hvx-dual-output.ll
1.68 KB
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; RUN: llc -march=hexagon < %s | FileCheck %s
; Test that we compile the HVX dual output intrinsics.
; CHECK-LABEL: f0:
; CHECK: v{{[0-9]+}}.w = vadd(v{{[0-9]+}}.w,v{{[0-9]+}}.w,q{{[0-3]}}):carry
define inreg <16 x i32> @f0(<16 x i32> %a0, <16 x i32> %a1, i8* nocapture readonly %a2) #0 {
b0:
%v0 = bitcast i8* %a2 to <16 x i32>*
%v1 = load <16 x i32>, <16 x i32>* %v0, align 64
%v2 = tail call <64 x i1> @llvm.hexagon.V6.vandvrt(<16 x i32> %v1, i32 -1)
%v3 = tail call { <16 x i32>, <64 x i1> } @llvm.hexagon.V6.vaddcarry(<16 x i32> %a0, <16 x i32> %a1, <64 x i1> %v2)
%v4 = extractvalue { <16 x i32>, <64 x i1> } %v3, 0
ret <16 x i32> %v4
}
; CHECK-LABEL: f1:
; CHECK: v{{[0-9]+}}.w = vsub(v{{[0-9]+}}.w,v{{[0-9]+}}.w,q{{[0-3]}}):carry
define inreg <16 x i32> @f1(<16 x i32> %a0, <16 x i32> %a1, i8* nocapture readonly %a2) #0 {
b0:
%v0 = bitcast i8* %a2 to <16 x i32>*
%v1 = load <16 x i32>, <16 x i32>* %v0, align 64
%v2 = tail call <64 x i1> @llvm.hexagon.V6.vandvrt(<16 x i32> %v1, i32 -1)
%v3 = tail call { <16 x i32>, <64 x i1> } @llvm.hexagon.V6.vsubcarry(<16 x i32> %a0, <16 x i32> %a1, <64 x i1> %v2)
%v4 = extractvalue { <16 x i32>, <64 x i1> } %v3, 0
ret <16 x i32> %v4
}
; Function Attrs: nounwind readnone
declare { <16 x i32>, <64 x i1> } @llvm.hexagon.V6.vaddcarry(<16 x i32>, <16 x i32>, <64 x i1>) #1
; Function Attrs: nounwind readnone
declare { <16 x i32>, <64 x i1> } @llvm.hexagon.V6.vsubcarry(<16 x i32>, <16 x i32>, <64 x i1>) #1
; Function Attrs: nounwind readnone
declare <64 x i1> @llvm.hexagon.V6.vandvrt(<16 x i32>, i32) #1
attributes #0 = { nounwind "target-cpu"="hexagonv65" "target-features"="+hvxv65,+hvx-length64b" }
attributes #1 = { nounwind readnone }