// RUN: %clang_cc1 -triple x86_64-unknown-unknown -Wno-implicit-function-declaration -w -o - -emit-llvm %s | FileCheck %s --check-prefix=NO__ERRNO
// RUN: %clang_cc1 -triple x86_64-unknown-unknown -Wno-implicit-function-declaration -w -o - -emit-llvm -fmath-errno %s | FileCheck %s --check-prefix=HAS_ERRNO
// RUN: %clang_cc1 -triple x86_64-unknown-unknown -Wno-implicit-function-declaration -w -o - -emit-llvm -disable-llvm-passes -O2 %s | FileCheck %s --check-prefix=NO__ERRNO
// RUN: %clang_cc1 -triple x86_64-unknown-unknown -Wno-implicit-function-declaration -w -o - -emit-llvm -disable-llvm-passes -O2 -fmath-errno %s | FileCheck %s --check-prefix=HAS_ERRNO
// RUN: %clang_cc1 -triple x86_64-unknown-unknown -Wno-implicit-function-declaration -w -o - -emit-llvm -ffp-exception-behavior=maytrap %s | FileCheck %s --check-prefix=HAS_MAYTRAP
// RUN: %clang_cc1 -triple x86_64-unknown-unknown-gnu -Wno-implicit-function-declaration -w -o - -emit-llvm -fmath-errno %s | FileCheck %s --check-prefix=HAS_ERRNO_GNU
// RUN: %clang_cc1 -triple x86_64-unknown-windows-msvc -Wno-implicit-function-declaration -w -o - -emit-llvm -fmath-errno %s | FileCheck %s --check-prefix=HAS_ERRNO_WIN
// Test attributes and builtin codegen of math library calls.
void foo(double *d, float f, float *fp, long double *l, int *i, const char *c) {
f = fmod(f,f); f = fmodf(f,f); f = fmodl(f,f);
// NO__ERRNO: frem double
// NO__ERRNO: frem float
// NO__ERRNO: frem x86_fp80
// HAS_ERRNO: declare double @fmod(double noundef, double noundef) [[NOT_READNONE:#[0-9]+]]
// HAS_ERRNO: declare float @fmodf(float noundef, float noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare x86_fp80 @fmodl(x86_fp80 noundef, x86_fp80 noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare double @llvm.experimental.constrained.frem.f64(
// HAS_MAYTRAP: declare float @llvm.experimental.constrained.frem.f32(
// HAS_MAYTRAP: declare x86_fp80 @llvm.experimental.constrained.frem.f80(
atan2(f,f); atan2f(f,f) ; atan2l(f, f);
// NO__ERRNO: declare double @atan2(double noundef, double noundef) [[READNONE:#[0-9]+]]
// NO__ERRNO: declare float @atan2f(float noundef, float noundef) [[READNONE]]
// NO__ERRNO: declare x86_fp80 @atan2l(x86_fp80 noundef, x86_fp80 noundef) [[READNONE]]
// HAS_ERRNO: declare double @atan2(double noundef, double noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare float @atan2f(float noundef, float noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare x86_fp80 @atan2l(x86_fp80 noundef, x86_fp80 noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare double @atan2(double noundef, double noundef) [[NOT_READNONE:#[0-9]+]]
// HAS_MAYTRAP: declare float @atan2f(float noundef, float noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare x86_fp80 @atan2l(x86_fp80 noundef, x86_fp80 noundef) [[NOT_READNONE]]
copysign(f,f); copysignf(f,f);copysignl(f,f);
// NO__ERRNO: declare double @llvm.copysign.f64(double, double) [[READNONE_INTRINSIC:#[0-9]+]]
// NO__ERRNO: declare float @llvm.copysign.f32(float, float) [[READNONE_INTRINSIC]]
// NO__ERRNO: declare x86_fp80 @llvm.copysign.f80(x86_fp80, x86_fp80) [[READNONE_INTRINSIC]]
// HAS_ERRNO: declare double @llvm.copysign.f64(double, double) [[READNONE_INTRINSIC:#[0-9]+]]
// HAS_ERRNO: declare float @llvm.copysign.f32(float, float) [[READNONE_INTRINSIC]]
// HAS_ERRNO: declare x86_fp80 @llvm.copysign.f80(x86_fp80, x86_fp80) [[READNONE_INTRINSIC]]
// HAS_MAYTRAP: declare double @llvm.copysign.f64(double, double) [[READNONE_INTRINSIC:#[0-9]+]]
// HAS_MAYTRAP: declare float @llvm.copysign.f32(float, float) [[READNONE_INTRINSIC]]
// HAS_MAYTRAP: declare x86_fp80 @llvm.copysign.f80(x86_fp80, x86_fp80) [[READNONE_INTRINSIC]]
fabs(f); fabsf(f); fabsl(f);
// NO__ERRNO: declare double @llvm.fabs.f64(double) [[READNONE_INTRINSIC]]
// NO__ERRNO: declare float @llvm.fabs.f32(float) [[READNONE_INTRINSIC]]
// NO__ERRNO: declare x86_fp80 @llvm.fabs.f80(x86_fp80) [[READNONE_INTRINSIC]]
// HAS_ERRNO: declare double @llvm.fabs.f64(double) [[READNONE_INTRINSIC]]
// HAS_ERRNO: declare float @llvm.fabs.f32(float) [[READNONE_INTRINSIC]]
// HAS_ERRNO: declare x86_fp80 @llvm.fabs.f80(x86_fp80) [[READNONE_INTRINSIC]]
// HAS_MAYTRAP: declare double @llvm.fabs.f64(double) [[READNONE_INTRINSIC]]
// HAS_MAYTRAP: declare float @llvm.fabs.f32(float) [[READNONE_INTRINSIC]]
// HAS_MAYTRAP: declare x86_fp80 @llvm.fabs.f80(x86_fp80) [[READNONE_INTRINSIC]]
frexp(f,i); frexpf(f,i); frexpl(f,i);
// NO__ERRNO: declare double @frexp(double noundef, ptr noundef) [[NOT_READNONE:#[0-9]+]]
// NO__ERRNO: declare float @frexpf(float noundef, ptr noundef) [[NOT_READNONE]]
// NO__ERRNO: declare x86_fp80 @frexpl(x86_fp80 noundef, ptr noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare double @frexp(double noundef, ptr noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare float @frexpf(float noundef, ptr noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare x86_fp80 @frexpl(x86_fp80 noundef, ptr noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare double @frexp(double noundef, ptr noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare float @frexpf(float noundef, ptr noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare x86_fp80 @frexpl(x86_fp80 noundef, ptr noundef) [[NOT_READNONE]]
ldexp(f,f); ldexpf(f,f); ldexpl(f,f);
// NO__ERRNO: declare double @ldexp(double noundef, i32 noundef) [[READNONE]]
// NO__ERRNO: declare float @ldexpf(float noundef, i32 noundef) [[READNONE]]
// NO__ERRNO: declare x86_fp80 @ldexpl(x86_fp80 noundef, i32 noundef) [[READNONE]]
// HAS_ERRNO: declare double @ldexp(double noundef, i32 noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare float @ldexpf(float noundef, i32 noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare x86_fp80 @ldexpl(x86_fp80 noundef, i32 noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare double @ldexp(double noundef, i32 noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare float @ldexpf(float noundef, i32 noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare x86_fp80 @ldexpl(x86_fp80 noundef, i32 noundef) [[NOT_READNONE]]
modf(f,d); modff(f,fp); modfl(f,l);
// NO__ERRNO: declare double @modf(double noundef, ptr noundef) [[NOT_READNONE]]
// NO__ERRNO: declare float @modff(float noundef, ptr noundef) [[NOT_READNONE]]
// NO__ERRNO: declare x86_fp80 @modfl(x86_fp80 noundef, ptr noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare double @modf(double noundef, ptr noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare float @modff(float noundef, ptr noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare x86_fp80 @modfl(x86_fp80 noundef, ptr noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare double @modf(double noundef, ptr noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare float @modff(float noundef, ptr noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare x86_fp80 @modfl(x86_fp80 noundef, ptr noundef) [[NOT_READNONE]]
nan(c); nanf(c); nanl(c);
// NO__ERRNO: declare double @nan(ptr noundef) [[READONLY:#[0-9]+]]
// NO__ERRNO: declare float @nanf(ptr noundef) [[READONLY]]
// NO__ERRNO: declare x86_fp80 @nanl(ptr noundef) [[READONLY]]
// HAS_ERRNO: declare double @nan(ptr noundef) [[READONLY:#[0-9]+]]
// HAS_ERRNO: declare float @nanf(ptr noundef) [[READONLY]]
// HAS_ERRNO: declare x86_fp80 @nanl(ptr noundef) [[READONLY]]
// HAS_MAYTRAP: declare double @nan(ptr noundef) [[READONLY:#[0-9]+]]
// HAS_MAYTRAP: declare float @nanf(ptr noundef) [[READONLY]]
// HAS_MAYTRAP: declare x86_fp80 @nanl(ptr noundef) [[READONLY]]
pow(f,f); powf(f,f); powl(f,f);
// NO__ERRNO: declare double @llvm.pow.f64(double, double) [[READNONE_INTRINSIC]]
// NO__ERRNO: declare float @llvm.pow.f32(float, float) [[READNONE_INTRINSIC]]
// NO__ERRNO: declare x86_fp80 @llvm.pow.f80(x86_fp80, x86_fp80) [[READNONE_INTRINSIC]]
// HAS_ERRNO: declare double @pow(double noundef, double noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare float @powf(float noundef, float noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare x86_fp80 @powl(x86_fp80 noundef, x86_fp80 noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare double @llvm.experimental.constrained.pow.f64(
// HAS_MAYTRAP: declare float @llvm.experimental.constrained.pow.f32(
// HAS_MAYTRAP: declare x86_fp80 @llvm.experimental.constrained.pow.f80({{.*}})
/* math */
acos(f); acosf(f); acosl(f);
// NO__ERRNO: declare double @llvm.acos.f64(double) [[READNONE_INTRINSIC]]
// NO__ERRNO: declare float @llvm.acos.f32(float) [[READNONE_INTRINSIC]]
// NO__ERRNO: declare x86_fp80 @llvm.acos.f80(x86_fp80) [[READNONE_INTRINSIC]]
// HAS_ERRNO: declare double @acos(double noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare float @acosf(float noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare x86_fp80 @acosl(x86_fp80 noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare double @llvm.experimental.constrained.acos.f64(
// HAS_MAYTRAP: declare float @llvm.experimental.constrained.acos.f32(
// HAS_MAYTRAP: declare x86_fp80 @llvm.experimental.constrained.acos.f80(
acosh(f); acoshf(f); acoshl(f);
// NO__ERRNO: declare double @acosh(double noundef) [[READNONE]]
// NO__ERRNO: declare float @acoshf(float noundef) [[READNONE]]
// NO__ERRNO: declare x86_fp80 @acoshl(x86_fp80 noundef) [[READNONE]]
// HAS_ERRNO: declare double @acosh(double noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare float @acoshf(float noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare x86_fp80 @acoshl(x86_fp80 noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare double @acosh(double noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare float @acoshf(float noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare x86_fp80 @acoshl(x86_fp80 noundef) [[NOT_READNONE]]
asin(f); asinf(f); asinl(f);
// NO__ERRNO: declare double @llvm.asin.f64(double) [[READNONE_INTRINSIC]]
// NO__ERRNO: declare float @llvm.asin.f32(float) [[READNONE_INTRINSIC]]
// NO__ERRNO: declare x86_fp80 @llvm.asin.f80(x86_fp80) [[READNONE_INTRINSIC]]
// HAS_ERRNO: declare double @asin(double noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare float @asinf(float noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare x86_fp80 @asinl(x86_fp80 noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare double @llvm.experimental.constrained.asin.f64(
// HAS_MAYTRAP: declare float @llvm.experimental.constrained.asin.f32(
// HAS_MAYTRAP: declare x86_fp80 @llvm.experimental.constrained.asin.f80(
asinh(f); asinhf(f); asinhl(f);
// NO__ERRNO: declare double @asinh(double noundef) [[READNONE]]
// NO__ERRNO: declare float @asinhf(float noundef) [[READNONE]]
// NO__ERRNO: declare x86_fp80 @asinhl(x86_fp80 noundef) [[READNONE]]
// HAS_ERRNO: declare double @asinh(double noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare float @asinhf(float noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare x86_fp80 @asinhl(x86_fp80 noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare double @asinh(double noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare float @asinhf(float noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare x86_fp80 @asinhl(x86_fp80 noundef) [[NOT_READNONE]]
atan(f); atanf(f); atanl(f);
// NO__ERRNO: declare double @llvm.atan.f64(double) [[READNONE_INTRINSIC]]
// NO__ERRNO: declare float @llvm.atan.f32(float) [[READNONE_INTRINSIC]]
// NO__ERRNO: declare x86_fp80 @llvm.atan.f80(x86_fp80) [[READNONE_INTRINSIC]]
// HAS_ERRNO: declare double @atan(double noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare float @atanf(float noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare x86_fp80 @atanl(x86_fp80 noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare double @llvm.experimental.constrained.atan.f64(
// HAS_MAYTRAP: declare float @llvm.experimental.constrained.atan.f32(
// HAS_MAYTRAP: declare x86_fp80 @llvm.experimental.constrained.atan.f80(
atanh(f); atanhf(f); atanhl(f);
// NO__ERRNO: declare double @atanh(double noundef) [[READNONE]]
// NO__ERRNO: declare float @atanhf(float noundef) [[READNONE]]
// NO__ERRNO: declare x86_fp80 @atanhl(x86_fp80 noundef) [[READNONE]]
// HAS_ERRNO: declare double @atanh(double noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare float @atanhf(float noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare x86_fp80 @atanhl(x86_fp80 noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare double @atanh(double noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare float @atanhf(float noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare x86_fp80 @atanhl(x86_fp80 noundef) [[NOT_READNONE]]
cbrt(f); cbrtf(f); cbrtl(f);
// NO__ERRNO: declare double @cbrt(double noundef) [[READNONE]]
// NO__ERRNO: declare float @cbrtf(float noundef) [[READNONE]]
// NO__ERRNO: declare x86_fp80 @cbrtl(x86_fp80 noundef) [[READNONE]]
// HAS_ERRNO: declare double @cbrt(double noundef) [[READNONE:#[0-9]+]]
// HAS_ERRNO: declare float @cbrtf(float noundef) [[READNONE]]
// HAS_ERRNO: declare x86_fp80 @cbrtl(x86_fp80 noundef) [[READNONE]]
// HAS_MAYTRAP: declare double @cbrt(double noundef) [[READNONE:#[0-9]+]]
// HAS_MAYTRAP: declare float @cbrtf(float noundef) [[READNONE]]
// HAS_MAYTRAP: declare x86_fp80 @cbrtl(x86_fp80 noundef) [[READNONE]]
ceil(f); ceilf(f); ceill(f);
// NO__ERRNO: declare double @llvm.ceil.f64(double) [[READNONE_INTRINSIC]]
// NO__ERRNO: declare float @llvm.ceil.f32(float) [[READNONE_INTRINSIC]]
// NO__ERRNO: declare x86_fp80 @llvm.ceil.f80(x86_fp80) [[READNONE_INTRINSIC]]
// HAS_ERRNO: declare double @llvm.ceil.f64(double) [[READNONE_INTRINSIC]]
// HAS_ERRNO: declare float @llvm.ceil.f32(float) [[READNONE_INTRINSIC]]
// HAS_ERRNO: declare x86_fp80 @llvm.ceil.f80(x86_fp80) [[READNONE_INTRINSIC]]
// HAS_MAYTRAP: declare double @llvm.experimental.constrained.ceil.f64(
// HAS_MAYTRAP: declare float @llvm.experimental.constrained.ceil.f32(
// HAS_MAYTRAP: declare x86_fp80 @llvm.experimental.constrained.ceil.f80(
cos(f); cosf(f); cosl(f);
// NO__ERRNO: declare double @llvm.cos.f64(double) [[READNONE_INTRINSIC]]
// NO__ERRNO: declare float @llvm.cos.f32(float) [[READNONE_INTRINSIC]]
// NO__ERRNO: declare x86_fp80 @llvm.cos.f80(x86_fp80) [[READNONE_INTRINSIC]]
// HAS_ERRNO: declare double @cos(double noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare float @cosf(float noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare x86_fp80 @cosl(x86_fp80 noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare double @llvm.experimental.constrained.cos.f64(
// HAS_MAYTRAP: declare float @llvm.experimental.constrained.cos.f32(
// HAS_MAYTRAP: declare x86_fp80 @llvm.experimental.constrained.cos.f80(
cosh(f); coshf(f); coshl(f);
// NO__ERRNO: declare double @llvm.cosh.f64(double) [[READNONE_INTRINSIC]]
// NO__ERRNO: declare float @llvm.cosh.f32(float) [[READNONE_INTRINSIC]]
// NO__ERRNO: declare x86_fp80 @llvm.cosh.f80(x86_fp80) [[READNONE_INTRINSIC]]
// HAS_ERRNO: declare double @cosh(double noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare float @coshf(float noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare x86_fp80 @coshl(x86_fp80 noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare double @llvm.experimental.constrained.cosh.f64(
// HAS_MAYTRAP: declare float @llvm.experimental.constrained.cosh.f32(
// HAS_MAYTRAP: declare x86_fp80 @llvm.experimental.constrained.cosh.f80(
erf(f); erff(f); erfl(f);
// NO__ERRNO: declare double @erf(double noundef) [[READNONE]]
// NO__ERRNO: declare float @erff(float noundef) [[READNONE]]
// NO__ERRNO: declare x86_fp80 @erfl(x86_fp80 noundef) [[READNONE]]
// HAS_ERRNO: declare double @erf(double noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare float @erff(float noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare x86_fp80 @erfl(x86_fp80 noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare double @erf(double noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare float @erff(float noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare x86_fp80 @erfl(x86_fp80 noundef) [[NOT_READNONE]]
erfc(f); erfcf(f); erfcl(f);
// NO__ERRNO: declare double @erfc(double noundef) [[READNONE]]
// NO__ERRNO: declare float @erfcf(float noundef) [[READNONE]]
// NO__ERRNO: declare x86_fp80 @erfcl(x86_fp80 noundef) [[READNONE]]
// HAS_ERRNO: declare double @erfc(double noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare float @erfcf(float noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare x86_fp80 @erfcl(x86_fp80 noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare double @erfc(double noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare float @erfcf(float noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare x86_fp80 @erfcl(x86_fp80 noundef) [[NOT_READNONE]]
exp(f); expf(f); expl(f);
// NO__ERRNO: declare double @llvm.exp.f64(double) [[READNONE_INTRINSIC]]
// NO__ERRNO: declare float @llvm.exp.f32(float) [[READNONE_INTRINSIC]]
// NO__ERRNO: declare x86_fp80 @llvm.exp.f80(x86_fp80) [[READNONE_INTRINSIC]]
// HAS_ERRNO: declare double @exp(double noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare float @expf(float noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare x86_fp80 @expl(x86_fp80 noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare double @llvm.experimental.constrained.exp.f64(
// HAS_MAYTRAP: declare float @llvm.experimental.constrained.exp.f32(
// HAS_MAYTRAP: declare x86_fp80 @llvm.experimental.constrained.exp.f80(
exp2(f); exp2f(f); exp2l(f);
// NO__ERRNO: declare double @llvm.exp2.f64(double) [[READNONE_INTRINSIC]]
// NO__ERRNO: declare float @llvm.exp2.f32(float) [[READNONE_INTRINSIC]]
// NO__ERRNO: declare x86_fp80 @llvm.exp2.f80(x86_fp80) [[READNONE_INTRINSIC]]
// HAS_ERRNO: declare double @exp2(double noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare float @exp2f(float noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare x86_fp80 @exp2l(x86_fp80 noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare double @llvm.experimental.constrained.exp2.f64(
// HAS_MAYTRAP: declare float @llvm.experimental.constrained.exp2.f32(
// HAS_MAYTRAP: declare x86_fp80 @llvm.experimental.constrained.exp2.f80(
expm1(f); expm1f(f); expm1l(f);
// NO__ERRNO: declare double @expm1(double noundef) [[READNONE]]
// NO__ERRNO: declare float @expm1f(float noundef) [[READNONE]]
// NO__ERRNO: declare x86_fp80 @expm1l(x86_fp80 noundef) [[READNONE]]
// HAS_ERRNO: declare double @expm1(double noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare float @expm1f(float noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare x86_fp80 @expm1l(x86_fp80 noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare double @expm1(double noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare float @expm1f(float noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare x86_fp80 @expm1l(x86_fp80 noundef) [[NOT_READNONE]]
fdim(f,f); fdimf(f,f); fdiml(f,f);
// NO__ERRNO: declare double @fdim(double noundef, double noundef) [[READNONE]]
// NO__ERRNO: declare float @fdimf(float noundef, float noundef) [[READNONE]]
// NO__ERRNO: declare x86_fp80 @fdiml(x86_fp80 noundef, x86_fp80 noundef) [[READNONE]]
// HAS_ERRNO: declare double @fdim(double noundef, double noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare float @fdimf(float noundef, float noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare x86_fp80 @fdiml(x86_fp80 noundef, x86_fp80 noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare double @fdim(double noundef, double noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare float @fdimf(float noundef, float noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare x86_fp80 @fdiml(x86_fp80 noundef, x86_fp80 noundef) [[NOT_READNONE]]
floor(f); floorf(f); floorl(f);
// NO__ERRNO: declare double @llvm.floor.f64(double) [[READNONE_INTRINSIC]]
// NO__ERRNO: declare float @llvm.floor.f32(float) [[READNONE_INTRINSIC]]
// NO__ERRNO: declare x86_fp80 @llvm.floor.f80(x86_fp80) [[READNONE_INTRINSIC]]
// HAS_ERRNO: declare double @llvm.floor.f64(double) [[READNONE_INTRINSIC]]
// HAS_ERRNO: declare float @llvm.floor.f32(float) [[READNONE_INTRINSIC]]
// HAS_ERRNO: declare x86_fp80 @llvm.floor.f80(x86_fp80) [[READNONE_INTRINSIC]]
// HAS_MAYTRAP: declare double @llvm.experimental.constrained.floor.f64
// HAS_MAYTRAP: declare float @llvm.experimental.constrained.floor.f32(
// HAS_MAYTRAP: declare x86_fp80 @llvm.experimental.constrained.floor.f80(
fma(f,f,f); fmaf(f,f,f); fmal(f,f,f);
// NO__ERRNO: declare double @llvm.fma.f64(double, double, double) [[READNONE_INTRINSIC]]
// NO__ERRNO: declare float @llvm.fma.f32(float, float, float) [[READNONE_INTRINSIC]]
// NO__ERRNO: declare x86_fp80 @llvm.fma.f80(x86_fp80, x86_fp80, x86_fp80) [[READNONE_INTRINSIC]]
// HAS_ERRNO: declare double @fma(double noundef, double noundef, double noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare float @fmaf(float noundef, float noundef, float noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare x86_fp80 @fmal(x86_fp80 noundef, x86_fp80 noundef, x86_fp80 noundef) [[NOT_READNONE]]
// On GNU or Win, fma never sets errno, so we can convert to the intrinsic.
// HAS_ERRNO_GNU: declare double @llvm.fma.f64(double, double, double) [[READNONE_INTRINSIC:#[0-9]+]]
// HAS_ERRNO_GNU: declare float @llvm.fma.f32(float, float, float) [[READNONE_INTRINSIC]]
// HAS_ERRNO_GNU: declare x86_fp80 @llvm.fma.f80(x86_fp80, x86_fp80, x86_fp80) [[READNONE_INTRINSIC]]
// HAS_ERRNO_WIN: declare double @llvm.fma.f64(double, double, double) [[READNONE_INTRINSIC:#[0-9]+]]
// HAS_ERRNO_WIN: declare float @llvm.fma.f32(float, float, float) [[READNONE_INTRINSIC]]
// Long double is just double on win, so no f80 use/declaration.
// HAS_ERRNO_WIN-NOT: declare x86_fp80 @llvm.fma.f80(x86_fp80, x86_fp80, x86_fp80)
// HAS_MAYTRAP: declare double @llvm.experimental.constrained.fma.f64(
// HAS_MAYTRAP: declare float @llvm.experimental.constrained.fma.f32(
// HAS_MAYTRAP: declare x86_fp80 @llvm.experimental.constrained.fma.f80(
fmax(f,f); fmaxf(f,f); fmaxl(f,f);
// NO__ERRNO: declare double @llvm.maxnum.f64(double, double) [[READNONE_INTRINSIC]]
// NO__ERRNO: declare float @llvm.maxnum.f32(float, float) [[READNONE_INTRINSIC]]
// NO__ERRNO: declare x86_fp80 @llvm.maxnum.f80(x86_fp80, x86_fp80) [[READNONE_INTRINSIC]]
// HAS_ERRNO: declare double @llvm.maxnum.f64(double, double) [[READNONE_INTRINSIC]]
// HAS_ERRNO: declare float @llvm.maxnum.f32(float, float) [[READNONE_INTRINSIC]]
// HAS_ERRNO: declare x86_fp80 @llvm.maxnum.f80(x86_fp80, x86_fp80) [[READNONE_INTRINSIC]]
// HAS_MAYTRAP: declare double @llvm.experimental.constrained.maxnum.f64(
// HAS_MAYTRAP: declare float @llvm.experimental.constrained.maxnum.f32(
// HAS_MAYTRAP: declare x86_fp80 @llvm.experimental.constrained.maxnum.f80(
fmin(f,f); fminf(f,f); fminl(f,f);
// NO__ERRNO: declare double @llvm.minnum.f64(double, double) [[READNONE_INTRINSIC]]
// NO__ERRNO: declare float @llvm.minnum.f32(float, float) [[READNONE_INTRINSIC]]
// NO__ERRNO: declare x86_fp80 @llvm.minnum.f80(x86_fp80, x86_fp80) [[READNONE_INTRINSIC]]
// HAS_ERRNO: declare double @llvm.minnum.f64(double, double) [[READNONE_INTRINSIC]]
// HAS_ERRNO: declare float @llvm.minnum.f32(float, float) [[READNONE_INTRINSIC]]
// HAS_ERRNO: declare x86_fp80 @llvm.minnum.f80(x86_fp80, x86_fp80) [[READNONE_INTRINSIC]]
// HAS_MAYTRAP: declare double @llvm.experimental.constrained.minnum.f64(
// HAS_MAYTRAP: declare float @llvm.experimental.constrained.minnum.f32(
// HAS_MAYTRAP: declare x86_fp80 @llvm.experimental.constrained.minnum.f80(
hypot(f,f); hypotf(f,f); hypotl(f,f);
// NO__ERRNO: declare double @hypot(double noundef, double noundef) [[READNONE]]
// NO__ERRNO: declare float @hypotf(float noundef, float noundef) [[READNONE]]
// NO__ERRNO: declare x86_fp80 @hypotl(x86_fp80 noundef, x86_fp80 noundef) [[READNONE]]
// HAS_ERRNO: declare double @hypot(double noundef, double noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare float @hypotf(float noundef, float noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare x86_fp80 @hypotl(x86_fp80 noundef, x86_fp80 noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare double @hypot(double noundef, double noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare float @hypotf(float noundef, float noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare x86_fp80 @hypotl(x86_fp80 noundef, x86_fp80 noundef) [[NOT_READNONE]]
ilogb(f); ilogbf(f); ilogbl(f);
// NO__ERRNO: declare i32 @ilogb(double noundef) [[READNONE]]
// NO__ERRNO: declare i32 @ilogbf(float noundef) [[READNONE]]
// NO__ERRNO: declare i32 @ilogbl(x86_fp80 noundef) [[READNONE]]
// HAS_ERRNO: declare i32 @ilogb(double noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare i32 @ilogbf(float noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare i32 @ilogbl(x86_fp80 noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare i32 @ilogb(double noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare i32 @ilogbf(float noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare i32 @ilogbl(x86_fp80 noundef) [[NOT_READNONE]]
lgamma(f); lgammaf(f); lgammal(f);
// NO__ERRNO: declare double @lgamma(double noundef) [[NOT_READNONE]]
// NO__ERRNO: declare float @lgammaf(float noundef) [[NOT_READNONE]]
// NO__ERRNO: declare x86_fp80 @lgammal(x86_fp80 noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare double @lgamma(double noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare float @lgammaf(float noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare x86_fp80 @lgammal(x86_fp80 noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare double @lgamma(double noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare float @lgammaf(float noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare x86_fp80 @lgammal(x86_fp80 noundef) [[NOT_READNONE]]
llrint(f); llrintf(f); llrintl(f);
// NO__ERRNO: declare i64 @llvm.llrint.i64.f64(double) [[READNONE_INTRINSIC]]
// NO__ERRNO: declare i64 @llvm.llrint.i64.f32(float) [[READNONE_INTRINSIC]]
// NO__ERRNO: declare i64 @llvm.llrint.i64.f80(x86_fp80) [[READNONE_INTRINSIC]]
// HAS_ERRNO: declare i64 @llrint(double noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare i64 @llrintf(float noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare i64 @llrintl(x86_fp80 noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare i64 @llvm.experimental.constrained.llrint.i64.f64(
// HAS_MAYTRAP: declare i64 @llvm.experimental.constrained.llrint.i64.f32(
// HAS_MAYTRAP: declare i64 @llvm.experimental.constrained.llrint.i64.f80(
llround(f); llroundf(f); llroundl(f);
// NO__ERRNO: declare i64 @llvm.llround.i64.f64(double) [[READNONE_INTRINSIC]]
// NO__ERRNO: declare i64 @llvm.llround.i64.f32(float) [[READNONE_INTRINSIC]]
// NO__ERRNO: declare i64 @llvm.llround.i64.f80(x86_fp80) [[READNONE_INTRINSIC]]
// HAS_ERRNO: declare i64 @llround(double noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare i64 @llroundf(float noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare i64 @llroundl(x86_fp80 noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare i64 @llvm.experimental.constrained.llround.i64.f64(
// HAS_MAYTRAP: declare i64 @llvm.experimental.constrained.llround.i64.f32(
// HAS_MAYTRAP: declare i64 @llvm.experimental.constrained.llround.i64.f80(
log(f); logf(f); logl(f);
// NO__ERRNO: declare double @llvm.log.f64(double) [[READNONE_INTRINSIC]]
// NO__ERRNO: declare float @llvm.log.f32(float) [[READNONE_INTRINSIC]]
// NO__ERRNO: declare x86_fp80 @llvm.log.f80(x86_fp80) [[READNONE_INTRINSIC]]
// HAS_ERRNO: declare double @log(double noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare float @logf(float noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare x86_fp80 @logl(x86_fp80 noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare double @llvm.experimental.constrained.log.f64(
// HAS_MAYTRAP: declare float @llvm.experimental.constrained.log.f32(
// HAS_MAYTRAP: declare x86_fp80 @llvm.experimental.constrained.log.f80(
log10(f); log10f(f); log10l(f);
// NO__ERRNO: declare double @llvm.log10.f64(double) [[READNONE_INTRINSIC]]
// NO__ERRNO: declare float @llvm.log10.f32(float) [[READNONE_INTRINSIC]]
// NO__ERRNO: declare x86_fp80 @llvm.log10.f80(x86_fp80) [[READNONE_INTRINSIC]]
// HAS_ERRNO: declare double @log10(double noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare float @log10f(float noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare x86_fp80 @log10l(x86_fp80 noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare double @llvm.experimental.constrained.log10.f64(
// HAS_MAYTRAP: declare float @llvm.experimental.constrained.log10.f32(
// HAS_MAYTRAP: declare x86_fp80 @llvm.experimental.constrained.log10.f80(
log1p(f); log1pf(f); log1pl(f);
// NO__ERRNO: declare double @log1p(double noundef) [[READNONE]]
// NO__ERRNO: declare float @log1pf(float noundef) [[READNONE]]
// NO__ERRNO: declare x86_fp80 @log1pl(x86_fp80 noundef) [[READNONE]]
// HAS_ERRNO: declare double @log1p(double noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare float @log1pf(float noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare x86_fp80 @log1pl(x86_fp80 noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare double @log1p(double noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare float @log1pf(float noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare x86_fp80 @log1pl(x86_fp80 noundef) [[NOT_READNONE]]
log2(f); log2f(f); log2l(f);
// NO__ERRNO: declare double @llvm.log2.f64(double) [[READNONE_INTRINSIC]]
// NO__ERRNO: declare float @llvm.log2.f32(float) [[READNONE_INTRINSIC]]
// NO__ERRNO: declare x86_fp80 @llvm.log2.f80(x86_fp80) [[READNONE_INTRINSIC]]
// HAS_ERRNO: declare double @log2(double noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare float @log2f(float noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare x86_fp80 @log2l(x86_fp80 noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare double @llvm.experimental.constrained.log2.f64(
// HAS_MAYTRAP: declare float @llvm.experimental.constrained.log2.f32(
// HAS_MAYTRAP: declare x86_fp80 @llvm.experimental.constrained.log2.f80(
logb(f); logbf(f); logbl(f);
// NO__ERRNO: declare double @logb(double noundef) [[READNONE]]
// NO__ERRNO: declare float @logbf(float noundef) [[READNONE]]
// NO__ERRNO: declare x86_fp80 @logbl(x86_fp80 noundef) [[READNONE]]
// HAS_ERRNO: declare double @logb(double noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare float @logbf(float noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare x86_fp80 @logbl(x86_fp80 noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare double @logb(double noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare float @logbf(float noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare x86_fp80 @logbl(x86_fp80 noundef) [[NOT_READNONE]]
lrint(f); lrintf(f); lrintl(f);
// NO__ERRNO: declare i64 @llvm.lrint.i64.f64(double) [[READNONE_INTRINSIC]]
// NO__ERRNO: declare i64 @llvm.lrint.i64.f32(float) [[READNONE_INTRINSIC]]
// NO__ERRNO: declare i64 @llvm.lrint.i64.f80(x86_fp80) [[READNONE_INTRINSIC]]
// HAS_ERRNO: declare i64 @lrint(double noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare i64 @lrintf(float noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare i64 @lrintl(x86_fp80 noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare i64 @llvm.experimental.constrained.lrint.i64.f64(
// HAS_MAYTRAP: declare i64 @llvm.experimental.constrained.lrint.i64.f32(
// HAS_MAYTRAP: declare i64 @llvm.experimental.constrained.lrint.i64.f80(
lround(f); lroundf(f); lroundl(f);
// NO__ERRNO: declare i64 @llvm.lround.i64.f64(double) [[READNONE_INTRINSIC]]
// NO__ERRNO: declare i64 @llvm.lround.i64.f32(float) [[READNONE_INTRINSIC]]
// NO__ERRNO: declare i64 @llvm.lround.i64.f80(x86_fp80) [[READNONE_INTRINSIC]]
// HAS_ERRNO: declare i64 @lround(double noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare i64 @lroundf(float noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare i64 @lroundl(x86_fp80 noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare i64 @llvm.experimental.constrained.lround.i64.f64(
// HAS_MAYTRAP: declare i64 @llvm.experimental.constrained.lround.i64.f32(
// HAS_MAYTRAP: declare i64 @llvm.experimental.constrained.lround.i64.f80(
nearbyint(f); nearbyintf(f); nearbyintl(f);
// NO__ERRNO: declare double @llvm.nearbyint.f64(double) [[READNONE_INTRINSIC]]
// NO__ERRNO: declare float @llvm.nearbyint.f32(float) [[READNONE_INTRINSIC]]
// NO__ERRNO: declare x86_fp80 @llvm.nearbyint.f80(x86_fp80) [[READNONE_INTRINSIC]]
// HAS_ERRNO: declare double @llvm.nearbyint.f64(double) [[READNONE_INTRINSIC]]
// HAS_ERRNO: declare float @llvm.nearbyint.f32(float) [[READNONE_INTRINSIC]]
// HAS_ERRNO: declare x86_fp80 @llvm.nearbyint.f80(x86_fp80) [[READNONE_INTRINSIC]]
// HAS_MAYTRAP: declare double @llvm.experimental.constrained.nearbyint.f64(
// HAS_MAYTRAP: declare float @llvm.experimental.constrained.nearbyint.f32(
// HAS_MAYTRAP: declare x86_fp80 @llvm.experimental.constrained.nearbyint.f80(
nextafter(f,f); nextafterf(f,f); nextafterl(f,f);
// NO__ERRNO: declare double @nextafter(double noundef, double noundef) [[READNONE]]
// NO__ERRNO: declare float @nextafterf(float noundef, float noundef) [[READNONE]]
// NO__ERRNO: declare x86_fp80 @nextafterl(x86_fp80 noundef, x86_fp80 noundef) [[READNONE]]
// HAS_ERRNO: declare double @nextafter(double noundef, double noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare float @nextafterf(float noundef, float noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare x86_fp80 @nextafterl(x86_fp80 noundef, x86_fp80 noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare double @nextafter(double noundef, double noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare float @nextafterf(float noundef, float noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare x86_fp80 @nextafterl(x86_fp80 noundef, x86_fp80 noundef) [[NOT_READNONE]]
nexttoward(f,f); nexttowardf(f,f);nexttowardl(f,f);
// NO__ERRNO: declare double @nexttoward(double noundef, x86_fp80 noundef) [[READNONE]]
// NO__ERRNO: declare float @nexttowardf(float noundef, x86_fp80 noundef) [[READNONE]]
// NO__ERRNO: declare x86_fp80 @nexttowardl(x86_fp80 noundef, x86_fp80 noundef) [[READNONE]]
// HAS_ERRNO: declare double @nexttoward(double noundef, x86_fp80 noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare float @nexttowardf(float noundef, x86_fp80 noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare x86_fp80 @nexttowardl(x86_fp80 noundef, x86_fp80 noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare double @nexttoward(double noundef, x86_fp80 noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare float @nexttowardf(float noundef, x86_fp80 noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare x86_fp80 @nexttowardl(x86_fp80 noundef, x86_fp80 noundef) [[NOT_READNONE]]
remainder(f,f); remainderf(f,f); remainderl(f,f);
// NO__ERRNO: declare double @remainder(double noundef, double noundef) [[READNONE]]
// NO__ERRNO: declare float @remainderf(float noundef, float noundef) [[READNONE]]
// NO__ERRNO: declare x86_fp80 @remainderl(x86_fp80 noundef, x86_fp80 noundef) [[READNONE]]
// HAS_ERRNO: declare double @remainder(double noundef, double noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare float @remainderf(float noundef, float noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare x86_fp80 @remainderl(x86_fp80 noundef, x86_fp80 noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare double @remainder(double noundef, double noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare float @remainderf(float noundef, float noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare x86_fp80 @remainderl(x86_fp80 noundef, x86_fp80 noundef) [[NOT_READNONE]]
remquo(f,f,i); remquof(f,f,i); remquol(f,f,i);
// NO__ERRNO: declare double @remquo(double noundef, double noundef, ptr noundef) [[NOT_READNONE]]
// NO__ERRNO: declare float @remquof(float noundef, float noundef, ptr noundef) [[NOT_READNONE]]
// NO__ERRNO: declare x86_fp80 @remquol(x86_fp80 noundef, x86_fp80 noundef, ptr noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare double @remquo(double noundef, double noundef, ptr noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare float @remquof(float noundef, float noundef, ptr noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare x86_fp80 @remquol(x86_fp80 noundef, x86_fp80 noundef, ptr noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare double @remquo(double noundef, double noundef, ptr noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare float @remquof(float noundef, float noundef, ptr noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare x86_fp80 @remquol(x86_fp80 noundef, x86_fp80 noundef, ptr noundef) [[NOT_READNONE]]
rint(f); rintf(f); rintl(f);
// NO__ERRNO: declare double @llvm.rint.f64(double) [[READNONE_INTRINSIC]]
// NO__ERRNO: declare float @llvm.rint.f32(float) [[READNONE_INTRINSIC]]
// NO__ERRNO: declare x86_fp80 @llvm.rint.f80(x86_fp80) [[READNONE_INTRINSIC]]
// HAS_ERRNO: declare double @llvm.rint.f64(double) [[READNONE_INTRINSIC]]
// HAS_ERRNO: declare float @llvm.rint.f32(float) [[READNONE_INTRINSIC]]
// HAS_ERRNO: declare x86_fp80 @llvm.rint.f80(x86_fp80) [[READNONE_INTRINSIC]]
// HAS_MAYTRAP: declare double @llvm.experimental.constrained.rint.f64(
// HAS_MAYTRAP: declare float @llvm.experimental.constrained.rint.f32(
// HAS_MAYTRAP: declare x86_fp80 @llvm.experimental.constrained.rint.f80(
round(f); roundf(f); roundl(f);
// NO__ERRNO: declare double @llvm.round.f64(double) [[READNONE_INTRINSIC]]
// NO__ERRNO: declare float @llvm.round.f32(float) [[READNONE_INTRINSIC]]
// NO__ERRNO: declare x86_fp80 @llvm.round.f80(x86_fp80) [[READNONE_INTRINSIC]]
// HAS_ERRNO: declare double @llvm.round.f64(double) [[READNONE_INTRINSIC]]
// HAS_ERRNO: declare float @llvm.round.f32(float) [[READNONE_INTRINSIC]]
// HAS_ERRNO: declare x86_fp80 @llvm.round.f80(x86_fp80) [[READNONE_INTRINSIC]]
// HAS_MAYTRAP: declare double @llvm.experimental.constrained.round.f64(
// HAS_MAYTRAP: declare float @llvm.experimental.constrained.round.f32(
// HAS_MAYTRAP: declare x86_fp80 @llvm.experimental.constrained.round.f80(
scalbln(f,f); scalblnf(f,f); scalblnl(f,f);
// NO__ERRNO: declare double @scalbln(double noundef, i64 noundef) [[READNONE]]
// NO__ERRNO: declare float @scalblnf(float noundef, i64 noundef) [[READNONE]]
// NO__ERRNO: declare x86_fp80 @scalblnl(x86_fp80 noundef, i64 noundef) [[READNONE]]
// HAS_ERRNO: declare double @scalbln(double noundef, i64 noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare float @scalblnf(float noundef, i64 noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare x86_fp80 @scalblnl(x86_fp80 noundef, i64 noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare double @scalbln(double noundef, i64 noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare float @scalblnf(float noundef, i64 noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare x86_fp80 @scalblnl(x86_fp80 noundef, i64 noundef) [[NOT_READNONE]]
scalbn(f,f); scalbnf(f,f); scalbnl(f,f);
// NO__ERRNO: declare double @scalbn(double noundef, i32 noundef) [[READNONE]]
// NO__ERRNO: declare float @scalbnf(float noundef, i32 noundef) [[READNONE]]
// NO__ERRNO: declare x86_fp80 @scalbnl(x86_fp80 noundef, i32 noundef) [[READNONE]]
// HAS_ERRNO: declare double @scalbn(double noundef, i32 noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare float @scalbnf(float noundef, i32 noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare x86_fp80 @scalbnl(x86_fp80 noundef, i32 noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare double @scalbn(double noundef, i32 noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare float @scalbnf(float noundef, i32 noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare x86_fp80 @scalbnl(x86_fp80 noundef, i32 noundef) [[NOT_READNONE]]
sin(f); sinf(f); sinl(f);
// NO__ERRNO: declare double @llvm.sin.f64(double) [[READNONE_INTRINSIC]]
// NO__ERRNO: declare float @llvm.sin.f32(float) [[READNONE_INTRINSIC]]
// NO__ERRNO: declare x86_fp80 @llvm.sin.f80(x86_fp80) [[READNONE_INTRINSIC]]
// HAS_ERRNO: declare double @sin(double noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare float @sinf(float noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare x86_fp80 @sinl(x86_fp80 noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare double @llvm.experimental.constrained.sin.f64(
// HAS_MAYTRAP: declare float @llvm.experimental.constrained.sin.f32(
// HAS_MAYTRAP: declare x86_fp80 @llvm.experimental.constrained.sin.f80(
sinh(f); sinhf(f); sinhl(f);
// NO__ERRNO: declare double @llvm.sinh.f64(double) [[READNONE_INTRINSIC]]
// NO__ERRNO: declare float @llvm.sinh.f32(float) [[READNONE_INTRINSIC]]
// NO__ERRNO: declare x86_fp80 @llvm.sinh.f80(x86_fp80) [[READNONE_INTRINSIC]]
// HAS_ERRNO: declare double @sinh(double noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare float @sinhf(float noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare x86_fp80 @sinhl(x86_fp80 noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare double @llvm.experimental.constrained.sinh.f64(
// HAS_MAYTRAP: declare float @llvm.experimental.constrained.sinh.f32(
// HAS_MAYTRAP: declare x86_fp80 @llvm.experimental.constrained.sinh.f80(
sqrt(f); sqrtf(f); sqrtl(f);
// NO__ERRNO: declare double @llvm.sqrt.f64(double) [[READNONE_INTRINSIC]]
// NO__ERRNO: declare float @llvm.sqrt.f32(float) [[READNONE_INTRINSIC]]
// NO__ERRNO: declare x86_fp80 @llvm.sqrt.f80(x86_fp80) [[READNONE_INTRINSIC]]
// HAS_ERRNO: declare double @sqrt(double noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare float @sqrtf(float noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare x86_fp80 @sqrtl(x86_fp80 noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare double @llvm.experimental.constrained.sqrt.f64(
// HAS_MAYTRAP: declare float @llvm.experimental.constrained.sqrt.f32(
// HAS_MAYTRAP: declare x86_fp80 @llvm.experimental.constrained.sqrt.f80(
tan(f); tanf(f); tanl(f);
// NO__ERRNO: declare double @llvm.tan.f64(double) [[READNONE_INTRINSIC]]
// NO__ERRNO: declare float @llvm.tan.f32(float) [[READNONE_INTRINSIC]]
// NO__ERRNO: declare x86_fp80 @llvm.tan.f80(x86_fp80) [[READNONE_INTRINSIC]]
// HAS_ERRNO: declare double @tan(double noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare float @tanf(float noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare x86_fp80 @tanl(x86_fp80 noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare double @llvm.experimental.constrained.tan.f64(
// HAS_MAYTRAP: declare float @llvm.experimental.constrained.tan.f32(
// HAS_MAYTRAP: declare x86_fp80 @llvm.experimental.constrained.tan.f80(
tanh(f); tanhf(f); tanhl(f);
// NO__ERRNO: declare double @llvm.tanh.f64(double) [[READNONE_INTRINSIC]]
// NO__ERRNO: declare float @llvm.tanh.f32(float) [[READNONE_INTRINSIC]]
// NO__ERRNO: declare x86_fp80 @llvm.tanh.f80(x86_fp80) [[READNONE_INTRINSIC]]
// HAS_ERRNO: declare double @tanh(double noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare float @tanhf(float noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare x86_fp80 @tanhl(x86_fp80 noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare double @llvm.experimental.constrained.tanh.f64(
// HAS_MAYTRAP: declare float @llvm.experimental.constrained.tanh.f32(
// HAS_MAYTRAP: declare x86_fp80 @llvm.experimental.constrained.tanh.f80(
tgamma(f); tgammaf(f); tgammal(f);
// NO__ERRNO: declare double @tgamma(double noundef) [[READNONE]]
// NO__ERRNO: declare float @tgammaf(float noundef) [[READNONE]]
// NO__ERRNO: declare x86_fp80 @tgammal(x86_fp80 noundef) [[READNONE]]
// HAS_ERRNO: declare double @tgamma(double noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare float @tgammaf(float noundef) [[NOT_READNONE]]
// HAS_ERRNO: declare x86_fp80 @tgammal(x86_fp80 noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare double @tgamma(double noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare float @tgammaf(float noundef) [[NOT_READNONE]]
// HAS_MAYTRAP: declare x86_fp80 @tgammal(x86_fp80 noundef) [[NOT_READNONE]]
trunc(f); truncf(f); truncl(f);
// NO__ERRNO: declare double @llvm.trunc.f64(double) [[READNONE_INTRINSIC]]
// NO__ERRNO: declare float @llvm.trunc.f32(float) [[READNONE_INTRINSIC]]
// NO__ERRNO: declare x86_fp80 @llvm.trunc.f80(x86_fp80) [[READNONE_INTRINSIC]]
// HAS_ERRNO: declare double @llvm.trunc.f64(double) [[READNONE_INTRINSIC]]
// HAS_ERRNO: declare float @llvm.trunc.f32(float) [[READNONE_INTRINSIC]]
// HAS_ERRNO: declare x86_fp80 @llvm.trunc.f80(x86_fp80) [[READNONE_INTRINSIC]]
};
// NO__ERRNO: attributes [[READNONE]] = { {{.*}}memory(none){{.*}} }
// NO__ERRNO: attributes [[READNONE_INTRINSIC]] = { {{.*}}memory(none){{.*}} }
// NO__ERRNO: attributes [[NOT_READNONE]] = { nounwind {{.*}} }
// NO__ERRNO: attributes [[READONLY]] = { {{.*}}memory(read){{.*}} }
// HAS_ERRNO: attributes [[NOT_READNONE]] = { nounwind {{.*}} }
// HAS_ERRNO: attributes [[READNONE_INTRINSIC]] = { {{.*}}memory(none){{.*}} }
// HAS_ERRNO: attributes [[READONLY]] = { {{.*}}memory(read){{.*}} }
// HAS_ERRNO: attributes [[READNONE]] = { {{.*}}memory(none){{.*}} }
// HAS_MAYTRAP: attributes [[NOT_READNONE]] = { nounwind {{.*}} }
// HAS_MAYTRAP: attributes [[READNONE]] = { {{.*}}memory(none){{.*}} }
// HAS_ERRNO_GNU: attributes [[READNONE_INTRINSIC]] = { {{.*}}memory(none){{.*}} }
// HAS_ERRNO_WIN: attributes [[READNONE_INTRINSIC]] = { {{.*}}memory(none){{.*}} }