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[VPlan] Fix LastActiveLane assertion on scalar VF #167897

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Merged
merged 9 commits into from
Nov 17, 2025
+71 −7
Merged

[VPlan] Fix LastActiveLane assertion on scalar VF #167897

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1e5f44e
[VPlan] Fix LastActiveLane assertion on scalar VF
lukel97 Nov 13, 2025
3863112
Remove trivial branch
lukel97 Nov 13, 2025
23bce03
Add comment and assert
lukel97 Nov 14, 2025
81b7721
Merge branch 'main' of github.com:llvm/llvm-project into loop-vectori…
lukel97 Nov 14, 2025
67bb402
Update test after merging
lukel97 Nov 14, 2025
602ca13
Merge branch 'main' of github.com:llvm/llvm-project into loop-vectori…
lukel97 Nov 17, 2025
efca5e5
Add m_CanonicalScalarIVSteps helper
lukel97 Nov 17, 2025
c0a7067
Move to variable
lukel97 Nov 17, 2025
c29428f
Move test to tail-folding-vectorization-factor-1.ll
lukel97 Nov 17, 2025
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18 changes: 13 additions & 5 deletions llvm/lib/Transforms/Vectorize/VPlanUtils.cpp
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Original file line number Diff line number Diff line change
Expand Up @@ -58,13 +58,21 @@ bool vputils::isHeaderMask(const VPValue *V, const VPlan &Plan) {

VPValue *A, *B;

auto m_CanonicalScalarIVSteps =
m_ScalarIVSteps(m_Specific(Plan.getVectorLoopRegion()->getCanonicalIV()),
m_One(), m_Specific(&Plan.getVF()));

if (match(V, m_ActiveLaneMask(m_VPValue(A), m_VPValue(B), m_One())))
return B == Plan.getTripCount() &&
(match(A,
m_ScalarIVSteps(
m_Specific(Plan.getVectorLoopRegion()->getCanonicalIV()),
m_One(), m_Specific(&Plan.getVF()))) ||
IsWideCanonicalIV(A));
(match(A, m_CanonicalScalarIVSteps) || IsWideCanonicalIV(A));

// For scalar plans, the header mask uses the scalar steps.
if (match(V, m_ICmp(m_CanonicalScalarIVSteps,
m_Specific(Plan.getBackedgeTakenCount())))) {
assert(Plan.hasScalarVFOnly() &&
"Non-scalar VF using scalar IV steps for header mask?");
return true;
}

return match(V, m_ICmp(m_VPValue(A), m_VPValue(B))) && IsWideCanonicalIV(A) &&
B == Plan.getBackedgeTakenCount();
Expand Down
60 changes: 58 additions & 2 deletions llvm/test/Transforms/LoopVectorize/tail-folding-vectorization-factor-1.ll
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@@ -1,6 +1,6 @@
; NOTE: Assertions have been autogenerated by utils/update_test_checks.py
; RUN: opt < %s -passes=loop-vectorize -force-vector-interleave=4 -pass-remarks='loop-vectorize' -disable-output -S 2>&1 | FileCheck %s --check-prefix=CHECK-REMARKS
; RUN: opt < %s -passes=loop-vectorize -force-vector-interleave=4 -S | FileCheck %s
; RUN: opt < %s -passes=loop-vectorize -force-vector-interleave=4 -prefer-predicate-over-epilogue=predicate-else-scalar-epilogue -pass-remarks='loop-vectorize' -disable-output -S 2>&1 | FileCheck %s --check-prefix=CHECK-REMARKS
; RUN: opt < %s -passes=loop-vectorize -force-vector-interleave=4 -prefer-predicate-over-epilogue=predicate-else-scalar-epilogue -S | FileCheck %s

; These tests are to check that fold-tail procedure produces correct scalar code when
; loop-vectorization is only unrolling but not vectorizing.
Expand Down Expand Up @@ -141,5 +141,61 @@ for.body:
%cond = icmp eq ptr %ptr, %ptr2
br i1 %cond, label %for.cond.cleanup, label %for.body
}

define i64 @live_out_scalar_vf(i64 %n) {
; CHECK-LABEL: @live_out_scalar_vf(
; CHECK-NEXT: entry:
; CHECK-NEXT: [[TMP0:%.*]] = add i64 [[N:%.*]], 1
; CHECK-NEXT: [[MIN_ITERS_CHECK:%.*]] = icmp ult i64 [[TMP0]], 16
; CHECK-NEXT: br i1 [[MIN_ITERS_CHECK]], label [[SCALAR_PH:%.*]], label [[VECTOR_PH:%.*]]
; CHECK: vector.ph:
; CHECK-NEXT: [[N_MOD_VF:%.*]] = urem i64 [[TMP0]], 16
; CHECK-NEXT: [[N_VEC:%.*]] = sub i64 [[TMP0]], [[N_MOD_VF]]
; CHECK-NEXT: br label [[VECTOR_BODY:%.*]]
; CHECK: vector.body:
; CHECK-NEXT: [[INDEX:%.*]] = phi i64 [ 0, [[VECTOR_PH]] ], [ [[INDEX_NEXT:%.*]], [[VECTOR_BODY]] ]
; CHECK-NEXT: [[VEC_IND:%.*]] = phi <4 x i64> [ <i64 0, i64 1, i64 2, i64 3>, [[VECTOR_PH]] ], [ [[VEC_IND_NEXT:%.*]], [[VECTOR_BODY]] ]
; CHECK-NEXT: [[STEP_ADD:%.*]] = add <4 x i64> [[VEC_IND]], splat (i64 4)
; CHECK-NEXT: [[STEP_ADD_2:%.*]] = add <4 x i64> [[STEP_ADD]], splat (i64 4)
; CHECK-NEXT: [[STEP_ADD_3:%.*]] = add <4 x i64> [[STEP_ADD_2]], splat (i64 4)
; CHECK-NEXT: [[INDEX_NEXT]] = add nuw i64 [[INDEX]], 16
; CHECK-NEXT: [[VEC_IND_NEXT]] = add <4 x i64> [[STEP_ADD_3]], splat (i64 4)
; CHECK-NEXT: [[TMP5:%.*]] = icmp eq i64 [[INDEX_NEXT]], [[N_VEC]]
; CHECK-NEXT: br i1 [[TMP5]], label [[MIDDLE_BLOCK:%.*]], label [[VECTOR_BODY]], !llvm.loop [[LOOP4:![0-9]+]]
; CHECK: middle.block:
; CHECK-NEXT: [[VECTOR_RECUR_EXTRACT:%.*]] = extractelement <4 x i64> [[STEP_ADD_3]], i32 3
; CHECK-NEXT: [[VECTOR_RECUR_EXTRACT_FOR_PHI:%.*]] = extractelement <4 x i64> [[STEP_ADD_3]], i32 2
; CHECK-NEXT: [[CMP_N:%.*]] = icmp eq i64 [[TMP0]], [[N_VEC]]
; CHECK-NEXT: br i1 [[CMP_N]], label [[EXIT:%.*]], label [[SCALAR_PH]]
; CHECK: scalar.ph:
; CHECK-NEXT: [[BC_RESUME_VAL:%.*]] = phi i64 [ [[N_VEC]], [[MIDDLE_BLOCK]] ], [ 0, [[ENTRY:%.*]] ]
; CHECK-NEXT: [[SCALAR_RECUR_INIT:%.*]] = phi i64 [ [[VECTOR_RECUR_EXTRACT]], [[MIDDLE_BLOCK]] ], [ 0, [[ENTRY]] ]
; CHECK-NEXT: br label [[LOOP:%.*]]
; CHECK: loop:
; CHECK-NEXT: [[IV:%.*]] = phi i64 [ [[BC_RESUME_VAL]], [[SCALAR_PH]] ], [ [[IV_NEXT:%.*]], [[LOOP]] ]
; CHECK-NEXT: [[EXITVAL:%.*]] = phi i64 [ [[SCALAR_RECUR_INIT]], [[SCALAR_PH]] ], [ [[IV]], [[LOOP]] ]
; CHECK-NEXT: [[IV_NEXT]] = add i64 [[IV]], 1
; CHECK-NEXT: [[EC:%.*]] = icmp eq i64 [[IV]], [[N]]
; CHECK-NEXT: br i1 [[EC]], label [[EXIT]], label [[LOOP]], !llvm.loop [[LOOP5:![0-9]+]]
; CHECK: exit:
; CHECK-NEXT: [[TMP19:%.*]] = phi i64 [ [[EXITVAL]], [[LOOP]] ], [ [[VECTOR_RECUR_EXTRACT_FOR_PHI]], [[MIDDLE_BLOCK]] ]
; CHECK-NEXT: ret i64 [[TMP19]]
;
entry:
br label %loop

loop:
%iv = phi i64 [ 0, %entry ], [ %iv.next, %loop ]
; Need to use a phi otherwise the header mask will use a
; VPWidenCanonicalIVRecipe instead of a VPScalarIVStepsRecipe.
%exitval = phi i64 [ 0, %entry ], [ %iv, %loop ]
%iv.next = add i64 %iv, 1
%ec = icmp eq i64 %iv, %n
br i1 %ec, label %exit, label %loop

exit:
ret i64 %exitval
}

;; NOTE: These prefixes are unused and the list is autogenerated. Do not add tests below this line:
; CHECK-REMARKS: {{.*}}
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