908 lines
37 KiB
LLVM
908 lines
37 KiB
LLVM
; REQUIRES: asserts
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; RUN: opt -passes=loop-vectorize -debug-only=loop-vectorize -force-vector-interleave=1 -force-vector-width=4 -prefer-inloop-reductions -enable-interleaved-mem-accesses=true -enable-masked-interleaved-mem-accesses -force-widen-divrem-via-safe-divisor=0 -disable-output %s 2>&1 | FileCheck %s
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target datalayout = "e-p:64:64:64-i1:8:8-i8:8:8-i16:16:16-i32:32:32-i64:64:64-f32:32:32-f64:64:64-v64:64:64-v128:128:128-a0:0:64-s0:64:64-f80:128:128-n8:16:32:64-S128"
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; Tests for printing VPlans.
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define void @print_call_and_memory(i64 %n, ptr noalias %y, ptr noalias %x) nounwind uwtable {
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; CHECK-LABEL: Checking a loop in 'print_call_and_memory'
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; CHECK: VPlan 'Initial VPlan for VF={4},UF>=1' {
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; CHECK-NEXT: Live-in vp<[[VFxUF:%.]]> = VF * UF
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; CHECK-NEXT: Live-in vp<[[VEC_TC:%.+]]> = vector-trip-count
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; CHECK-NEXT: Live-in ir<%n> = original trip-count
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; CHECK-EMPTY:
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; CHECK-NEXT: vector.ph:
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; CHECK-NEXT: Successor(s): vector loop
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; CHECK-EMPTY:
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; CHECK-NEXT: <x1> vector loop: {
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; CHECK-NEXT: vector.body:
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; CHECK-NEXT: EMIT vp<[[CAN_IV:%.+]]> = CANONICAL-INDUCTION ir<0>, vp<[[CAN_IV_NEXT:%.+]]>
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; CHECK-NEXT: vp<[[STEPS:%.+]]> = SCALAR-STEPS vp<[[CAN_IV]]>, ir<1>
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; CHECK-NEXT: CLONE ir<%arrayidx> = getelementptr inbounds ir<%y>, vp<[[STEPS]]>
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; CHECK-NEXT: vp<[[VEC_PTR:%.+]]> = vector-pointer ir<%arrayidx>
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; CHECK-NEXT: WIDEN ir<%lv> = load vp<[[VEC_PTR]]>
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; CHECK-NEXT: WIDEN-CALL ir<%call> = call @llvm.sqrt.f32(ir<%lv>)
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; CHECK-NEXT: CLONE ir<%arrayidx2> = getelementptr inbounds ir<%x>, vp<[[STEPS]]>
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; CHECK-NEXT: vp<[[VEC_PTR2:%.+]]> = vector-pointer ir<%arrayidx2>
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; CHECK-NEXT: WIDEN store vp<[[VEC_PTR2]]>, ir<%call>
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; CHECK-NEXT: EMIT vp<[[CAN_IV_NEXT]]> = add nuw vp<[[CAN_IV]]>, vp<[[VFxUF]]>
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; CHECK-NEXT: EMIT branch-on-count vp<[[CAN_IV_NEXT]]>, vp<[[VEC_TC]]>
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; CHECK-NEXT: No successors
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; CHECK-NEXT: }
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; CHECK-NEXT: Successor(s): middle.block
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; CHECK-EMPTY:
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; CHECK-NEXT: middle.block:
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; CHECK-NEXT: No successors
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; CHECK-NEXT: }
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;
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entry:
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%cmp6 = icmp sgt i64 %n, 0
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br i1 %cmp6, label %for.body, label %for.end
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for.body: ; preds = %entry, %for.body
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%iv = phi i64 [ %iv.next, %for.body ], [ 0, %entry ]
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%arrayidx = getelementptr inbounds float, ptr %y, i64 %iv
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%lv = load float, ptr %arrayidx, align 4
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%call = tail call float @llvm.sqrt.f32(float %lv) nounwind readnone
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%arrayidx2 = getelementptr inbounds float, ptr %x, i64 %iv
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store float %call, ptr %arrayidx2, align 4
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%iv.next = add i64 %iv, 1
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%exitcond = icmp eq i64 %iv.next, %n
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br i1 %exitcond, label %for.end, label %for.body
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for.end: ; preds = %for.body, %entry
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ret void
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}
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define void @print_widen_gep_and_select(i64 %n, ptr noalias %y, ptr noalias %x, ptr %z) nounwind uwtable {
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; CHECK-LABEL: Checking a loop in 'print_widen_gep_and_select'
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; CHECK: VPlan 'Initial VPlan for VF={4},UF>=1' {
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; CHECK-NEXT: Live-in vp<[[VFxUF:%.]]> = VF * UF
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; CHECK-NEXT: Live-in vp<[[VEC_TC:%.+]]> = vector-trip-count
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; CHECK-NEXT: Live-in ir<%n> = original trip-count
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; CHECK-EMPTY:
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; CHECK-NEXT: vector.ph:
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; CHECK-NEXT: Successor(s): vector loop
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; CHECK-EMPTY:
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; CHECK-NEXT: <x1> vector loop: {
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; CHECK-NEXT: vector.body:
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; CHECK-NEXT: EMIT vp<[[CAN_IV:%.+]]> = CANONICAL-INDUCTION ir<0>, vp<[[CAN_IV_NEXT:%.+]]>
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; CHECK-NEXT: WIDEN-INDUCTION %iv = phi %iv.next, 0, ir<1>
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; CHECK-NEXT: vp<[[STEPS:%.+]]> = SCALAR-STEPS vp<[[CAN_IV]]>, ir<1>
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; CHECK-NEXT: WIDEN-GEP Inv[Var] ir<%arrayidx> = getelementptr inbounds ir<%y>, ir<%iv>
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; CHECK-NEXT: vp<[[VEC_PTR:%.+]]> = vector-pointer ir<%arrayidx>
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; CHECK-NEXT: WIDEN ir<%lv> = load vp<[[VEC_PTR]]>
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; CHECK-NEXT: WIDEN ir<%cmp> = icmp eq ir<%arrayidx>, ir<%z>
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; CHECK-NEXT: WIDEN-SELECT ir<%sel> = select ir<%cmp>, ir<1.000000e+01>, ir<2.000000e+01>
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; CHECK-NEXT: WIDEN ir<%add> = fadd ir<%lv>, ir<%sel>
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; CHECK-NEXT: CLONE ir<%arrayidx2> = getelementptr inbounds ir<%x>, vp<[[STEPS]]>
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; CHECK-NEXT: vp<[[VEC_PTR2:%.+]]> = vector-pointer ir<%arrayidx2>
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; CHECK-NEXT: WIDEN store vp<[[VEC_PTR2]]>, ir<%add>
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; CHECK-NEXT: EMIT vp<[[CAN_IV_NEXT]]> = add nuw vp<[[CAN_IV]]>, vp<[[VFxUF]]>
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; CHECK-NEXT: EMIT branch-on-count vp<[[CAN_IV_NEXT]]>, vp<[[VEC_TC]]>
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; CHECK-NEXT: No successors
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; CHECK-NEXT: }
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; CHECK-NEXT: Successor(s): middle.block
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; CHECK-EMPTY:
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; CHECK-NEXT: middle.block:
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; CHECK-NEXT: No successors
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; CHECK-NEXT: }
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;
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entry:
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%cmp6 = icmp sgt i64 %n, 0
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br i1 %cmp6, label %for.body, label %for.end
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for.body: ; preds = %entry, %for.body
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%iv = phi i64 [ %iv.next, %for.body ], [ 0, %entry ]
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%arrayidx = getelementptr inbounds float, ptr %y, i64 %iv
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%lv = load float, ptr %arrayidx, align 4
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%cmp = icmp eq ptr %arrayidx, %z
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%sel = select i1 %cmp, float 10.0, float 20.0
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%add = fadd float %lv, %sel
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%arrayidx2 = getelementptr inbounds float, ptr %x, i64 %iv
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store float %add, ptr %arrayidx2, align 4
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%iv.next = add i64 %iv, 1
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%exitcond = icmp eq i64 %iv.next, %n
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br i1 %exitcond, label %for.end, label %for.body
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for.end: ; preds = %for.body, %entry
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ret void
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}
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define float @print_reduction(i64 %n, ptr noalias %y) {
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; CHECK-LABEL: Checking a loop in 'print_reduction'
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; CHECK: VPlan 'Initial VPlan for VF={4},UF>=1' {
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; CHECK-NEXT: Live-in vp<[[VFxUF:%.]]> = VF * UF
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; CHECK-NEXT: Live-in vp<[[VEC_TC:%.+]]> = vector-trip-count
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; CHECK-NEXT: Live-in ir<%n> = original trip-count
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; CHECK-EMPTY:
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; CHECK-NEXT: vector.ph:
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; CHECK-NEXT: Successor(s): vector loop
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; CHECK-EMPTY:
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; CHECK-NEXT: <x1> vector loop: {
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; CHECK-NEXT: vector.body:
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; CHECK-NEXT: EMIT vp<[[CAN_IV:%.+]]> = CANONICAL-INDUCTION ir<0>, vp<[[CAN_IV_NEXT:%.+]]>
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; CHECK-NEXT: WIDEN-REDUCTION-PHI ir<%red> = phi ir<0.000000e+00>, ir<%red.next>
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; CHECK-NEXT: vp<[[STEPS:%.+]]> = SCALAR-STEPS vp<[[CAN_IV]]>, ir<1>
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; CHECK-NEXT: CLONE ir<%arrayidx> = getelementptr inbounds ir<%y>, vp<[[STEPS]]>
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; CHECK-NEXT: vp<[[VEC_PTR:%.+]]> = vector-pointer ir<%arrayidx>
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; CHECK-NEXT: WIDEN ir<%lv> = load vp<[[VEC_PTR]]>
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; CHECK-NEXT: REDUCE ir<%red.next> = ir<%red> + fast reduce.fadd (ir<%lv>)
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; CHECK-NEXT: EMIT vp<[[CAN_IV_NEXT]]> = add nuw vp<[[CAN_IV]]>, vp<[[VFxUF]]>
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; CHECK-NEXT: EMIT branch-on-count vp<[[CAN_IV_NEXT]]>, vp<[[VEC_TC]]>
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; CHECK-NEXT: No successors
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; CHECK-NEXT: }
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; CHECK-NEXT: Successor(s): middle.block
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; CHECK-EMPTY:
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; CHECK-NEXT: middle.block:
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; CHECK-NEXT: EMIT vp<[[RED_RES:%.+]]> = compute-reduction-result ir<%red>, ir<%red.next>
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; CHECK-NEXT: No successors
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; CHECK-EMPTY:
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; CHECK-NEXT: Live-out float %red.next.lcssa = vp<[[RED_RES]]>
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; CHECK-NEXT: }
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;
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entry:
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br label %for.body
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for.body: ; preds = %entry, %for.body
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%iv = phi i64 [ %iv.next, %for.body ], [ 0, %entry ]
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%red = phi float [ %red.next, %for.body ], [ 0.0, %entry ]
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%arrayidx = getelementptr inbounds float, ptr %y, i64 %iv
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%lv = load float, ptr %arrayidx, align 4
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%red.next = fadd fast float %lv, %red
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%iv.next = add i64 %iv, 1
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%exitcond = icmp eq i64 %iv.next, %n
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br i1 %exitcond, label %for.end, label %for.body
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for.end: ; preds = %for.body, %entry
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ret float %red.next
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}
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define void @print_reduction_with_invariant_store(i64 %n, ptr noalias %y, ptr noalias %dst) {
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; CHECK-LABEL: Checking a loop in 'print_reduction_with_invariant_store'
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; CHECK: VPlan 'Initial VPlan for VF={4},UF>=1' {
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; CHECK-NEXT: Live-in vp<[[VFxUF:%.]]> = VF * UF
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; CHECK-NEXT: Live-in vp<[[VEC_TC:%.+]]> = vector-trip-count
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; CHECK-NEXT: Live-in ir<%n> = original trip-count
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; CHECK-EMPTY:
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; CHECK-NEXT: vector.ph:
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; CHECK-NEXT: Successor(s): vector loop
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; CHECK-EMPTY:
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; CHECK-NEXT: <x1> vector loop: {
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; CHECK-NEXT: vector.body:
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; CHECK-NEXT: EMIT vp<[[CAN_IV:%.+]]> = CANONICAL-INDUCTION ir<0>, vp<[[CAN_IV_NEXT:%.+]]>
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; CHECK-NEXT: WIDEN-REDUCTION-PHI ir<%red> = phi ir<0.000000e+00>, ir<%red.next>
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; CHECK-NEXT: vp<[[IV:%.+]]> = SCALAR-STEPS vp<[[CAN_IV]]>, ir<1>
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; CHECK-NEXT: CLONE ir<%arrayidx> = getelementptr inbounds ir<%y>, vp<[[IV]]>
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; CHECK-NEXT: vp<[[VEC_PTR:%.+]]> = vector-pointer ir<%arrayidx>
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; CHECK-NEXT: WIDEN ir<%lv> = load vp<[[VEC_PTR]]>
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; CHECK-NEXT: REDUCE ir<%red.next> = ir<%red> + fast reduce.fadd (ir<%lv>) (with final reduction value stored in invariant address sank outside of loop)
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; CHECK-NEXT: EMIT vp<[[CAN_IV_NEXT]]> = add nuw vp<[[CAN_IV]]>, vp<[[VFxUF]]>
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; CHECK-NEXT: EMIT branch-on-count vp<[[CAN_IV_NEXT]]>, vp<[[VEC_TC]]>
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; CHECK-NEXT: No successors
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; CHECK-NEXT: }
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; CHECK-NEXT: Successor(s): middle.block
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; CHECK-EMPTY:
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; CHECK-NEXT: middle.block:
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; CHECK-NEXT: EMIT vp<[[RED_RES:.+]]> = compute-reduction-result ir<%red>, ir<%red.next>
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; CHECK-NEXT: No successors
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; CHECK-NEXT: }
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;
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entry:
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br label %for.body
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for.body: ; preds = %entry, %for.body
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%iv = phi i64 [ %iv.next, %for.body ], [ 0, %entry ]
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%red = phi float [ %red.next, %for.body ], [ 0.0, %entry ]
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%arrayidx = getelementptr inbounds float, ptr %y, i64 %iv
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%lv = load float, ptr %arrayidx, align 4
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%red.next = fadd fast float %lv, %red
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store float %red.next, ptr %dst, align 4
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%iv.next = add i64 %iv, 1
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%exitcond = icmp eq i64 %iv.next, %n
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br i1 %exitcond, label %for.end, label %for.body
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for.end: ; preds = %for.body, %entry
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ret void
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}
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define void @print_replicate_predicated_phi(i64 %n, ptr %x) {
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; CHECK-LABEL: Checking a loop in 'print_replicate_predicated_phi'
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; CHECK: VPlan 'Initial VPlan for VF={4},UF>=1' {
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; CHECK-NEXT: Live-in vp<[[VFxUF:%.]]> = VF * UF
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; CHECK-NEXT: Live-in vp<[[VEC_TC:%.+]]> = vector-trip-count
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; CHECK-NEXT: vp<[[TC:%.+]]> = original trip-count
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; CHECK-EMPTY:
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; CHECK-NEXT: ph:
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; CHECK-NEXT: EMIT vp<[[TC]]> = EXPAND SCEV (1 smax %n)
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; CHECK-NEXT: No successors
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; CHECK-EMPTY:
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; CHECK-NEXT: vector.ph:
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; CHECK-NEXT: Successor(s): vector loop
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; CHECK-EMPTY:
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; CHECK-NEXT: <x1> vector loop: {
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; CHECK-NEXT: vector.body:
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; CHECK-NEXT: EMIT vp<[[CAN_IV:%.+]]> = CANONICAL-INDUCTION ir<0>, vp<[[CAN_IV_NEXT:%.+]]>
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; CHECK-NEXT: WIDEN-INDUCTION %i = phi 0, %i.next, ir<1>
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; CHECK-NEXT: vp<[[STEPS:%.+]]> = SCALAR-STEPS vp<[[CAN_IV]]>, ir<1>
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; CHECK-NEXT: WIDEN ir<%cmp> = icmp ult ir<%i>, ir<5>
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; CHECK-NEXT: Successor(s): pred.udiv
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; CHECK-EMPTY:
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; CHECK-NEXT: <xVFxUF> pred.udiv: {
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; CHECK-NEXT: pred.udiv.entry:
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; CHECK-NEXT: BRANCH-ON-MASK ir<%cmp>
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; CHECK-NEXT: Successor(s): pred.udiv.if, pred.udiv.continue
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; CHECK-EMPTY:
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; CHECK-NEXT: pred.udiv.if:
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; CHECK-NEXT: REPLICATE ir<%tmp4> = udiv ir<%n>, vp<[[STEPS]]> (S->V)
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; CHECK-NEXT: Successor(s): pred.udiv.continue
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; CHECK-EMPTY:
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; CHECK-NEXT: pred.udiv.continue:
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; CHECK-NEXT: PHI-PREDICATED-INSTRUCTION vp<[[PRED:%.+]]> = ir<%tmp4>
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; CHECK-NEXT: No successors
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; CHECK-NEXT: }
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; CHECK-NEXT: Successor(s): if.then.0
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; CHECK-EMPTY:
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; CHECK-NEXT: if.then.0:
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; CHECK-NEXT: EMIT vp<[[NOT:%.+]]> = not ir<%cmp>
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; CHECK-NEXT: BLEND ir<%d> = ir<0>/vp<[[NOT]]> vp<[[PRED]]>/ir<%cmp>
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; CHECK-NEXT: CLONE ir<%idx> = getelementptr ir<%x>, vp<[[STEPS]]>
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; CHECK-NEXT: vp<[[VEC_PTR:%.+]]> = vector-pointer ir<%idx>
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; CHECK-NEXT: WIDEN store vp<[[VEC_PTR]]>, ir<%d>
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; CHECK-NEXT: EMIT vp<[[CAN_IV_NEXT]]> = add nuw vp<[[CAN_IV]]>, vp<[[VFxUF]]>
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; CHECK-NEXT: EMIT branch-on-count vp<[[CAN_IV_NEXT]]>, vp<[[VEC_TC]]>
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; CHECK-NEXT: No successors
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; CHECK-NEXT: }
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; CHECK-NEXT: Successor(s): middle.block
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; CHECK-EMPTY:
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; CHECK-NEXT: middle.block:
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; CHECK-NEXT: No successors
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; CHECK-NEXT: }
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;
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entry:
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br label %for.body
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for.body: ; preds = %for.inc, %entry
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%i = phi i64 [ 0, %entry ], [ %i.next, %for.inc ]
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%cmp = icmp ult i64 %i, 5
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br i1 %cmp, label %if.then, label %for.inc
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if.then: ; preds = %for.body
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%tmp4 = udiv i64 %n, %i
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br label %for.inc
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for.inc: ; preds = %if.then, %for.body
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%d = phi i64 [ 0, %for.body ], [ %tmp4, %if.then ]
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%idx = getelementptr i64, ptr %x, i64 %i
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store i64 %d, ptr %idx
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%i.next = add nuw nsw i64 %i, 1
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%cond = icmp slt i64 %i.next, %n
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br i1 %cond, label %for.body, label %for.end
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for.end: ; preds = %for.inc
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ret void
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}
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@AB = common global [1024 x i32] zeroinitializer, align 4
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@CD = common global [1024 x i32] zeroinitializer, align 4
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define void @print_interleave_groups(i32 %C, i32 %D) {
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; CHECK-LABEL: Checking a loop in 'print_interleave_groups'
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; CHECK: VPlan 'Initial VPlan for VF={4},UF>=1' {
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; CHECK-NEXT: Live-in vp<[[VFxUF:%.]]> = VF * UF
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; CHECK-NEXT: Live-in vp<[[VEC_TC:%.+]]> = vector-trip-count
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; CHECK-NEXT: Live-in ir<256> = original trip-count
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; CHECK-EMPTY:
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; CHECK-NEXT: vector.ph:
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; CHECK-NEXT: Successor(s): vector loop
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; CHECK-EMPTY:
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; CHECK-NEXT: <x1> vector loop: {
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; CHECK-NEXT: vector.body:
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; CHECK-NEXT: EMIT vp<[[CAN_IV:%.+]]> = CANONICAL-INDUCTION ir<0>, vp<[[CAN_IV_NEXT:%.+]]>
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; CHECK-NEXT: vp<[[DERIVED_IV:%.+]]> = DERIVED-IV ir<0> + vp<[[CAN_IV]]> * ir<4>
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; CHECK-NEXT: vp<[[STEPS:%.+]]> = SCALAR-STEPS vp<[[DERIVED_IV]]>, ir<4>
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; CHECK-NEXT: CLONE ir<%gep.AB.0> = getelementptr inbounds ir<@AB>, ir<0>, vp<[[STEPS]]>
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; CHECK-NEXT: INTERLEAVE-GROUP with factor 4 at %AB.0, ir<%gep.AB.0>
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; CHECK-NEXT: ir<%AB.0> = load from index 0
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; CHECK-NEXT: ir<%AB.1> = load from index 1
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; CHECK-NEXT: ir<%AB.3> = load from index 3
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; CHECK-NEXT: CLONE ir<%iv.plus.3> = add vp<[[STEPS]]>, ir<3>
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; CHECK-NEXT: WIDEN ir<%add> = add nsw ir<%AB.0>, ir<%AB.1>
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; CHECK-NEXT: CLONE ir<%gep.CD.3> = getelementptr inbounds ir<@CD>, ir<0>, ir<%iv.plus.3>
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; CHECK-NEXT: INTERLEAVE-GROUP with factor 4 at <badref>, ir<%gep.CD.3>
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; CHECK-NEXT: store ir<%add> to index 0
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; CHECK-NEXT: store ir<1> to index 1
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; CHECK-NEXT: store ir<2> to index 2
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; CHECK-NEXT: store ir<%AB.3> to index 3
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; CHECK-NEXT: EMIT vp<[[CAN_IV_NEXT]]> = add nuw vp<[[CAN_IV]]>, vp<[[VFxUF]]>
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; CHECK-NEXT: EMIT branch-on-count vp<[[CAN_IV_NEXT]]>, vp<[[VEC_TC]]>
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; CHECK-NEXT: No successors
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; CHECK-NEXT: }
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; CHECK-NEXT: Successor(s): middle.block
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; CHECK-EMPTY:
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; CHECK-NEXT: middle.block:
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; CHECK-NEXT: No successors
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; CHECK-NEXT: }
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;
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entry:
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br label %for.body
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for.body:
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%iv = phi i64 [ 0, %entry ], [ %iv.next, %for.body ]
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%gep.AB.0= getelementptr inbounds [1024 x i32], ptr @AB, i64 0, i64 %iv
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%AB.0 = load i32, ptr %gep.AB.0, align 4
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|
%iv.plus.1 = add i64 %iv, 1
|
|
%gep.AB.1 = getelementptr inbounds [1024 x i32], ptr @AB, i64 0, i64 %iv.plus.1
|
|
%AB.1 = load i32, ptr %gep.AB.1, align 4
|
|
%iv.plus.2 = add i64 %iv, 2
|
|
%iv.plus.3 = add i64 %iv, 3
|
|
%gep.AB.3 = getelementptr inbounds [1024 x i32], ptr @AB, i64 0, i64 %iv.plus.3
|
|
%AB.3 = load i32, ptr %gep.AB.3, align 4
|
|
%add = add nsw i32 %AB.0, %AB.1
|
|
%gep.CD.0 = getelementptr inbounds [1024 x i32], ptr @CD, i64 0, i64 %iv
|
|
store i32 %add, ptr %gep.CD.0, align 4
|
|
%gep.CD.1 = getelementptr inbounds [1024 x i32], ptr @CD, i64 0, i64 %iv.plus.1
|
|
store i32 1, ptr %gep.CD.1, align 4
|
|
%gep.CD.2 = getelementptr inbounds [1024 x i32], ptr @CD, i64 0, i64 %iv.plus.2
|
|
store i32 2, ptr %gep.CD.2, align 4
|
|
%gep.CD.3 = getelementptr inbounds [1024 x i32], ptr @CD, i64 0, i64 %iv.plus.3
|
|
store i32 %AB.3, ptr %gep.CD.3, align 4
|
|
%iv.next = add nuw nsw i64 %iv, 4
|
|
%cmp = icmp slt i64 %iv.next, 1024
|
|
br i1 %cmp, label %for.body, label %for.end
|
|
|
|
for.end:
|
|
ret void
|
|
}
|
|
|
|
define float @print_fmuladd_strict(ptr %a, ptr %b, i64 %n) {
|
|
; CHECK-LABEL: Checking a loop in 'print_fmuladd_strict'
|
|
; CHECK: VPlan 'Initial VPlan for VF={4},UF>=1' {
|
|
; CHECK-NEXT: Live-in vp<[[VFxUF:%.]]> = VF * UF
|
|
; CHECK-NEXT: Live-in vp<[[VEC_TC:%.+]]> = vector-trip-count
|
|
; CHECK-NEXT: Live-in ir<%n> = original trip-count
|
|
; CHECK-EMPTY:
|
|
; CHECK-NEXT: vector.ph:
|
|
; CHECK-NEXT: Successor(s): vector loop
|
|
; CHECK-EMPTY:
|
|
; CHECK-NEXT: <x1> vector loop: {
|
|
; CHECK-NEXT: vector.body:
|
|
; CHECK-NEXT: EMIT vp<[[CAN_IV:%.+]]> = CANONICAL-INDUCTION ir<0>, vp<[[CAN_IV_NEXT:%.+]]>
|
|
; CHECK-NEXT: WIDEN-REDUCTION-PHI ir<%sum.07> = phi ir<0.000000e+00>, ir<%muladd>
|
|
; CHECK-NEXT: vp<[[STEPS:%.+]]> = SCALAR-STEPS vp<[[CAN_IV]]>, ir<1>
|
|
; CHECK-NEXT: CLONE ir<%arrayidx> = getelementptr inbounds ir<%a>, vp<[[STEPS]]>
|
|
; CHECK-NEXT: vp<[[VEC_PTR:%.+]]> = vector-pointer ir<%arrayidx>
|
|
; CHECK-NEXT: WIDEN ir<%l.a> = load vp<[[VEC_PTR]]>
|
|
; CHECK-NEXT: CLONE ir<%arrayidx2> = getelementptr inbounds ir<%b>, vp<[[STEPS]]>
|
|
; CHECK-NEXT: vp<[[VEC_PTR2:%.+]]> = vector-pointer ir<%arrayidx2>
|
|
; CHECK-NEXT: WIDEN ir<%l.b> = load vp<[[VEC_PTR2]]>
|
|
; CHECK-NEXT: EMIT vp<[[FMUL:%.+]]> = fmul nnan ninf nsz ir<%l.a>, ir<%l.b>
|
|
; CHECK-NEXT: REDUCE ir<[[MULADD:%.+]]> = ir<%sum.07> + nnan ninf nsz reduce.fadd (vp<[[FMUL]]>)
|
|
; CHECK-NEXT: EMIT vp<[[CAN_IV_NEXT]]> = add nuw vp<[[CAN_IV]]>, vp<[[VFxUF]]>
|
|
; CHECK-NEXT: EMIT branch-on-count vp<[[CAN_IV_NEXT]]>, vp<[[VEC_TC]]>
|
|
; CHECK-NEXT: No successors
|
|
; CHECK-NEXT: }
|
|
; CHECK-NEXT: Successor(s): middle.block
|
|
; CHECK-EMPTY:
|
|
; CHECK-NEXT: middle.block:
|
|
; CHECK-NEXT: EMIT vp<[[RED_RES:%.+]]> = compute-reduction-result ir<%sum.07>, ir<[[MULADD]]>
|
|
; CHECK-NEXT: No successors
|
|
; CHECK-EMPTY:
|
|
; CHECK-NEXT: Live-out float %muladd.lcssa = vp<[[RED_RES]]>
|
|
; CHECK-NEXT:}
|
|
|
|
entry:
|
|
br label %for.body
|
|
|
|
for.body:
|
|
%iv = phi i64 [ 0, %entry ], [ %iv.next, %for.body ]
|
|
%sum.07 = phi float [ 0.000000e+00, %entry ], [ %muladd, %for.body ]
|
|
%arrayidx = getelementptr inbounds float, ptr %a, i64 %iv
|
|
%l.a = load float, ptr %arrayidx, align 4
|
|
%arrayidx2 = getelementptr inbounds float, ptr %b, i64 %iv
|
|
%l.b = load float, ptr %arrayidx2, align 4
|
|
%muladd = tail call nnan ninf nsz float @llvm.fmuladd.f32(float %l.a, float %l.b, float %sum.07)
|
|
%iv.next = add nuw nsw i64 %iv, 1
|
|
%exitcond.not = icmp eq i64 %iv.next, %n
|
|
br i1 %exitcond.not, label %for.end, label %for.body
|
|
|
|
for.end:
|
|
ret float %muladd
|
|
}
|
|
|
|
define void @debug_loc_vpinstruction(ptr nocapture %asd, ptr nocapture %bsd) !dbg !5 {
|
|
; CHECK-LABEL: Checking a loop in 'debug_loc_vpinstruction'
|
|
; CHECK: VPlan 'Initial VPlan for VF={4},UF>=1' {
|
|
; CHECK-NEXT: Live-in vp<[[VFxUF:%.]]> = VF * UF
|
|
; CHECK-NEXT: Live-in vp<[[VEC_TC:%.+]]> = vector-trip-count
|
|
; CHECK-NEXT: Live-in ir<128> = original trip-count
|
|
; CHECK-EMPTY:
|
|
; CHECK-NEXT: vector.ph:
|
|
; CHECK-NEXT: Successor(s): vector loop
|
|
; CHECK-EMPTY:
|
|
; CHECK-NEXT: <x1> vector loop: {
|
|
; CHECK-NEXT: vector.body:
|
|
; CHECK-NEXT: EMIT vp<[[CAN_IV:%.+]]> = CANONICAL-INDUCTION ir<0>, vp<[[CAN_IV_NEXT:%.+]]>
|
|
; CHECK-NEXT: vp<[[STEPS:%.+]]> = SCALAR-STEPS vp<[[CAN_IV]]>, ir<1>
|
|
; CHECK-NEXT: CLONE ir<%isd> = getelementptr inbounds ir<%asd>, vp<[[STEPS]]>
|
|
; CHECK-NEXT: vp<[[VEC_PTR:%.+]]> = vector-pointer ir<%isd>
|
|
; CHECK-NEXT: WIDEN ir<%lsd> = load vp<[[VEC_PTR]]>
|
|
; CHECK-NEXT: WIDEN ir<%psd> = add nuw nsw ir<%lsd>, ir<23>
|
|
; CHECK-NEXT: WIDEN ir<%cmp1> = icmp slt ir<%lsd>, ir<100>
|
|
; CHECK-NEXT: EMIT vp<[[NOT1:%.+]]> = not ir<%cmp1>, !dbg /tmp/s.c:5:3
|
|
; CHECK-NEXT: WIDEN ir<%cmp2> = icmp sge ir<%lsd>, ir<200>
|
|
; CHECK-NEXT: EMIT vp<[[SEL1:%.+]]> = select vp<[[NOT1]]>, ir<%cmp2>, ir<false>, !dbg /tmp/s.c:5:21
|
|
; CHECK-NEXT: EMIT vp<[[OR1:%.+]]> = or vp<[[SEL1]]>, ir<%cmp1>
|
|
; CHECK-NEXT: Successor(s): pred.sdiv
|
|
; CHECK-EMPTY:
|
|
; CHECK-NEXT: <xVFxUF> pred.sdiv: {
|
|
; CHECK-NEXT: pred.sdiv.entry:
|
|
; CHECK-NEXT: BRANCH-ON-MASK vp<[[OR1]]>
|
|
; CHECK-NEXT: Successor(s): pred.sdiv.if, pred.sdiv.continue
|
|
; CHECK-EMPTY:
|
|
; CHECK-NEXT: pred.sdiv.if:
|
|
; CHECK-NEXT: REPLICATE ir<%sd1> = sdiv ir<%psd>, ir<%lsd> (S->V)
|
|
; CHECK-NEXT: Successor(s): pred.sdiv.continue
|
|
; CHECK-EMPTY:
|
|
; CHECK-NEXT: pred.sdiv.continue:
|
|
; CHECK-NEXT: PHI-PREDICATED-INSTRUCTION vp<[[PHI:%.+]]> = ir<%sd1>
|
|
; CHECK-NEXT: No successors
|
|
; CHECK-NEXT: }
|
|
; CHECK-NEXT: Successor(s): if.then.0
|
|
; CHECK-EMPTY:
|
|
; CHECK-NEXT: if.then.0:
|
|
; CHECK-NEXT: EMIT vp<[[NOT2:%.+]]> = not ir<%cmp2>
|
|
; CHECK-NEXT: EMIT vp<[[SEL2:%.+]]> = select vp<[[NOT1]]>, vp<[[NOT2]]>, ir<false>
|
|
; CHECK-NEXT: BLEND ir<%ysd.0> = vp<[[PHI]]>/vp<[[OR1]]> ir<%psd>/vp<[[SEL2]]>
|
|
; CHECK-NEXT: vp<[[VEC_PTR2:%.+]]> = vector-pointer ir<%isd>
|
|
; CHECK-NEXT: WIDEN store vp<[[VEC_PTR2]]>, ir<%ysd.0>
|
|
; CHECK-NEXT: EMIT vp<[[CAN_IV_NEXT]]> = add nuw vp<[[CAN_IV]]>, vp<[[VFxUF]]>
|
|
; CHECK-NEXT: EMIT branch-on-count vp<[[CAN_IV_NEXT]]>, vp<[[VEC_TC]]>
|
|
; CHECK-NEXT: No successors
|
|
; CHECK-NEXT:}
|
|
; CHECK-NEXT: Successor(s): middle.block
|
|
; CHECK-EMPTY:
|
|
; CHECK-NEXT: middle.block:
|
|
; CHECK-NEXT: No successors
|
|
; CHECK-NEXT:}
|
|
;
|
|
entry:
|
|
br label %loop
|
|
|
|
loop:
|
|
%iv = phi i64 [ 0, %entry ], [ %iv.next, %if.end ]
|
|
%isd = getelementptr inbounds i32, ptr %asd, i64 %iv
|
|
%lsd = load i32, ptr %isd, align 4
|
|
%psd = add nuw nsw i32 %lsd, 23
|
|
%cmp1 = icmp slt i32 %lsd, 100
|
|
br i1 %cmp1, label %if.then, label %check, !dbg !7
|
|
|
|
check:
|
|
%cmp2 = icmp sge i32 %lsd, 200
|
|
br i1 %cmp2, label %if.then, label %if.end, !dbg !8
|
|
|
|
if.then:
|
|
%sd1 = sdiv i32 %psd, %lsd
|
|
br label %if.end
|
|
|
|
if.end:
|
|
%ysd.0 = phi i32 [ %sd1, %if.then ], [ %psd, %check ]
|
|
store i32 %ysd.0, ptr %isd, align 4
|
|
%iv.next = add nuw nsw i64 %iv, 1
|
|
%exitcond = icmp eq i64 %iv.next, 128
|
|
br i1 %exitcond, label %exit, label %loop
|
|
|
|
exit:
|
|
ret void
|
|
}
|
|
|
|
declare float @llvm.sqrt.f32(float) nounwind readnone
|
|
declare float @llvm.fmuladd.f32(float, float, float)
|
|
|
|
define void @print_expand_scev(i64 %y, ptr %ptr) {
|
|
; CHECK-LABEL: Checking a loop in 'print_expand_scev'
|
|
; CHECK: VPlan 'Initial VPlan for VF={4},UF>=1' {
|
|
; CHECK-NEXT: Live-in vp<[[VFxUF:%.]]> = VF * UF
|
|
; CHECK-NEXT: Live-in vp<[[VTC:%.+]]> = vector-trip-count
|
|
; CHECK-NEXT: vp<[[TC:%.+]]> = original trip-count
|
|
; CHECK-EMPTY:
|
|
; CHECK-NEXT: ph:
|
|
; CHECK-NEXT: EMIT vp<[[TC]]> = EXPAND SCEV (1 + ((15 + (%y /u 492802768830814060))<nuw><nsw> /u (1 + (%y /u 492802768830814060))<nuw><nsw>))<nuw><nsw>
|
|
; CHECK-NEXT: EMIT vp<[[EXP_SCEV:%.+]]> = EXPAND SCEV (1 + (%y /u 492802768830814060))<nuw><nsw>
|
|
; CHECK-NEXT: No successors
|
|
; CHECK-EMPTY:
|
|
; CHECK-NEXT: vector.ph:
|
|
; CHECK-NEXT: Successor(s): vector loop
|
|
; CHECK-EMPTY:
|
|
; CHECK-NEXT: <x1> vector loop: {
|
|
; CHECK-NEXT: vector.body:
|
|
; CHECK-NEXT: EMIT vp<[[CAN_IV:%.+]]> = CANONICAL-INDUCTION ir<0>, vp<[[CAN_IV_NEXT:%.+]]>
|
|
; CHECK-NEXT: WIDEN-INDUCTION\l" +
|
|
; CHECK-NEXT: " %iv = phi %iv.next, 0\l" +
|
|
; CHECK-NEXT: " ir<%v2>, vp<[[EXP_SCEV]]>
|
|
; CHECK-NEXT: vp<[[DERIVED_IV:%.+]]> = DERIVED-IV ir<0> + vp<[[CAN_IV]]> * vp<[[EXP_SCEV]]>
|
|
; CHECK-NEXT: vp<[[STEPS:%.+]]> = SCALAR-STEPS vp<[[DERIVED_IV]]>, vp<[[EXP_SCEV]]>
|
|
; CHECK-NEXT: WIDEN ir<%v3> = add nuw ir<%v2>, ir<1>
|
|
; CHECK-NEXT: REPLICATE ir<%gep> = getelementptr inbounds ir<%ptr>, vp<[[STEPS]]>
|
|
; CHECK-NEXT: REPLICATE store ir<%v3>, ir<%gep>
|
|
; CHECK-NEXT: EMIT vp<[[CAN_IV_NEXT]]> = add nuw vp<[[CAN_IV]]>, vp<[[VFxUF]]>
|
|
; CHECK-NEXT: EMIT branch-on-count vp<[[CAN_IV_NEXT]]>, vp<[[VTC]]>
|
|
; CHECK-NEXT: No successors
|
|
; CHECK-NEXT: }
|
|
; CHECK-NEXT: Successor(s): middle.block
|
|
; CHECK-EMPTY:
|
|
; CHECK-NEXT: middle.block:
|
|
; CHECK-NEXT: No successors
|
|
; CHECK-NEXT: }
|
|
;
|
|
entry:
|
|
%div = udiv i64 %y, 492802768830814060
|
|
%inc = add i64 %div, 1
|
|
br label %loop
|
|
|
|
loop: ; preds = %loop, %entry
|
|
%iv = phi i64 [ %iv.next, %loop ], [ 0, %entry ]
|
|
%v2 = trunc i64 %iv to i8
|
|
%v3 = add nuw i8 %v2, 1
|
|
%gep = getelementptr inbounds i8, ptr %ptr, i64 %iv
|
|
store i8 %v3, ptr %gep
|
|
|
|
%cmp15 = icmp slt i8 %v3, 10000
|
|
%iv.next = add i64 %iv, %inc
|
|
br i1 %cmp15, label %loop, label %loop.exit
|
|
|
|
loop.exit:
|
|
ret void
|
|
}
|
|
|
|
define i32 @print_exit_value(ptr %ptr, i32 %off) {
|
|
; CHECK-LABEL: Checking a loop in 'print_exit_value'
|
|
; CHECK: VPlan 'Initial VPlan for VF={4},UF>=1' {
|
|
; CHECK-NEXT: Live-in vp<[[VFxUF:%.]]> = VF * UF
|
|
; CHECK-NEXT: Live-in vp<[[VEC_TC:%.+]]> = vector-trip-count
|
|
; CHECK-NEXT: Live-in ir<1000> = original trip-count
|
|
; CHECK-EMPTY:
|
|
; CHECK-NEXT: vector.ph:
|
|
; CHECK-NEXT: Successor(s): vector loop
|
|
; CHECK-EMPTY:
|
|
; CHECK-NEXT: <x1> vector loop: {
|
|
; CHECK-NEXT: vector.body:
|
|
; CHECK-NEXT: EMIT vp<[[CAN_IV:%.+]]> = CANONICAL-INDUCTION ir<0>, vp<[[CAN_IV_NEXT:%.+]]>
|
|
; CHECK-NEXT: WIDEN-INDUCTION %iv = phi 0, %iv.next, ir<1>
|
|
; CHECK-NEXT: vp<[[STEPS:%.+]]> = SCALAR-STEPS vp<[[CAN_IV]]>, ir<1>
|
|
; CHECK-NEXT: CLONE ir<%gep> = getelementptr inbounds ir<%ptr>, vp<[[STEPS]]>
|
|
; CHECK-NEXT: WIDEN ir<%add> = add ir<%iv>, ir<%off>
|
|
; CHECK-NEXT: vp<[[VEC_PTR:%.+]]> = vector-pointer ir<%gep>
|
|
; CHECK-NEXT: WIDEN store vp<[[VEC_PTR]]>, ir<0>
|
|
; CHECK-NEXT: EMIT vp<[[CAN_IV_NEXT]]> = add nuw vp<[[CAN_IV]]>, vp<[[VFxUF]]>
|
|
; CHECK-NEXT: EMIT branch-on-count vp<[[CAN_IV_NEXT]]>, vp<[[VEC_TC]]>
|
|
; CHECK-NEXT: No successors
|
|
; CHECK-NEXT: }
|
|
; CHECK-NEXT: Successor(s): middle.block
|
|
; CHECK-EMPTY:
|
|
; CHECK-NEXT: middle.block:
|
|
; CHECK-NEXT: No successors
|
|
; CHECK-EMPTY:
|
|
; CHECK-NEXT: Live-out i32 %lcssa = ir<%add>
|
|
; CHECK-NEXT: }
|
|
;
|
|
entry:
|
|
br label %loop
|
|
|
|
loop:
|
|
%iv = phi i32 [ 0, %entry ], [ %iv.next, %loop ]
|
|
%gep = getelementptr inbounds i8, ptr %ptr, i32 %iv
|
|
%add = add i32 %iv, %off
|
|
store i8 0, ptr %gep
|
|
%iv.next = add nsw i32 %iv, 1
|
|
%ec = icmp eq i32 %iv.next, 1000
|
|
br i1 %ec, label %exit, label %loop
|
|
|
|
exit:
|
|
%lcssa = phi i32 [ %add, %loop ]
|
|
ret i32 %lcssa
|
|
}
|
|
|
|
define void @print_fast_math_flags(i64 %n, ptr noalias %y, ptr noalias %x, ptr %z) {
|
|
; CHECK-LABEL: Checking a loop in 'print_fast_math_flags'
|
|
; CHECK: VPlan 'Initial VPlan for VF={4},UF>=1' {
|
|
; CHECK-NEXT: Live-in vp<[[VFxUF:%.]]> = VF * UF
|
|
; CHECK-NEXT: Live-in vp<[[VEC_TC:%.+]]> = vector-trip-count
|
|
; CHECK-NEXT: Live-in ir<%n> = original trip-count
|
|
; CHECK-EMPTY:
|
|
; CHECK-NEXT: vector.ph:
|
|
; CHECK-NEXT: Successor(s): vector loop
|
|
; CHECK-EMPTY:
|
|
; CHECK-NEXT: <x1> vector loop: {
|
|
; CHECK-NEXT: vector.body:
|
|
; CHECK-NEXT: EMIT vp<[[CAN_IV:%.+]]> = CANONICAL-INDUCTION ir<0>, vp<[[CAN_IV_NEXT:%.+]]>
|
|
; CHECK-NEXT: vp<[[STEPS:%.+]]> = SCALAR-STEPS vp<[[CAN_IV]]>, ir<1>
|
|
; CHECK-NEXT: CLONE ir<%gep.y> = getelementptr inbounds ir<%y>, vp<[[STEPS]]>
|
|
; CHECK-NEXT: vp<[[VEC_PTR:%.+]]> = vector-pointer ir<%gep.y>
|
|
; CHECK-NEXT: WIDEN ir<%lv> = load vp<[[VEC_PTR]]>
|
|
; CHECK-NEXT: WIDEN ir<%add> = fadd nnan ir<%lv>, ir<1.000000e+00>
|
|
; CHECK-NEXT: WIDEN ir<%mul> = fmul reassoc nnan ninf nsz arcp contract afn ir<%add>, ir<2.000000e+00>
|
|
; CHECK-NEXT: WIDEN ir<%div> = fdiv reassoc nsz contract ir<%mul>, ir<2.000000e+00>
|
|
; CHECK-NEXT: CLONE ir<%gep.x> = getelementptr inbounds ir<%x>, vp<[[STEPS]]>
|
|
; CHECK-NEXT: vp<[[VEC_PTR:%.+]]> = vector-pointer ir<%gep.x>
|
|
; CHECK-NEXT: WIDEN store vp<[[VEC_PTR]]>, ir<%div>
|
|
; CHECK-NEXT: EMIT vp<[[CAN_IV_NEXT]]> = add nuw vp<[[CAN_IV]]>, vp<[[VFxUF]]>
|
|
; CHECK-NEXT: EMIT branch-on-count vp<[[CAN_IV_NEXT]]>, vp<[[VEC_TC]]>
|
|
; CHECK-NEXT: No successors
|
|
; CHECK-NEXT: }
|
|
; CHECK-NEXT: Successor(s): middle.block
|
|
; CHECK-EMPTY:
|
|
; CHECK-NEXT: middle.block:
|
|
; CHECK-NEXT: No successors
|
|
; CHECK-NEXT: }
|
|
;
|
|
entry:
|
|
br label %loop
|
|
|
|
loop:
|
|
%iv = phi i64 [ 0, %entry ], [ %iv.next, %loop ]
|
|
%gep.y = getelementptr inbounds float, ptr %y, i64 %iv
|
|
%lv = load float, ptr %gep.y, align 4
|
|
%add = fadd nnan float %lv, 1.0
|
|
%mul = fmul fast float %add, 2.0
|
|
%div = fdiv nsz reassoc contract float %mul, 2.0
|
|
%gep.x = getelementptr inbounds float, ptr %x, i64 %iv
|
|
store float %div, ptr %gep.x, align 4
|
|
%iv.next = add i64 %iv, 1
|
|
%exitcond = icmp eq i64 %iv.next, %n
|
|
br i1 %exitcond, label %exit, label %loop
|
|
|
|
exit:
|
|
ret void
|
|
}
|
|
|
|
define void @print_exact_flags(i64 %n, ptr noalias %x) {
|
|
; CHECK-LABEL: Checking a loop in 'print_exact_flags'
|
|
; CHECK: VPlan 'Initial VPlan for VF={4},UF>=1' {
|
|
; CHECK-NEXT: Live-in vp<[[VFxUF:%.]]> = VF * UF
|
|
; CHECK-NEXT: Live-in vp<[[VEC_TC:%.+]]> = vector-trip-count
|
|
; CHECK-NEXT: Live-in ir<%n> = original trip-count
|
|
; CHECK-EMPTY:
|
|
; CHECK-NEXT: vector.ph:
|
|
; CHECK-NEXT: Successor(s): vector loop
|
|
; CHECK-EMPTY:
|
|
; CHECK-NEXT: <x1> vector loop: {
|
|
; CHECK-NEXT: vector.body:
|
|
; CHECK-NEXT: EMIT vp<[[CAN_IV:%.+]]> = CANONICAL-INDUCTION ir<0>, vp<[[CAN_IV_NEXT:%.+]]>
|
|
; CHECK-NEXT: vp<[[STEPS:%.+]]> = SCALAR-STEPS vp<[[CAN_IV]]>, ir<1>
|
|
; CHECK-NEXT: CLONE ir<%gep.x> = getelementptr inbounds ir<%x>, vp<[[STEPS]]>
|
|
; CHECK-NEXT: vp<[[VEC_PTR:%.+]]> = vector-pointer ir<%gep.x>
|
|
; CHECK-NEXT: WIDEN ir<%lv> = load vp<[[VEC_PTR]]>
|
|
; CHECK-NEXT: WIDEN ir<%div.1> = udiv exact ir<%lv>, ir<20>
|
|
; CHECK-NEXT: WIDEN ir<%div.2> = udiv ir<%lv>, ir<60>
|
|
; CHECK-NEXT: WIDEN ir<%add> = add nuw nsw ir<%div.1>, ir<%div.2>
|
|
; CHECK-NEXT: vp<[[VEC_PTR2:%.+]]> = vector-pointer ir<%gep.x>
|
|
; CHECK-NEXT: WIDEN store vp<[[VEC_PTR2]]>, ir<%add>
|
|
; CHECK-NEXT: EMIT vp<[[CAN_IV_NEXT]]> = add nuw vp<[[CAN_IV]]>, vp<[[VFxUF]]>
|
|
; CHECK-NEXT: EMIT branch-on-count vp<[[CAN_IV_NEXT]]>, vp<[[VEC_TC]]>
|
|
; CHECK-NEXT: No successors
|
|
; CHECK-NEXT: }
|
|
; CHECK-NEXT: Successor(s): middle.block
|
|
; CHECK-EMPTY:
|
|
; CHECK-NEXT: middle.block:
|
|
; CHECK-NEXT: No successors
|
|
; CHECK-NEXT: }
|
|
;
|
|
entry:
|
|
br label %loop
|
|
|
|
loop:
|
|
%iv = phi i64 [ 0, %entry ], [ %iv.next, %loop ]
|
|
%gep.x = getelementptr inbounds i32, ptr %x, i64 %iv
|
|
%lv = load i32, ptr %gep.x, align 4
|
|
%div.1 = udiv exact i32 %lv, 20
|
|
%div.2 = udiv i32 %lv, 60
|
|
%add = add nsw nuw i32 %div.1, %div.2
|
|
store i32 %add, ptr %gep.x, align 4
|
|
%iv.next = add i64 %iv, 1
|
|
%exitcond = icmp eq i64 %iv.next, %n
|
|
br i1 %exitcond, label %exit, label %loop
|
|
|
|
exit:
|
|
ret void
|
|
}
|
|
|
|
define void @print_call_flags(ptr readonly %src, ptr noalias %dest, i64 %n) {
|
|
; CHECK-LABEL: Checking a loop in 'print_call_flags'
|
|
; CHECK: VPlan 'Initial VPlan for VF={4},UF>=1' {
|
|
; CHECK-NEXT: Live-in vp<[[VFxUF:%.]]> = VF * UF
|
|
; CHECK-NEXT: Live-in vp<[[VEC_TC:%.+]]> = vector-trip-count
|
|
; CHECK-NEXT: Live-in ir<%n> = original trip-count
|
|
; CHECK-EMPTY:
|
|
; CHECK-NEXT: vector.ph:
|
|
; CHECK-NEXT: Successor(s): vector loop
|
|
; CHECK-EMPTY:
|
|
; CHECK-NEXT: <x1> vector loop: {
|
|
; CHECK-NEXT: vector.body:
|
|
; CHECK-NEXT: EMIT vp<[[CAN_IV:%.+]]> = CANONICAL-INDUCTION ir<0>, vp<[[CAN_IV_NEXT:%.+]]>
|
|
; CHECK-NEXT: vp<[[STEPS:%.+]]> = SCALAR-STEPS vp<[[CAN_IV]]>, ir<1>
|
|
; CHECK-NEXT: CLONE ir<%ld.addr> = getelementptr inbounds ir<%src>, vp<[[STEPS]]>
|
|
; CHECK-NEXT: vp<[[VEC_PTR:%.+]]> = vector-pointer ir<%ld.addr>
|
|
; CHECK-NEXT: WIDEN ir<%ld.value> = load vp<[[VEC_PTR]]>
|
|
; CHECK-NEXT: WIDEN ir<%ifcond> = fcmp oeq ir<%ld.value>, ir<5.000000e+00>
|
|
; CHECK-NEXT: Successor(s): pred.call
|
|
; CHECK-EMPTY:
|
|
; CHECK-NEXT: <xVFxUF> pred.call: {
|
|
; CHECK-NEXT: pred.call.entry:
|
|
; CHECK-NEXT: BRANCH-ON-MASK ir<%ifcond>
|
|
; CHECK-NEXT: Successor(s): pred.call.if, pred.call.continue
|
|
; CHECK-EMPTY:
|
|
; CHECK-NEXT: pred.call.if:
|
|
; CHECK-NEXT: REPLICATE ir<%foo.ret.1> = call nnan ninf nsz @foo(ir<%ld.value>) (S->V)
|
|
; CHECK-NEXT: REPLICATE ir<%foo.ret.2> = call @foo(ir<%ld.value>) (S->V)
|
|
; CHECK-NEXT: Successor(s): pred.call.continue
|
|
; CHECK-EMPTY:
|
|
; CHECK-NEXT: pred.call.continue:
|
|
; CHECK-NEXT: PHI-PREDICATED-INSTRUCTION vp<[[PHI1:%.+]]> = ir<%foo.ret.1>
|
|
; CHECK-NEXT: PHI-PREDICATED-INSTRUCTION vp<[[PHI2:%.+]]> = ir<%foo.ret.2>
|
|
; CHECK-NEXT: No successors
|
|
; CHECK-NEXT: }
|
|
; CHECK-NEXT: Successor(s): if.then.1
|
|
; CHECK-EMPTY:
|
|
; CHECK-NEXT: if.then.1:
|
|
; CHECK-NEXT: WIDEN ir<%fadd> = fadd vp<[[PHI1]]>, vp<[[PHI2]]>
|
|
; CHECK-NEXT: EMIT vp<[[NOT_COND:%.+]]> = not ir<%ifcond>
|
|
; CHECK-NEXT: BLEND ir<%st.value> = ir<%ld.value>/vp<[[NOT_COND]]> ir<%fadd>/ir<%ifcond>
|
|
; CHECK-NEXT: CLONE ir<%st.addr> = getelementptr inbounds ir<%dest>, vp<[[STEPS]]>
|
|
; CHECK-NEXT: vp<[[VEC_PTR2:%.+]]> = vector-pointer ir<%st.addr>
|
|
; CHECK-NEXT: WIDEN store vp<[[VEC_PTR2]]>, ir<%st.value>
|
|
; CHECK-NEXT: EMIT vp<[[CAN_IV_NEXT]]> = add nuw vp<[[CAN_IV]]>, vp<[[VFxUF]]>
|
|
; CHECK-NEXT: EMIT branch-on-count vp<[[CAN_IV_NEXT]]>, vp<[[VEC_TC]]>
|
|
; CHECK-NEXT: No successors
|
|
; CHECK-NEXT: }
|
|
; CHECK-NEXT: Successor(s): middle.block
|
|
; CHECK-EMPTY:
|
|
; CHECK-NEXT: middle.block:
|
|
; CHECK-NEXT: No successors
|
|
; CHECK-NEXT: }
|
|
;
|
|
entry:
|
|
br label %for.body
|
|
|
|
for.body:
|
|
%iv = phi i64 [ 0, %entry ], [ %iv.next, %for.loop ]
|
|
%ld.addr = getelementptr inbounds float, ptr %src, i64 %iv
|
|
%ld.value = load float , ptr %ld.addr, align 8
|
|
%ifcond = fcmp oeq float %ld.value, 5.0
|
|
br i1 %ifcond, label %if.then, label %for.loop
|
|
|
|
if.then:
|
|
%foo.ret.1 = call nnan nsz ninf float @foo(float %ld.value) #0
|
|
%foo.ret.2 = call float @foo(float %ld.value) #0
|
|
%fadd = fadd float %foo.ret.1, %foo.ret.2
|
|
br label %for.loop
|
|
|
|
for.loop:
|
|
%st.value = phi float [ %ld.value, %for.body ], [ %fadd, %if.then ]
|
|
%st.addr = getelementptr inbounds float, ptr %dest, i64 %iv
|
|
store float %st.value, ptr %st.addr, align 8
|
|
%iv.next = add nsw nuw i64 %iv, 1
|
|
%loopcond = icmp eq i64 %iv.next, %n
|
|
br i1 %loopcond, label %end, label %for.body
|
|
|
|
end:
|
|
ret void
|
|
}
|
|
|
|
; FIXME: Preserve disjoint flag on OR recipe.
|
|
define void @print_disjoint_flags(i64 %n, ptr noalias %x) {
|
|
; CHECK-LABEL: Checking a loop in 'print_disjoint_flags'
|
|
; CHECK: VPlan 'Initial VPlan for VF={4},UF>=1' {
|
|
; CHECK-NEXT: Live-in vp<[[VFxUF:%.]]> = VF * UF
|
|
; CHECK-NEXT: Live-in vp<[[VEC_TC:%.+]]> = vector-trip-count
|
|
; CHECK-NEXT: Live-in ir<%n> = original trip-count
|
|
; CHECK-EMPTY:
|
|
; CHECK-NEXT: vector.ph:
|
|
; CHECK-NEXT: Successor(s): vector loop
|
|
; CHECK-EMPTY:
|
|
; CHECK-NEXT: <x1> vector loop: {
|
|
; CHECK-NEXT: vector.body:
|
|
; CHECK-NEXT: EMIT vp<[[CAN_IV:%.+]]> = CANONICAL-INDUCTION ir<0>, vp<[[CAN_IV_NEXT:%.+]]>
|
|
; CHECK-NEXT: vp<[[STEPS:%.+]]> = SCALAR-STEPS vp<[[CAN_IV]]>, ir<1>
|
|
; CHECK-NEXT: CLONE ir<%gep.x> = getelementptr inbounds ir<%x>, vp<[[STEPS]]>
|
|
; CHECK-NEXT: vp<[[VEC_PTR:%.+]]> = vector-pointer ir<%gep.x>
|
|
; CHECK-NEXT: WIDEN ir<%lv> = load vp<[[VEC_PTR]]>
|
|
; CHECK-NEXT: WIDEN ir<%or.1> = or disjoint ir<%lv>, ir<1>
|
|
; CHECK-NEXT: WIDEN ir<%or.2> = or ir<%lv>, ir<3>
|
|
; CHECK-NEXT: WIDEN ir<%add> = add nuw nsw ir<%or.1>, ir<%or.2>
|
|
; CHECK-NEXT: vp<[[VEC_PTR:%.+]]> = vector-pointer ir<%gep.x>
|
|
; CHECK-NEXT: WIDEN store vp<[[VEC_PTR]]>, ir<%add>
|
|
; CHECK-NEXT: EMIT vp<[[CAN_IV_NEXT]]> = add nuw vp<[[CAN_IV]]>, vp<[[VFxUF]]>
|
|
; CHECK-NEXT: EMIT branch-on-count vp<[[CAN_IV_NEXT]]>, vp<[[VEC_TC]]>
|
|
; CHECK-NEXT: No successors
|
|
; CHECK-NEXT: }
|
|
; CHECK-NEXT: Successor(s): middle.block
|
|
; CHECK-EMPTY:
|
|
; CHECK-NEXT: middle.block:
|
|
; CHECK-NEXT: No successors
|
|
; CHECK-NEXT: }
|
|
;
|
|
entry:
|
|
br label %loop
|
|
|
|
loop:
|
|
%iv = phi i64 [ 0, %entry ], [ %iv.next, %loop ]
|
|
%gep.x = getelementptr inbounds i32, ptr %x, i64 %iv
|
|
%lv = load i32, ptr %gep.x, align 4
|
|
%or.1 = or disjoint i32 %lv, 1
|
|
%or.2 = or i32 %lv, 3
|
|
%add = add nsw nuw i32 %or.1, %or.2
|
|
store i32 %add, ptr %gep.x, align 4
|
|
%iv.next = add i64 %iv, 1
|
|
%exitcond = icmp eq i64 %iv.next, %n
|
|
br i1 %exitcond, label %exit, label %loop
|
|
|
|
exit:
|
|
ret void
|
|
}
|
|
|
|
define void @zext_nneg(ptr noalias %p, ptr noalias %p1) {
|
|
; CHECK-LABEL: LV: Checking a loop in 'zext_nneg'
|
|
; CHECK: VPlan 'Initial VPlan for VF={4},UF>=1' {
|
|
; CHECK-NEXT: Live-in vp<[[VFxUF:%.]]> = VF * UF
|
|
; CHECK-NEXT: Live-in vp<[[VEC_TC:%.+]]> = vector-trip-count
|
|
; CHECK-NEXT: Live-in ir<1000> = original trip-count
|
|
; CHECK-EMPTY:
|
|
; CHECK-NEXT: vector.ph:
|
|
; CHECK-NEXT: Successor(s): vector loop
|
|
; CHECK-EMPTY:
|
|
; CHECK-NEXT: <x1> vector loop: {
|
|
; CHECK-NEXT: vector.body:
|
|
; CHECK-NEXT: EMIT vp<[[CAN_IV:%.+]]> = CANONICAL-INDUCTION ir<0>, vp<[[CAN_IV_NEXT:%.+]]>
|
|
; CHECK-NEXT: vp<[[STEPS:%.+]]> = SCALAR-STEPS vp<[[CAN_IV]]>, ir<1>
|
|
; CHECK-NEXT: CLONE ir<%idx> = getelementptr ir<%p>, vp<[[STEPS]]>
|
|
; CHECK-NEXT: vp<[[VEC_PTR:%.+]]> = vector-pointer ir<%idx>
|
|
; CHECK-NEXT: WIDEN ir<%l> = load vp<[[VEC_PTR]]>
|
|
; CHECK-NEXT: WIDEN-CAST ir<%zext> = zext nneg ir<%l>
|
|
; CHECK-NEXT: REPLICATE store ir<%zext>, ir<%p1>
|
|
; CHECK-NEXT: EMIT vp<[[CAN_IV_NEXT]]> = add nuw vp<[[CAN_IV]]>
|
|
; CHECK-NEXT: EMIT branch-on-count vp<[[CAN_IV_NEXT]]>, vp<[[VEC_TC]]>
|
|
; CHECK-NEXT: No successors
|
|
; CHECK-NEXT: }
|
|
;
|
|
entry:
|
|
br label %body
|
|
|
|
body:
|
|
%iv = phi i64 [ %next, %body ], [ 0, %entry ]
|
|
%idx = getelementptr i32, ptr %p, i64 %iv
|
|
%l = load i32, ptr %idx, align 8
|
|
%zext = zext nneg i32 %l to i64
|
|
store i64 %zext, ptr %p1, align 8
|
|
%next = add i64 %iv, 1
|
|
%cmp = icmp eq i64 %next, 1000
|
|
br i1 %cmp, label %exit, label %body
|
|
|
|
exit:
|
|
ret void
|
|
}
|
|
|
|
!llvm.dbg.cu = !{!0}
|
|
!llvm.module.flags = !{!3, !4}
|
|
|
|
declare float @foo(float) #0
|
|
declare <2 x float> @vector_foo(<2 x float>, <2 x i1>)
|
|
|
|
; We need a vector variant in order to allow for vectorization at present, but
|
|
; we want to test scalarization of conditional calls. If we provide a variant
|
|
; with a different number of lanes than the VF we force via
|
|
; "-force-vector-width=4", then it should pass the legality checks but
|
|
; scalarize. TODO: Remove the requirement to have a variant.
|
|
attributes #0 = { readonly nounwind "vector-function-abi-variant"="_ZGV_LLVM_M2v_foo(vector_foo)" }
|
|
|
|
!0 = distinct !DICompileUnit(language: DW_LANG_C99, file: !1, producer: "clang", isOptimized: true, runtimeVersion: 0, emissionKind: NoDebug, enums: !2)
|
|
!1 = !DIFile(filename: "/tmp/s.c", directory: "/tmp")
|
|
!2 = !{}
|
|
!3 = !{i32 2, !"Debug Info Version", i32 3}
|
|
!4 = !{i32 7, !"PIC Level", i32 2}
|
|
!5 = distinct !DISubprogram(name: "f", scope: !1, file: !1, line: 4, type: !6, scopeLine: 4, flags: DIFlagPrototyped, spFlags: DISPFlagDefinition | DISPFlagOptimized, unit: !0, retainedNodes: !2)
|
|
!6 = !DISubroutineType(types: !2)
|
|
!7 = !DILocation(line: 5, column: 3, scope: !5)
|
|
!8 = !DILocation(line: 5, column: 21, scope: !5)
|