp128) [[READNONE_INTRINSIC]] 332 // HAS_ERRNO: declare double @exp(double noundef) [[NOT_READNONE]] 333 // HAS_ERRNO: declare float @expf(float noundef) [[NOT_READNONE]] 334 // HAS_ERRNO: declare x86_fp80 @expl(x86_fp80 noundef) [[NOT_READNONE]] 335 // HAS_ERRNO: declare fp128 @expf128(fp128 noundef) [[NOT_READNONE]] 336 337 __builtin_exp2(f); __builtin_exp2f(f); __builtin_exp2l(f); __builtin_exp2f128(f); 338 339 // NO__ERRNO: declare double @llvm.exp2.f64(double) [[READNONE_INTRINSIC]] 340 // NO__ERRNO: declare float @llvm.exp2.f32(float) [[READNONE_INTRINSIC]] 341 // NO__ERRNO: declare x86_fp80 @llvm.exp2.f80(x86_fp80) [[READNONE_INTRINSIC]] 342 // NO__ERRNO: declare fp128 @llvm.exp2.f128(fp128) [[READNONE_INTRINSIC]] 343 // HAS_ERRNO: declare double @exp2(double noundef) [[NOT_READNONE]] 344 // HAS_ERRNO: declare float @exp2f(float noundef) [[NOT_READNONE]] 345 // HAS_ERRNO: declare x86_fp80 @exp2l(x86_fp80 noundef) [[NOT_READNONE]] 346 // HAS_ERRNO: declare fp128 @exp2f128(fp128 noundef) [[NOT_READNONE]] 347 348 __builtin_exp10(f); __builtin_exp10f(f); __builtin_exp10l(f); __builtin_exp10f128(f); 349 350 // NO__ERRNO: declare double @llvm.exp10.f64(double) [[READNONE_INTRINSIC]] 351 // NO__ERRNO: declare float @llvm.exp10.f32(float) [[READNONE_INTRINSIC]] 352 // NO__ERRNO: declare x86_fp80 @llvm.exp10.f80(x86_fp80) [[READNONE_INTRINSIC]] 353 // NO__ERRNO: declare fp128 @llvm.exp10.f128(fp128) [[READNONE_INTRINSIC]] 354 // HAS_ERRNO: declare double @exp10(double noundef) [[NOT_READNONE]] 355 // HAS_ERRNO: declare float @exp10f(float noundef) [[NOT_READNONE]] 356 // HAS_ERRNO: declare x86_fp80 @exp10l(x86_fp80 noundef) [[NOT_READNONE]] 357 // HAS_ERRNO: declare fp128 @exp10f128(fp128 noundef) [[NOT_READNONE]] 358 359 __builtin_expm1(f); __builtin_expm1f(f); __builtin_expm1l(f); __builtin_expm1f128(f); 360 361 // NO__ERRNO: declare double @expm1(double noundef) [[READNONE]] 362 // NO__ERRNO: declare float @expm1f(float noundef) [[READNONE]] 363 // NO__ERRNO: declare x86_fp80 @expm1l(x86_fp80 noundef) [[READNONE]] 364 // NO__ERRNO: declare fp128 @expm1f128(fp128 noundef) [[READNONE]] 365 // HAS_ERRNO: declare double @expm1(double noundef) [[NOT_READNONE]] 366 // HAS_ERRNO: declare float @expm1f(float noundef) [[NOT_READNONE]] 367 // HAS_ERRNO: declare x86_fp80 @expm1l(x86_fp80 noundef) [[NOT_READNONE]] 368 // HAS_ERRNO: declare fp128 @expm1f128(fp128 noundef) [[NOT_READNONE]] 369 370 __builtin_fdim(f,f); __builtin_fdimf(f,f); __builtin_fdiml(f,f); __builtin_fdimf128(f,f); 371 372 // NO__ERRNO: declare double @fdim(double noundef, double noundef) [[READNONE]] 373 // NO__ERRNO: declare float @fdimf(float noundef, float noundef) [[READNONE]] 374 // NO__ERRNO: declare x86_fp80 @fdiml(x86_fp80 noundef, x86_fp80 noundef) [[READNONE]] 375 // NO__ERRNO: declare fp128 @fdimf128(fp128 noundef, fp128 noundef) [[READNONE]] 376 // HAS_ERRNO: declare double @fdim(double noundef, double noundef) [[NOT_READNONE]] 377 // HAS_ERRNO: declare float @fdimf(float noundef, float noundef) [[NOT_READNONE]] 378 // HAS_ERRNO: declare x86_fp80 @fdiml(x86_fp80 noundef, x86_fp80 noundef) [[NOT_READNONE]] 379 // HAS_ERRNO: declare fp128 @fdimf128(fp128 noundef, fp128 noundef) [[NOT_READNONE]] 380 381 __builtin_floor(f); __builtin_floorf(f); __builtin_floorl(f); __builtin_floorf128(f); 382 383 // NO__ERRNO: declare double @llvm.floor.f64(double) [[READNONE_INTRINSIC]] 384 // NO__ERRNO: declare float @llvm.floor.f32(float) [[READNONE_INTRINSIC]] 385 // NO__ERRNO: declare x86_fp80 @llvm.floor.f80(x86_fp80) [[READNONE_INTRINSIC]] 386 // NO__ERRNO: declare fp128 @llvm.floor.f128(fp128) [[READNONE_INTRINSIC]] 387 // HAS_ERRNO: declare double @llvm.floor.f64(double) [[READNONE_INTRINSIC]] 388 // HAS_ERRNO: declare float @llvm.floor.f32(float) [[READNONE_INTRINSIC]] 389 // HAS_ERRNO: declare x86_fp80 @llvm.floor.f80(x86_fp80) [[READNONE_INTRINSIC]] 390 // HAS_ERRNO: declare fp128 @llvm.floor.f128(fp128) [[READNONE_INTRINSIC]] 391 392 __builtin_fma(f,f,f); __builtin_fmaf(f,f,f); __builtin_fmal(f,f,f); __builtin_fmaf128(f,f,f); __builtin_fmaf16(f,f,f); 393 394 // NO__ERRNO: declare double @llvm.fma.f64(double, double, double) [[READNONE_INTRINSIC]] 395 // NO__ERRNO: declare float @llvm.fma.f32(float, float, float) [[READNONE_INTRINSIC]] 396 // NO__ERRNO: declare x86_fp80 @llvm.fma.f80(x86_fp80, x86_fp80, x86_fp80) [[READNONE_INTRINSIC]] 397 // NO__ERRNO: declare fp128 @llvm.fma.f128(fp128, fp128, fp128) [[READNONE_INTRINSIC]] 398 // NO__ERRONO: declare half @llvm.fma.f16(half, half, half) [[READNONE_INTRINSIC]] 399 // HAS_ERRNO: declare double @fma(double noundef, double noundef, double noundef) [[NOT_READNONE]] 400 // HAS_ERRNO: declare float @fmaf(float noundef, float noundef, float noundef) [[NOT_READNONE]] 401 // HAS_ERRNO: declare x86_fp80 @fmal(x86_fp80 noundef, x86_fp80 noundef, x86_fp80 noundef) [[NOT_READNONE]] 402 // HAS_ERRNO: declare fp128 @fmaf128(fp128 noundef, fp128 noundef, fp128 noundef) [[NOT_READNONE]] 403 // HAS_ERRNO: declare half @fmaf16(half noundef, half noundef, half noundef) [[NOT_READNONE]] 404 405 // On GNU or Win, fma never sets errno, so we can convert to the intrinsic. 406 407 // HAS_ERRNO_GNU: declare double @llvm.fma.f64(double, double, double) [[READNONE_INTRINSIC:#[0-9]+]] 408 // HAS_ERRNO_GNU: declare float @llvm.fma.f32(float, float, float) [[READNONE_INTRINSIC]] 409 // HAS_ERRNO_GNU: declare x86_fp80 @llvm.fma.f80(x86_fp80, x86_fp80, x86_fp80) [[READNONE_INTRINSIC]] 410 // HAS_ERRNO_GNU: declare half @llvm.fma.f16(half, half, half) [[READNONE_INTRINSIC]] 411 412 // HAS_ERRNO_WIN: declare double @llvm.fma.f64(double, double, double) [[READNONE_INTRINSIC:#[0-9]+]] 413 // HAS_ERRNO_WIN: declare float @llvm.fma.f32(float, float, float) [[READNONE_INTRINSIC]] 414 // Long double is just double on win, so no f80 use/declaration. 415 // HAS_ERRNO_WIN-NOT: declare x86_fp80 @llvm.fma.f80(x86_fp80, x86_fp80, x86_fp80) 416 // HAS_ERRNO_WIN: declare half @llvm.fma.f16(half, half, half) [[READNONE_INTRINSIC]] 417 418 __builtin_fmax(f,f); __builtin_fmaxf(f,f); __builtin_fmaxl(f,f); __builtin_fmaxf128(f,f); 419 420 // NO__ERRNO: declare double @llvm.maxnum.f64(double, double) [[READNONE_INTRINSIC]] 421 // NO__ERRNO: declare float @llvm.maxnum.f32(float, float) [[READNONE_INTRINSIC]] 422 // NO__ERRNO: declare x86_fp80 @llvm.maxnum.f80(x86_fp80, x86_fp80) [[READNONE_INTRINSIC]] 423 // NO__ERRNO: declare fp128 @llvm.maxnum.f128(fp128, fp128) [[READNONE_INTRINSIC]] 424 // HAS_ERRNO: declare double @llvm.maxnum.f64(double, double) [[READNONE_INTRINSIC]] 425 // HAS_ERRNO: declare float @llvm.maxnum.f32(float, float) [[READNONE_INTRINSIC]] 426 // HAS_ERRNO: declare x86_fp80 @llvm.maxnum.f80(x86_fp80, x86_fp80) [[READNONE_INTRINSIC]] 427 // HAS_ERRNO: declare fp128 @llvm.maxnum.f128(fp128, fp128) [[READNONE_INTRINSIC]] 428 429 __builtin_fmin(f,f); __builtin_fminf(f,f); __builtin_fminl(f,f); __builtin_fminf128(f,f); 430 431 // NO__ERRNO: declare double @llvm.minnum.f64(double, double) [[READNONE_INTRINSIC]] 432 // NO__ERRNO: declare float @llvm.minnum.f32(float, float) [[READNONE_INTRINSIC]] 433 // NO__ERRNO: declare x86_fp80 @llvm.minnum.f80(x86_fp80, x86_fp80) [[READNONE_INTRINSIC]] 434 // NO__ERRNO: declare fp128 @llvm.minnum.f128(fp128, fp128) [[READNONE_INTRINSIC]] 435 // HAS_ERRNO: declare double @llvm.minnum.f64(double, double) [[READNONE_INTRINSIC]] 436 // HAS_ERRNO: declare float @llvm.minnum.f32(float, float) [[READNONE_INTRINSIC]] 437 // HAS_ERRNO: declare x86_fp80 @llvm.minnum.f80(x86_fp80, x86_fp80) [[READNONE_INTRINSIC]] 438 // HAS_ERRNO: declare fp128 @llvm.minnum.f128(fp128, fp128) [[READNONE_INTRINSIC]] 439 440 __builtin_hypot(f,f); __builtin_hypotf(f,f); __builtin_hypotl(f,f); __builtin_hypotf128(f,f); 441 442 // NO__ERRNO: declare double @hypot(double noundef, double noundef) [[READNONE]] 443 // NO__ERRNO: declare float @hypotf(float noundef, float noundef) [[READNONE]] 444 // NO__ERRNO: declare x86_fp80 @hypotl(x86_fp80 noundef, x86_fp80 noundef) [[READNONE]] 445 // NO__ERRNO: declare fp128 @hypotf128(fp128 noundef, fp128 noundef) [[READNONE]] 446 // HAS_ERRNO: declare double @hypot(double noundef, double noundef) [[NOT_READNONE]] 447 // HAS_ERRNO: declare float @hypotf(float noundef, float noundef) [[NOT_READNONE]] 448 // HAS_ERRNO: declare x86_fp80 @hypotl(x86_fp80 noundef, x86_fp80 noundef) [[NOT_READNONE]] 449 // HAS_ERRNO: declare fp128 @hypotf128(fp128 noundef, fp128 noundef) [[NOT_READNONE]] 450 451 __builtin_ilogb(f); __builtin_ilogbf(f); __builtin_ilogbl(f); __builtin_ilogbf128(f); 452 453 // NO__ERRNO: declare i32 @ilogb(double noundef) [[READNONE]] 454 // NO__ERRNO: declare i32 @ilogbf(float noundef) [[READNONE]] 455 // NO__ERRNO: declare i32 @ilogbl(x86_fp80 noundef) [[READNONE]] 456 // NO__ERRNO: declare i32 @ilogbf128(fp128 noundef) [[READNONE]] 457 // HAS_ERRNO: declare i32 @ilogb(double noundef) [[NOT_READNONE]] 458 // HAS_ERRNO: declare i32 @ilogbf(float noundef) [[NOT_READNONE]] 459 // HAS_ERRNO: declare i32 @ilogbl(x86_fp80 noundef) [[NOT_READNONE]] 460 // HAS_ERRNO: declare i32 @ilogbf128(fp128 noundef) [[NOT_READNONE]] 461 462 __builtin_lgamma(f); __builtin_lgammaf(f); __builtin_lgammal(f); __builtin_lgammaf128(f); 463 464 // NO__ERRNO: declare double @lgamma(double noundef) [[NOT_READNONE]] 465 // NO__ERRNO: declare float @lgammaf(float noundef) [[NOT_READNONE]] 466 // NO__ERRNO: declare x86_fp80 @lgammal(x86_fp80 noundef) [[NOT_READNONE]] 467 // NO__ERRNO: declare fp128 @lgammaf128(fp128 noundef) [[NOT_READNONE]] 468 // HAS_ERRNO: declare double @lgamma(double noundef) [[NOT_READNONE]] 469 // HAS_ERRNO: declare float @lgammaf(float noundef) [[NOT_READNONE]] 470 // HAS_ERRNO: declare x86_fp80 @lgammal(x86_fp80 noundef) [[NOT_READNONE]] 471 // HAS_ERRNO: declare fp128 @lgammaf128(fp128 noundef) [[NOT_READNONE]] 472 473 __builtin_llrint(f); __builtin_llrintf(f); __builtin_llrintl(f); __builtin_llrintf128(f); 474 475 // NO__ERRNO: declare i64 @llvm.llrint.i64.f64(double) [[READNONE_INTRINSIC]] 476 // NO__ERRNO: declare i64 @llvm.llrint.i64.f32(float) [[READNONE_INTRINSIC]] 477 // NO__ERRNO: declare i64 @llvm.llrint.i64.f80(x86_fp80) [[READNONE_INTRINSIC]] 478 // NO__ERRNO: declare i64 @llvm.llrint.i64.f128(fp128) [[READNONE_INTRINSIC]] 479 // HAS_ERRNO: declare i64 @llrint(double noundef) [[NOT_READNONE]] 480 // HAS_ERRNO: declare i64 @llrintf(float noundef) [[NOT_READNONE]] 481 // HAS_ERRNO: declare i64 @llrintl(x86_fp80 noundef) [[NOT_READNONE]] 482 // HAS_ERRNO: declare i64 @llrintf128(fp128 noundef) [[NOT_READNONE]] 483 484 __builtin_llround(f); __builtin_llroundf(f); __builtin_llroundl(f); __builtin_llroundf128(f); 485 486 // NO__ERRNO: declare i64 @llvm.llround.i64.f64(double) [[READNONE_INTRINSIC]] 487 // NO__ERRNO: declare i64 @llvm.llround.i64.f32(float) [[READNONE_INTRINSIC]] 488 // NO__ERRNO: declare i64 @llvm.llround.i64.f80(x86_fp80) [[READNONE_INTRINSIC]] 489 // NO__ERRNO: declare i64 @llvm.llround.i64.f128(fp128) [[READNONE_INTRINSIC]] 490 // HAS_ERRNO: declare i64 @llround(double noundef) [[NOT_READNONE]] 491 // HAS_ERRNO: declare i64 @llroundf(float noundef) [[NOT_READNONE]] 492 // HAS_ERRNO: declare i64 @llroundl(x86_fp80 noundef) [[NOT_READNONE]] 493 // HAS_ERRNO: declare i64 @llroundf128(fp128 noundef) [[NOT_READNONE]] 494 495 __builtin_log(f); __builtin_logf(f); __builtin_logl(f); __builtin_logf128(f); 496 497 // NO__ERRNO: declare double @llvm.log.f64(double) [[READNONE_INTRINSIC]] 498 // NO__ERRNO: declare float @llvm.log.f32(float) [[READNONE_INTRINSIC]] 499 // NO__ERRNO: declare x86_fp80 @llvm.log.f80(x86_fp80) [[READNONE_INTRINSIC]] 500 // NO__ERRNO: declare fp128 @llvm.log.f128(fp128) [[READNONE_INTRINSIC]] 501 // HAS_ERRNO: declare double @log(double noundef) [[NOT_READNONE]] 502 // HAS_ERRNO: declare float @logf(float noundef) [[NOT_READNONE]] 503 // HAS_ERRNO: declare x86_fp80 @logl(x86_fp80 noundef) [[NOT_READNONE]] 504 // HAS_ERRNO: declare fp128 @logf128(fp128 noundef) [[NOT_READNONE]] 505 506 __builtin_log10(f); __builtin_log10f(f); __builtin_log10l(f); __builtin_log10f128(f); 507 508 // NO__ERRNO: declare double @llvm.log10.f64(double) [[READNONE_INTRINSIC]] 509 // NO__ERRNO: declare float @llvm.log10.f32(float) [[READNONE_INTRINSIC]] 510 // NO__ERRNO: declare x86_fp80 @llvm.log10.f80(x86_fp80) [[READNONE_INTRINSIC]] 511 // NO__ERRNO: declare fp128 @llvm.log10.f128(fp128) [[READNONE_INTRINSIC]] 512 // HAS_ERRNO: declare double @log10(double noundef) [[NOT_READNONE]] 513 // HAS_ERRNO: declare float @log10f(float noundef) [[NOT_READNONE]] 514 // HAS_ERRNO: declare x86_fp80 @log10l(x86_fp80 noundef) [[NOT_READNONE]] 515 // HAS_ERRNO: declare fp128 @log10f128(fp128 noundef) [[NOT_READNONE]] 516 517 __builtin_log1p(f); __builtin_log1pf(f); __builtin_log1pl(f); __builtin_log1pf128(f); 518 519 // NO__ERRNO: declare double @log1p(double noundef) [[READNONE]] 520 // NO__ERRNO: declare float @log1pf(float noundef) [[READNONE]] 521 // NO__ERRNO: declare x86_fp80 @log1pl(x86_fp80 noundef) [[READNONE]] 522 // NO__ERRNO: declare fp128 @log1pf128(fp128 noundef) [[READNONE]] 523 // HAS_ERRNO: declare double @log1p(double noundef) [[NOT_READNONE]] 524 // HAS_ERRNO: declare float @log1pf(float noundef) [[NOT_READNONE]] 525 // HAS_ERRNO: declare x86_fp80 @log1pl(x86_fp80 noundef) [[NOT_READNONE]] 526 // HAS_ERRNO: declare fp128 @log1pf128(fp128 noundef) [[NOT_READNONE]] 527 528 __builtin_log2(f); __builtin_log2f(f); __builtin_log2l(f); __builtin_log2f128(f); 529 530 // NO__ERRNO: declare double @llvm.log2.f64(double) [[READNONE_INTRINSIC]] 531 // NO__ERRNO: declare float @llvm.log2.f32(float) [[READNONE_INTRINSIC]] 532 // NO__ERRNO: declare x86_fp80 @llvm.log2.f80(x86_fp80) [[READNONE_INTRINSIC]] 533 // NO__ERRNO: declare fp128 @llvm.log2.f128(fp128) [[READNONE_INTRINSIC]] 534 // HAS_ERRNO: declare double @log2(double noundef) [[NOT_READNONE]] 535 // HAS_ERRNO: declare float @log2f(float noundef) [[NOT_READNONE]] 536 // HAS_ERRNO: declare x86_fp80 @log2l(x86_fp80 noundef) [[NOT_READNONE]] 537 // HAS_ERRNO: declare fp128 @log2f128(fp128 noundef) [[NOT_READNONE]] 538 539 __builtin_logb(f); __builtin_logbf(f); __builtin_logbl(f); __builtin_logbf128(f); 540 541 // NO__ERRNO: declare double @logb(double noundef) [[READNONE]] 542 // NO__ERRNO: declare float @logbf(float noundef) [[READNONE]] 543 // NO__ERRNO: declare x86_fp80 @logbl(x86_fp80 noundef) [[READNONE]] 544 // NO__ERRNO: declare fp128 @logbf128(fp128 noundef) [[READNONE]] 545 // HAS_ERRNO: declare double @logb(double noundef) [[NOT_READNONE]] 546 // HAS_ERRNO: declare float @logbf(float noundef) [[NOT_READNONE]] 547 // HAS_ERRNO: declare x86_fp80 @logbl(x86_fp80 noundef) [[NOT_READNONE]] 548 // HAS_ERRNO: declare fp128 @logbf128(fp128 noundef) [[NOT_READNONE]] 549 550 __builtin_lrint(f); __builtin_lrintf(f); __builtin_lrintl(f); __builtin_lrintf128(f); 551 552 // NO__ERRNO: declare i64 @llvm.lrint.i64.f64(double) [[READNONE_INTRINSIC]] 553 // NO__ERRNO: declare i64 @llvm.lrint.i64.f32(float) [[READNONE_INTRINSIC]] 554 // NO__ERRNO: declare i64 @llvm.lrint.i64.f80(x86_fp80) [[READNONE_INTRINSIC]] 555 // NO__ERRNO: declare i64 @llvm.lrint.i64.f128(fp128) [[READNONE_INTRINSIC]] 556 // HAS_ERRNO: declare i64 @lrint(double noundef) [[NOT_READNONE]] 557 // HAS_ERRNO: declare i64 @lrintf(float noundef) [[NOT_READNONE]] 558 // HAS_ERRNO: declare i64 @lrintl(x86_fp80 noundef) [[NOT_READNONE]] 559 // HAS_ERRNO: declare i64 @lrintf128(fp128 noundef) [[NOT_READNONE]] 560 561 __builtin_lround(f); __builtin_lroundf(f); __builtin_lroundl(f); __builtin_lroundf128(f); 562 563 // NO__ERRNO: declare i64 @llvm.lround.i64.f64(double) [[READNONE_INTRINSIC]] 564 // NO__ERRNO: declare i64 @llvm.lround.i64.f32(float) [[READNONE_INTRINSIC]] 565 // NO__ERRNO: declare i64 @llvm.lround.i64.f80(x86_fp80) [[READNONE_INTRINSIC]] 566 // NO__ERRNO: declare i64 @llvm.lround.i64.f128(fp128) [[READNONE_INTRINSIC]] 567 // HAS_ERRNO: declare i64 @lround(double noundef) [[NOT_READNONE]] 568 // HAS_ERRNO: declare i64 @lroundf(float noundef) [[NOT_READNONE]] 569 // HAS_ERRNO: declare i64 @lroundl(x86_fp80 noundef) [[NOT_READNONE]] 570 // HAS_ERRNO: declare i64 @lroundf128(fp128 noundef) [[NOT_READNONE]] 571 572 __builtin_nearbyint(f); __builtin_nearbyintf(f); __builtin_nearbyintl(f); __builtin_nearbyintf128(f); 573 574 // NO__ERRNO: declare double @llvm.nearbyint.f64(double) [[READNONE_INTRINSIC]] 575 // NO__ERRNO: declare float @llvm.nearbyint.f32(float) [[READNONE_INTRINSIC]] 576 // NO__ERRNO: declare x86_fp80 @llvm.nearbyint.f80(x86_fp80) [[READNONE_INTRINSIC]] 577 // NO__ERRNO: declare fp128 @llvm.nearbyint.f128(fp128) [[READNONE_INTRINSIC]] 578 // HAS_ERRNO: declare double @llvm.nearbyint.f64(double) [[READNONE_INTRINSIC]] 579 // HAS_ERRNO: declare float @llvm.nearbyint.f32(float) [[READNONE_INTRINSIC]] 580 // HAS_ERRNO: declare x86_fp80 @llvm.nearbyint.f80(x86_fp80) [[READNONE_INTRINSIC]] 581 // HAS_ERRNO: declare fp128 @llvm.nearbyint.f128(fp128) [[READNONE_INTRINSIC]] 582 583 __builtin_nextafter(f,f); __builtin_nextafterf(f,f); __builtin_nextafterl(f,f); __builtin_nextafterf128(f,f); 584 585 // NO__ERRNO: declare double @nextafter(double noundef, double noundef) [[READNONE]] 586 // NO__ERRNO: declare float @nextafterf(float noundef, float noundef) [[READNONE]] 587 // NO__ERRNO: declare x86_fp80 @nextafterl(x86_fp80 noundef, x86_fp80 noundef) [[READNONE]] 588 // NO__ERRNO: declare fp128 @nextafterf128(fp128 noundef, fp128 noundef) [[READNONE]] 589 // HAS_ERRNO: declare double @nextafter(double noundef, double noundef) [[NOT_READNONE]] 590 // HAS_ERRNO: declare float @nextafterf(float noundef, float noundef) [[NOT_READNONE]] 591 // HAS_ERRNO: declare x86_fp80 @nextafterl(x86_fp80 noundef, x86_fp80 noundef) [[NOT_READNONE]] 592 // HAS_ERRNO: declare fp128 @nextafterf128(fp128 noundef, fp128 noundef) [[NOT_READNONE]] 593 594 __builtin_nexttoward(f,f); __builtin_nexttowardf(f,f);__builtin_nexttowardl(f,f); __builtin_nexttowardf128(f,f); 595 596 // NO__ERRNO: declare double @nexttoward(double noundef, x86_fp80 noundef) [[READNONE]] 597 // NO__ERRNO: declare float @nexttowardf(float noundef, x86_fp80 noundef) [[READNONE]] 598 // NO__ERRNO: declare x86_fp80 @nexttowardl(x86_fp80 noundef, x86_fp80 noundef) [[READNONE]] 599 // NO__ERRNO: declare fp128 @nexttowardf128(fp128 noundef, fp128 noundef) [[READNONE]] 600 // HAS_ERRNO: declare double @nexttoward(double noundef, x86_fp80 noundef) [[NOT_READNONE]] 601 // HAS_ERRNO: declare float @nexttowardf(float noundef, x86_fp80 noundef) [[NOT_READNONE]] 602 // HAS_ERRNO: declare x86_fp80 @nexttowardl(x86_fp80 noundef, x86_fp80 noundef) [[NOT_READNONE]] 603 // HAS_ERRNO: declare fp128 @nexttowardf128(fp128 noundef, fp128 noundef) [[NOT_READNONE]] 604 605 __builtin_remainder(f,f); __builtin_remainderf(f,f); __builtin_remainderl(f,f); __builtin_remainderf128(f,f); 606 607 // NO__ERRNO: declare double @remainder(double noundef, double noundef) [[READNONE]] 608 // NO__ERRNO: declare float @remainderf(float noundef, float noundef) [[READNONE]] 609 // NO__ERRNO: declare x86_fp80 @remainderl(x86_fp80 noundef, x86_fp80 noundef) [[READNONE]] 610 // NO__ERRNO: declare fp128 @remainderf128(fp128 noundef, fp128 noundef) [[READNONE]] 611 // HAS_ERRNO: declare double @remainder(double noundef, double noundef) [[NOT_READNONE]] 612 // HAS_ERRNO: declare float @remainderf(float noundef, float noundef) [[NOT_READNONE]] 613 // HAS_ERRNO: declare x86_fp80 @remainderl(x86_fp80 noundef, x86_fp80 noundef) [[NOT_READNONE]] 614 // HAS_ERRNO: declare fp128 @remainderf128(fp128 noundef, fp128 noundef) [[NOT_READNONE]] 615 616 __builtin_remquo(f,f,i); __builtin_remquof(f,f,i); __builtin_remquol(f,f,i); __builtin_remquof128(f,f,i); 617 618 // NO__ERRNO: declare double @remquo(double noundef, double noundef, ptr noundef) [[NOT_READNONE]] 619 // NO__ERRNO: declare float @remquof(float noundef, float noundef, ptr noundef) [[NOT_READNONE]] 620 // NO__ERRNO: declare x86_fp80 @remquol(x86_fp80 noundef, x86_fp80 noundef, ptr noundef) [[NOT_READNONE]] 621 // NO__ERRNO: declare fp128 @remquof128(fp128 noundef, fp128 noundef, ptr noundef) [[NOT_READNONE]] 622 // HAS_ERRNO: declare double @remquo(double noundef, double noundef, ptr noundef) [[NOT_READNONE]] 623 // HAS_ERRNO: declare float @remquof(float noundef, float noundef, ptr noundef) [[NOT_READNONE]] 624 // HAS_ERRNO: declare x86_fp80 @remquol(x86_fp80 noundef, x86_fp80 noundef, ptr noundef) [[NOT_READNONE]] 625 // HAS_ERRNO: declare fp128 @remquof128(fp128 noundef, fp128 noundef, ptr noundef) [[NOT_READNONE]] 626 627 __builtin_rint(f); __builtin_rintf(f); __builtin_rintl(f); __builtin_rintf128(f); 628 629 // NO__ERRNO: declare double @llvm.rint.f64(double) [[READNONE_INTRINSIC]] 630 // NO__ERRNO: declare float @llvm.rint.f32(float) [[READNONE_INTRINSIC]] 631 // NO__ERRNO: declare x86_fp80 @llvm.rint.f80(x86_fp80) [[READNONE_INTRINSIC]] 632 // NO__ERRNO: declare fp128 @llvm.rint.f128(fp128) [[READNONE_INTRINSIC]] 633 // HAS_ERRNO: declare double @llvm.rint.f64(double) [[READNONE_INTRINSIC]] 634 // HAS_ERRNO: declare float @llvm.rint.f32(float) [[READNONE_INTRINSIC]] 635 // HAS_ERRNO: declare x86_fp80 @llvm.rint.f80(x86_fp80) [[READNONE_INTRINSIC]] 636 // HAS_ERRNO: declare fp128 @llvm.rint.f128(fp128) [[READNONE_INTRINSIC]] 637 638 __builtin_round(f); __builtin_roundf(f); __builtin_roundl(f); __builtin_roundf128(f); 639 640 // NO__ERRNO: declare double @llvm.round.f64(double) [[READNONE_INTRINSIC]] 641 // NO__ERRNO: declare float @llvm.round.f32(float) [[READNONE_INTRINSIC]] 642 // NO__ERRNO: declare x86_fp80 @llvm.round.f80(x86_fp80) [[READNONE_INTRINSIC]] 643 // NO__ERRNO: declare fp128 @llvm.round.f128(fp128) [[READNONE_INTRINSIC]] 644 // HAS_ERRNO: declare double @llvm.round.f64(double) [[READNONE_INTRINSIC]] 645 // HAS_ERRNO: declare float @llvm.round.f32(float) [[READNONE_INTRINSIC]] 646 // HAS_ERRNO: declare x86_fp80 @llvm.round.f80(x86_fp80) [[READNONE_INTRINSIC]] 647 // HAS_ERRNO: declare fp128 @llvm.round.f128(fp128) [[READNONE_INTRINSIC]] 648 649 __builtin_scalbln(f,f); __builtin_scalblnf(f,f); __builtin_scalblnl(f,f); __builtin_scalblnf128(f,f); 650 651 // NO__ERRNO: declare double @scalbln(double noundef, i64 noundef) [[READNONE]] 652 // NO__ERRNO: declare float @scalblnf(float noundef, i64 noundef) [[READNONE]] 653 // NO__ERRNO: declare x86_fp80 @scalblnl(x86_fp80 noundef, i64 noundef) [[READNONE]] 654 // NO__ERRNO: declare fp128 @scalblnf128(fp128 noundef, i64 noundef) [[READNONE]] 655 // HAS_ERRNO: declare double @scalbln(double noundef, i64 noundef) [[NOT_READNONE]] 656 // HAS_ERRNO: declare float @scalblnf(float noundef, i64 noundef) [[NOT_READNONE]] 657 // HAS_ERRNO: declare x86_fp80 @scalblnl(x86_fp80 noundef, i64 noundef) [[NOT_READNONE]] 658 // HAS_ERRNO: declare fp128 @scalblnf128(fp128 noundef, i64 noundef) [[NOT_READNONE]] 659 660 __builtin_scalbn(f,f); __builtin_scalbnf(f,f); __builtin_scalbnl(f,f); __builtin_scalbnf128(f,f); 661 662 // NO__ERRNO: declare double @scalbn(double noundef, i32 noundef) [[READNONE]] 663 // NO__ERRNO: declare float @scalbnf(float noundef, i32 noundef) [[READNONE]] 664 // NO__ERRNO: declare x86_fp80 @scalbnl(x86_fp80 noundef, i32 noundef) [[READNONE]] 665 // NO__ERRNO: declare fp128 @scalbnf128(fp128 noundef, i32 noundef) [[READNONE]] 666 // HAS_ERRNO: declare double @scalbn(double noundef, i32 noundef) [[NOT_READNONE]] 667 // HAS_ERRNO: declare float @scalbnf(float noundef, i32 noundef) [[NOT_READNONE]] 668 // HAS_ERRNO: declare x86_fp80 @scalbnl(x86_fp80 noundef, i32 noundef) [[NOT_READNONE]] 669 // HAS_ERRNO: declare fp128 @scalbnf128(fp128 noundef, i32 noundef) [[NOT_READNONE]] 670 671 __builtin_sin(f); __builtin_sinf(f); __builtin_sinl(f); __builtin_sinf128(f); 672 673 // NO__ERRNO: declare double @llvm.sin.f64(double) [[READNONE_INTRINSIC]] 674 // NO__ERRNO: declare float @llvm.sin.f32(float) [[READNONE_INTRINSIC]] 675 // NO__ERRNO: declare x86_fp80 @llvm.sin.f80(x86_fp80) [[READNONE_INTRINSIC]] 676 // NO__ERRNO: declare fp128 @llvm.sin.f128(fp128) [[READNONE_INTRINSIC]] 677 // HAS_ERRNO: declare double @sin(double noundef) [[NOT_READNONE]] 678 // HAS_ERRNO: declare float @sinf(float noundef) [[NOT_READNONE]] 679 // HAS_ERRNO: declare x86_fp80 @sinl(x86_fp80 noundef) [[NOT_READNONE]] 680 // HAS_ERRNO: declare fp128 @sinf128(fp128 noundef) [[NOT_READNONE]] 681 682 __builtin_sinh(f); __builtin_sinhf(f); __builtin_sinhl(f); __builtin_sinhf128(f); 683 684 // NO__ERRNO: declare double @llvm.sinh.f64(double) [[READNONE_INTRINSIC]] 685 // NO__ERRNO: declare float @llvm.sinh.f32(float) [[READNONE_INTRINSIC]] 686 // NO__ERRNO: declare x86_fp80 @llvm.sinh.f80(x86_fp80) [[READNONE_INTRINSIC]] 687 // NO__ERRNO: declare fp128 @llvm.sinh.f128(fp128) [[READNONE_INTRINSIC]] 688 // HAS_ERRNO: declare double @sinh(double noundef) [[NOT_READNONE]] 689 // HAS_ERRNO: declare float @sinhf(float noundef) [[NOT_READNONE]] 690 // HAS_ERRNO: declare x86_fp80 @sinhl(x86_fp80 noundef) [[NOT_READNONE]] 691 // HAS_ERRNO: declare fp128 @sinhf128(fp128 noundef) [[NOT_READNONE]] 692 693 __builtin_sincos(f,d,d); __builtin_sincosf(f,fp,fp); __builtin_sincosl(f,l,l); __builtin_sincosf128(f,l,l); 694 // NO__ERRNO: declare { double, double } @llvm.sincos.f64(double) [[READNONE_INTRINSIC]] 695 // NO__ERRNO: declare { float, float } @llvm.sincos.f32(float) [[READNONE_INTRINSIC]] 696 // NO__ERRNO: declare { x86_fp80, x86_fp80 } @llvm.sincos.f80(x86_fp80) [[READNONE_INTRINSIC]] 697 // NO__ERRNO: declare { fp128, fp128 } @llvm.sincos.f128(fp128) [[READNONE_INTRINSIC]] 698 // HAS_ERRNO: declare void @sincos(double noundef, ptr noundef, ptr noundef) [[NOT_READNONE]] 699 // HAS_ERRNO: declare void @sincosf(float noundef, ptr noundef, ptr noundef) [[NOT_READNONE]] 700 // HAS_ERRNO: declare void @sincosl(x86_fp80 noundef, ptr noundef, ptr noundef) [[NOT_READNONE]] 701 // HAS_ERRNO: declare void @sincosf128(fp128 noundef, ptr noundef, ptr noundef) [[NOT_READNONE]] 702 703 __builtin_sqrt(f); __builtin_sqrtf(f); __builtin_sqrtl(f); __builtin_sqrtf128(f); 704 705 // NO__ERRNO: declare double @llvm.sqrt.f64(double) [[READNONE_INTRINSIC]] 706 // NO__ERRNO: declare float @llvm.sqrt.f32(float) [[READNONE_INTRINSIC]] 707 // NO__ERRNO: declare x86_fp80 @llvm.sqrt.f80(x86_fp80) [[READNONE_INTRINSIC]] 708 // NO__ERRNO: declare fp128 @llvm.sqrt.f128(fp128) [[READNONE_INTRINSIC]] 709 // HAS_ERRNO: declare double @sqrt(double noundef) [[NOT_READNONE]] 710 // HAS_ERRNO: declare float @sqrtf(float noundef) [[NOT_READNONE]] 711 // HAS_ERRNO: declare x86_fp80 @sqrtl(x86_fp80 noundef) [[NOT_READNONE]] 712 // HAS_ERRNO: declare fp128 @sqrtf128(fp128 noundef) [[NOT_READNONE]] 713 714 __builtin_tan(f); __builtin_tanf(f); __builtin_tanl(f); __builtin_tanf128(f); 715 716 // NO__ERRNO: declare double @llvm.tan.f64(double) [[READNONE_INTRINSIC]] 717 // NO__ERRNO: declare float @llvm.tan.f32(float) [[READNONE_INTRINSIC]] 718 // NO__ERRNO: declare x86_fp80 @llvm.tan.f80(x86_fp80) [[READNONE_INTRINSIC]] 719 // NO__ERRNO: declare fp128 @llvm.tan.f128(fp128) [[READNONE_INTRINSIC]] 720 // HAS_ERRNO: declare double @tan(double noundef) [[NOT_READNONE]] 721 // HAS_ERRNO: declare float @tanf(float noundef) [[NOT_READNONE]] 722 // HAS_ERRNO: declare x86_fp80 @tanl(x86_fp80 noundef) [[NOT_READNONE]] 723 // HAS_ERRNO: declare fp128 @tanf128(fp128 noundef) [[NOT_READNONE]] 724 725 __builtin_tanh(f); __builtin_tanhf(f); __builtin_tanhl(f); __builtin_tanhf128(f); 726 727 // NO__ERRNO: declare double @llvm.tanh.f64(double) [[READNONE_INTRINSIC]] 728 // NO__ERRNO: declare float @llvm.tanh.f32(float) [[READNONE_INTRINSIC]] 729 // NO__ERRNO: declare x86_fp80 @llvm.tanh.f80(x86_fp80) [[READNONE_INTRINSIC]] 730 // NO__ERRNO: declare fp128 @llvm.tanh.f128(fp128) [[READNONE_INTRINSIC]] 731 // HAS_ERRNO: declare double @tanh(double noundef) [[NOT_READNONE]] 732 // HAS_ERRNO: declare float @tanhf(float noundef) [[NOT_READNONE]] 733 // HAS_ERRNO: declare x86_fp80 @tanhl(x86_fp80 noundef) [[NOT_READNONE]] 734 // HAS_ERRNO: declare fp128 @tanhf128(fp128 noundef) [[NOT_READNONE]] 735 736 __builtin_tgamma(f); __builtin_tgammaf(f); __builtin_tgammal(f); __builtin_tgammaf128(f); 737 738 // NO__ERRNO: declare double @tgamma(double noundef) [[READNONE]] 739 // NO__ERRNO: declare float @tgammaf(float noundef) [[READNONE]] 740 // NO__ERRNO: declare x86_fp80 @tgammal(x86_fp80 noundef) [[READNONE]] 741 // NO__ERRNO: declare fp128 @tgammaf128(fp128 noundef) [[READNONE]] 742 // HAS_ERRNO: declare double @tgamma(double noundef) [[NOT_READNONE]] 743 // HAS_ERRNO: declare float @tgammaf(float noundef) [[NOT_READNONE]] 744 // HAS_ERRNO: declare x86_fp80 @tgammal(x86_fp80 noundef) [[NOT_READNONE]] 745 // HAS_ERRNO: declare fp128 @tgammaf128(fp128 noundef) [[NOT_READNONE]] 746 747 __builtin_trunc(f); __builtin_truncf(f); __builtin_truncl(f); __builtin_truncf128(f); 748 749 // NO__ERRNO: declare double @llvm.trunc.f64(double) [[READNONE_INTRINSIC]] 750 // NO__ERRNO: declare float @llvm.trunc.f32(float) [[READNONE_INTRINSIC]] 751 // NO__ERRNO: declare x86_fp80 @llvm.trunc.f80(x86_fp80) [[READNONE_INTRINSIC]] 752 // NO__ERRNO: declare fp128 @llvm.trunc.f128(fp128) [[READNONE_INTRINSIC]] 753 // HAS_ERRNO: declare double @llvm.trunc.f64(double) [[READNONE_INTRINSIC]] 754 // HAS_ERRNO: declare float @llvm.trunc.f32(float) [[READNONE_INTRINSIC]] 755 // HAS_ERRNO: declare x86_fp80 @llvm.trunc.f80(x86_fp80) [[READNONE_INTRINSIC]] 756 // HAS_ERRNO: declare fp128 @llvm.trunc.f128(fp128) [[READNONE_INTRINSIC]] 757 }; 758 759 // NO__ERRNO: attributes [[READNONE_INTRINSIC]] = { {{.*}}memory(none){{.*}} } 760 // NO__ERRNO: attributes [[NOT_READNONE]] = { nounwind {{.*}} } 761 // NO__ERRNO: attributes [[PURE]] = { {{.*}}memory(read){{.*}} } 762 // NO__ERRNO: attributes [[READNONE]] = { {{.*}}memory(none){{.*}} } 763 764 // HAS_ERRNO: attributes [[NOT_READNONE]] = { nounwind {{.*}} } 765 // HAS_ERRNO: attributes [[READNONE_INTRINSIC]] = { {{.*}}memory(none){{.*}} } 766 // HAS_ERRNO: attributes [[PURE]] = { {{.*}}memory(read){{.*}} } 767 // HAS_ERRNO: attributes [[READNONE]] = { {{.*}}memory(none){{.*}} } 768 769 // HAS_ERRNO_GNU: attributes [[READNONE_INTRINSIC]] = { {{.*}}memory(none){{.*}} } 770 // HAS_ERRNO_WIN: attributes [[READNONE_INTRINSIC]] = { {{.*}}memory(none){{.*}} } 771