; RUN: llc < %s ; RUN: llc -O0 < %s ;; SQRT declare float @llvm.sqrt.f32(float) declare double @llvm.sqrt.f64(double) define double @test_sqrt(float %F) { %G = call float @llvm.sqrt.f32( float %F ) ; [#uses=1] %H = fpext float %G to double ; [#uses=1] %I = call double @llvm.sqrt.f64( double %H ) ; [#uses=1] ret double %I } ; SIN declare float @sinf(float) readonly declare double @sin(double) readonly define double @test_sin(float %F) { %G = call float @sinf( float %F ) ; [#uses=1] %H = fpext float %G to double ; [#uses=1] %I = call double @sin( double %H ) ; [#uses=1] ret double %I } ; COS declare float @cosf(float) readonly declare double @cos(double) readonly define double @test_cos(float %F) { %G = call float @cosf( float %F ) ; [#uses=1] %H = fpext float %G to double ; [#uses=1] %I = call double @cos( double %H ) ; [#uses=1] ret double %I } declare i8* @llvm.launder.invariant.group(i8*) define i8* @launder(i8* %p) { %q = call i8* @llvm.launder.invariant.group(i8* %p) ret i8* %q } declare i8* @llvm.strip.invariant.group(i8*) define i8* @strip(i8* %p) { %q = call i8* @llvm.strip.invariant.group(i8* %p) ret i8* %q } ; sideeffect declare void @llvm.sideeffect() define void @test_sideeffect() { call void @llvm.sideeffect() ret void }