; RUN: llc -O0 -mtriple=spirv32-unknown-unknown %s -o - | FileCheck %s ; DISABLED-CHECK-DAG: OpName [[SCALAR_FNEG:%.+]] "scalar_fneg" ; CHECK-DAG: OpName [[SCALAR_FADD:%.+]] "scalar_fadd" ; CHECK-DAG: OpName [[SCALAR_FSUB:%.+]] "scalar_fsub" ; CHECK-DAG: OpName [[SCALAR_FMUL:%.+]] "scalar_fmul" ; CHECK-DAG: OpName [[SCALAR_FDIV:%.+]] "scalar_fdiv" ; CHECK-DAG: OpName [[SCALAR_FREM:%.+]] "scalar_frem" ; CHECK-DAG: OpName [[SCALAR_FMA:%.+]] "scalar_fma" ;; FIXME: add test for OpFMod ; CHECK-NOT: DAG-FENCE ; CHECK-DAG: [[SCALAR:%.+]] = OpTypeFloat 32 ; CHECK-DAG: [[SCALAR_FN:%.+]] = OpTypeFunction [[SCALAR]] [[SCALAR]] [[SCALAR]] ; CHECK-NOT: DAG-FENCE ;; Test fneg on scalar: ;; FIXME: Uncomment this test once we have rebased onto a more recent LLVM ;; version -- IRTranslator::translateFNeg was fixed. ;; define float @scalar_fneg(float %a, float %unused) { ;; %c = fneg float %a ;; ret float %c ;; } ; DISABLED-CHECK: [[SCALAR_FNEG]] = OpFunction [[SCALAR]] None [[SCALAR_FN]] ; DISABLED-CHECK-NEXT: [[A:%.+]] = OpFunctionParameter [[SCALAR]] ; DISABLED-CHECK-NEXT: [[B:%.+]] = OpFunctionParameter [[SCALAR]] ; DISABLED-CHECK: OpLabel ; DISABLED-CHECK: [[C:%.+]] = OpFNegate [[SCALAR]] [[A]] ; DISABLED-CHECK: OpReturnValue [[C]] ; DISABLED-CHECK-NEXT: OpFunctionEnd ;; Test fadd on scalar: define float @scalar_fadd(float %a, float %b) { %c = fadd float %a, %b ret float %c } ; CHECK: [[SCALAR_FADD]] = OpFunction [[SCALAR]] None [[SCALAR_FN]] ; CHECK-NEXT: [[A:%.+]] = OpFunctionParameter [[SCALAR]] ; CHECK-NEXT: [[B:%.+]] = OpFunctionParameter [[SCALAR]] ; CHECK: OpLabel ; CHECK: [[C:%.+]] = OpFAdd [[SCALAR]] [[A]] [[B]] ; CHECK: OpReturnValue [[C]] ; CHECK-NEXT: OpFunctionEnd ;; Test fsub on scalar: define float @scalar_fsub(float %a, float %b) { %c = fsub float %a, %b ret float %c } ; CHECK: [[SCALAR_FSUB]] = OpFunction [[SCALAR]] None [[SCALAR_FN]] ; CHECK-NEXT: [[A:%.+]] = OpFunctionParameter [[SCALAR]] ; CHECK-NEXT: [[B:%.+]] = OpFunctionParameter [[SCALAR]] ; CHECK: OpLabel ; CHECK: [[C:%.+]] = OpFSub [[SCALAR]] [[A]] [[B]] ; CHECK: OpReturnValue [[C]] ; CHECK-NEXT: OpFunctionEnd ;; Test fmul on scalar: define float @scalar_fmul(float %a, float %b) { %c = fmul float %a, %b ret float %c } ; CHECK: [[SCALAR_FMUL]] = OpFunction [[SCALAR]] None [[SCALAR_FN]] ; CHECK-NEXT: [[A:%.+]] = OpFunctionParameter [[SCALAR]] ; CHECK-NEXT: [[B:%.+]] = OpFunctionParameter [[SCALAR]] ; CHECK: OpLabel ; CHECK: [[C:%.+]] = OpFMul [[SCALAR]] [[A]] [[B]] ; CHECK: OpReturnValue [[C]] ; CHECK-NEXT: OpFunctionEnd ;; Test fdiv on scalar: define float @scalar_fdiv(float %a, float %b) { %c = fdiv float %a, %b ret float %c } ; CHECK: [[SCALAR_FDIV]] = OpFunction [[SCALAR]] None [[SCALAR_FN]] ; CHECK-NEXT: [[A:%.+]] = OpFunctionParameter [[SCALAR]] ; CHECK-NEXT: [[B:%.+]] = OpFunctionParameter [[SCALAR]] ; CHECK: OpLabel ; CHECK: [[C:%.+]] = OpFDiv [[SCALAR]] [[A]] [[B]] ; CHECK: OpReturnValue [[C]] ; CHECK-NEXT: OpFunctionEnd ;; Test frem on scalar: define float @scalar_frem(float %a, float %b) { %c = frem float %a, %b ret float %c } ; CHECK: [[SCALAR_FREM]] = OpFunction [[SCALAR]] None [[SCALAR_FN]] ; CHECK-NEXT: [[A:%.+]] = OpFunctionParameter [[SCALAR]] ; CHECK-NEXT: [[B:%.+]] = OpFunctionParameter [[SCALAR]] ; CHECK: OpLabel ; CHECK: [[C:%.+]] = OpFRem [[SCALAR]] [[A]] [[B]] ; CHECK: OpReturnValue [[C]] ; CHECK-NEXT: OpFunctionEnd declare float @llvm.fma.f32(float, float, float) ;; Test fma on scalar: define float @scalar_fma(float %a, float %b, float %c) { %r = call float @llvm.fma.f32(float %a, float %b, float %c) ret float %r } ; CHECK: [[SCALAR_FMA]] = OpFunction ; CHECK-NEXT: [[A:%.+]] = OpFunctionParameter [[SCALAR]] ; CHECK-NEXT: [[B:%.+]] = OpFunctionParameter [[SCALAR]] ; CHECK-NEXT: [[C:%.+]] = OpFunctionParameter [[SCALAR]] ; CHECK: OpLabel ; CHECK: [[R:%.+]] = OpExtInst [[SCALAR]] {{%.+}} fma [[A]] [[B]] [[C]] ; CHECK: OpReturnValue [[R]] ; CHECK-NEXT: OpFunctionEnd