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llvm-mirror/test/CodeGen/ARM/vfcmp.ll

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; RUN: llc < %s -march=arm -mattr=+neon | FileCheck %s
; This tests fcmp operations that do not map directly to NEON instructions.
; une is implemented with VCEQ/VMVN
define <2 x i32> @vcunef32(<2 x float>* %A, <2 x float>* %B) nounwind {
;CHECK: vcunef32:
;CHECK: vceq.f32
;CHECK-NEXT: vmvn
%tmp1 = load <2 x float>* %A
%tmp2 = load <2 x float>* %B
%tmp3 = fcmp une <2 x float> %tmp1, %tmp2
%tmp4 = sext <2 x i1> %tmp3 to <2 x i32>
ret <2 x i32> %tmp4
}
; olt is implemented with VCGT
define <2 x i32> @vcoltf32(<2 x float>* %A, <2 x float>* %B) nounwind {
;CHECK: vcoltf32:
;CHECK: vcgt.f32
%tmp1 = load <2 x float>* %A
%tmp2 = load <2 x float>* %B
%tmp3 = fcmp olt <2 x float> %tmp1, %tmp2
%tmp4 = sext <2 x i1> %tmp3 to <2 x i32>
ret <2 x i32> %tmp4
}
; ole is implemented with VCGE
define <2 x i32> @vcolef32(<2 x float>* %A, <2 x float>* %B) nounwind {
;CHECK: vcolef32:
;CHECK: vcge.f32
%tmp1 = load <2 x float>* %A
%tmp2 = load <2 x float>* %B
%tmp3 = fcmp ole <2 x float> %tmp1, %tmp2
%tmp4 = sext <2 x i1> %tmp3 to <2 x i32>
ret <2 x i32> %tmp4
}
; uge is implemented with VCGT/VMVN
define <2 x i32> @vcugef32(<2 x float>* %A, <2 x float>* %B) nounwind {
;CHECK: vcugef32:
;CHECK: vcgt.f32
;CHECK-NEXT: vmvn
%tmp1 = load <2 x float>* %A
%tmp2 = load <2 x float>* %B
%tmp3 = fcmp uge <2 x float> %tmp1, %tmp2
%tmp4 = sext <2 x i1> %tmp3 to <2 x i32>
ret <2 x i32> %tmp4
}
; ule is implemented with VCGT/VMVN
define <2 x i32> @vculef32(<2 x float>* %A, <2 x float>* %B) nounwind {
;CHECK: vculef32:
;CHECK: vcgt.f32
;CHECK-NEXT: vmvn
%tmp1 = load <2 x float>* %A
%tmp2 = load <2 x float>* %B
%tmp3 = fcmp ule <2 x float> %tmp1, %tmp2
%tmp4 = sext <2 x i1> %tmp3 to <2 x i32>
ret <2 x i32> %tmp4
}
; ugt is implemented with VCGE/VMVN
define <2 x i32> @vcugtf32(<2 x float>* %A, <2 x float>* %B) nounwind {
;CHECK: vcugtf32:
;CHECK: vcge.f32
;CHECK-NEXT: vmvn
%tmp1 = load <2 x float>* %A
%tmp2 = load <2 x float>* %B
%tmp3 = fcmp ugt <2 x float> %tmp1, %tmp2
%tmp4 = sext <2 x i1> %tmp3 to <2 x i32>
ret <2 x i32> %tmp4
}
; ult is implemented with VCGE/VMVN
define <2 x i32> @vcultf32(<2 x float>* %A, <2 x float>* %B) nounwind {
;CHECK: vcultf32:
;CHECK: vcge.f32
;CHECK-NEXT: vmvn
%tmp1 = load <2 x float>* %A
%tmp2 = load <2 x float>* %B
%tmp3 = fcmp ult <2 x float> %tmp1, %tmp2
%tmp4 = sext <2 x i1> %tmp3 to <2 x i32>
ret <2 x i32> %tmp4
}
; ueq is implemented with VCGT/VCGT/VORR/VMVN
define <2 x i32> @vcueqf32(<2 x float>* %A, <2 x float>* %B) nounwind {
;CHECK: vcueqf32:
;CHECK: vcgt.f32
;CHECK-NEXT: vcgt.f32
;CHECK-NEXT: vorr
;CHECK-NEXT: vmvn
%tmp1 = load <2 x float>* %A
%tmp2 = load <2 x float>* %B
%tmp3 = fcmp ueq <2 x float> %tmp1, %tmp2
%tmp4 = sext <2 x i1> %tmp3 to <2 x i32>
ret <2 x i32> %tmp4
}
; one is implemented with VCGT/VCGT/VORR
define <2 x i32> @vconef32(<2 x float>* %A, <2 x float>* %B) nounwind {
;CHECK: vconef32:
;CHECK: vcgt.f32
;CHECK-NEXT: vcgt.f32
;CHECK-NEXT: vorr
%tmp1 = load <2 x float>* %A
%tmp2 = load <2 x float>* %B
%tmp3 = fcmp one <2 x float> %tmp1, %tmp2
%tmp4 = sext <2 x i1> %tmp3 to <2 x i32>
ret <2 x i32> %tmp4
}
; uno is implemented with VCGT/VCGE/VORR/VMVN
define <2 x i32> @vcunof32(<2 x float>* %A, <2 x float>* %B) nounwind {
;CHECK: vcunof32:
;CHECK: vcge.f32
;CHECK-NEXT: vcgt.f32
;CHECK-NEXT: vorr
;CHECK-NEXT: vmvn
%tmp1 = load <2 x float>* %A
%tmp2 = load <2 x float>* %B
%tmp3 = fcmp uno <2 x float> %tmp1, %tmp2
%tmp4 = sext <2 x i1> %tmp3 to <2 x i32>
ret <2 x i32> %tmp4
}
; ord is implemented with VCGT/VCGE/VORR
define <2 x i32> @vcordf32(<2 x float>* %A, <2 x float>* %B) nounwind {
;CHECK: vcordf32:
;CHECK: vcge.f32
;CHECK-NEXT: vcgt.f32
;CHECK-NEXT: vorr
%tmp1 = load <2 x float>* %A
%tmp2 = load <2 x float>* %B
%tmp3 = fcmp ord <2 x float> %tmp1, %tmp2
%tmp4 = sext <2 x i1> %tmp3 to <2 x i32>
ret <2 x i32> %tmp4
}