[llvm-branch-commits] [llvm] [LAA] Refine stride checks for SCEVs during dependence analysis. (#99… (PR #102201)

via llvm-branch-commits llvm-branch-commits at lists.llvm.org
Tue Aug 6 12:37:01 PDT 2024


llvmbot wrote:


<!--LLVM PR SUMMARY COMMENT-->

@llvm/pr-subscribers-llvm-analysis

Author: Florian Hahn (fhahn)

<details>
<summary>Changes</summary>

…577)

Update getDependenceDistanceStrideAndSize to reason about different combinations of strides directly and explicitly.

Update getPtrStride to return 0 for invariant pointers.

Then proceed by checking the strides.

If either source or sink are not strided by a constant (i.e. not a non-wrapping AddRec) or invariant, the accesses may overlap with earlier or later iterations and we cannot generate runtime checks to disambiguate them.

Otherwise they are either loop invariant or strided. In that case, we can generate a runtime check to disambiguate them.

If both are strided by constants, we proceed as previously.

This is an alternative to
https://github.com/llvm/llvm-project/pull/99239 and also replaces additional checks if the underlying object is loop-invariant.

Fixes https://github.com/llvm/llvm-project/issues/87189.

PR: https://github.com/llvm/llvm-project/pull/99577

---

Patch is 20.07 KiB, truncated to 20.00 KiB below, full version: https://github.com/llvm/llvm-project/pull/102201.diff


7 Files Affected:

- (modified) llvm/include/llvm/Analysis/LoopAccessAnalysis.h (+9-14) 
- (modified) llvm/lib/Analysis/LoopAccessAnalysis.cpp (+56-65) 
- (modified) llvm/test/Analysis/LoopAccessAnalysis/load-store-index-loaded-in-loop.ll (+12-14) 
- (modified) llvm/test/Analysis/LoopAccessAnalysis/pointer-with-unknown-bounds.ll (+2-2) 
- (modified) llvm/test/Analysis/LoopAccessAnalysis/print-order.ll (+4-2) 
- (modified) llvm/test/Analysis/LoopAccessAnalysis/select-dependence.ll (+2-2) 
- (modified) llvm/test/Analysis/LoopAccessAnalysis/symbolic-stride.ll (+2-2) 


``````````diff
diff --git a/llvm/include/llvm/Analysis/LoopAccessAnalysis.h b/llvm/include/llvm/Analysis/LoopAccessAnalysis.h
index afafb74bdcb0ac..95a74b91f7acbf 100644
--- a/llvm/include/llvm/Analysis/LoopAccessAnalysis.h
+++ b/llvm/include/llvm/Analysis/LoopAccessAnalysis.h
@@ -199,9 +199,8 @@ class MemoryDepChecker {
   /// Check whether the dependencies between the accesses are safe.
   ///
   /// Only checks sets with elements in \p CheckDeps.
-  bool areDepsSafe(DepCandidates &AccessSets, MemAccessInfoList &CheckDeps,
-                   const DenseMap<Value *, SmallVector<const Value *, 16>>
-                       &UnderlyingObjects);
+  bool areDepsSafe(const DepCandidates &AccessSets,
+                   const MemAccessInfoList &CheckDeps);
 
   /// No memory dependence was encountered that would inhibit
   /// vectorization.
@@ -351,11 +350,8 @@ class MemoryDepChecker {
   /// element access it records this distance in \p MinDepDistBytes (if this
   /// distance is smaller than any other distance encountered so far).
   /// Otherwise, this function returns true signaling a possible dependence.
-  Dependence::DepType
-  isDependent(const MemAccessInfo &A, unsigned AIdx, const MemAccessInfo &B,
-              unsigned BIdx,
-              const DenseMap<Value *, SmallVector<const Value *, 16>>
-                  &UnderlyingObjects);
+  Dependence::DepType isDependent(const MemAccessInfo &A, unsigned AIdx,
+                                  const MemAccessInfo &B, unsigned BIdx);
 
   /// Check whether the data dependence could prevent store-load
   /// forwarding.
@@ -392,11 +388,9 @@ class MemoryDepChecker {
   /// determined, or a struct containing (Distance, Stride, TypeSize, AIsWrite,
   /// BIsWrite).
   std::variant<Dependence::DepType, DepDistanceStrideAndSizeInfo>
-  getDependenceDistanceStrideAndSize(
-      const MemAccessInfo &A, Instruction *AInst, const MemAccessInfo &B,
-      Instruction *BInst,
-      const DenseMap<Value *, SmallVector<const Value *, 16>>
-          &UnderlyingObjects);
+  getDependenceDistanceStrideAndSize(const MemAccessInfo &A, Instruction *AInst,
+                                     const MemAccessInfo &B,
+                                     Instruction *BInst);
 };
 
 class RuntimePointerChecking;
@@ -797,7 +791,8 @@ replaceSymbolicStrideSCEV(PredicatedScalarEvolution &PSE,
                           Value *Ptr);
 
 /// If the pointer has a constant stride return it in units of the access type
-/// size.  Otherwise return std::nullopt.
+/// size. If the pointer is loop-invariant, return 0. Otherwise return
+/// std::nullopt.
 ///
 /// Ensure that it does not wrap in the address space, assuming the predicate
 /// associated with \p PSE is true.
diff --git a/llvm/lib/Analysis/LoopAccessAnalysis.cpp b/llvm/lib/Analysis/LoopAccessAnalysis.cpp
index 84214c47a10e11..f3fc69c86cd1e6 100644
--- a/llvm/lib/Analysis/LoopAccessAnalysis.cpp
+++ b/llvm/lib/Analysis/LoopAccessAnalysis.cpp
@@ -728,11 +728,6 @@ class AccessAnalysis {
 
   MemAccessInfoList &getDependenciesToCheck() { return CheckDeps; }
 
-  const DenseMap<Value *, SmallVector<const Value *, 16>> &
-  getUnderlyingObjects() {
-    return UnderlyingObjects;
-  }
-
 private:
   typedef MapVector<MemAccessInfo, SmallSetVector<Type *, 1>> PtrAccessMap;
 
@@ -1459,22 +1454,23 @@ static bool isNoWrapAddRec(Value *Ptr, const SCEVAddRecExpr *AR,
 }
 
 /// Check whether the access through \p Ptr has a constant stride.
-std::optional<int64_t> llvm::getPtrStride(PredicatedScalarEvolution &PSE,
-                                          Type *AccessTy, Value *Ptr,
-                                          const Loop *Lp,
-                                          const DenseMap<Value *, const SCEV *> &StridesMap,
-                                          bool Assume, bool ShouldCheckWrap) {
+std::optional<int64_t>
+llvm::getPtrStride(PredicatedScalarEvolution &PSE, Type *AccessTy, Value *Ptr,
+                   const Loop *Lp,
+                   const DenseMap<Value *, const SCEV *> &StridesMap,
+                   bool Assume, bool ShouldCheckWrap) {
+  const SCEV *PtrScev = replaceSymbolicStrideSCEV(PSE, StridesMap, Ptr);
+  if (PSE.getSE()->isLoopInvariant(PtrScev, Lp))
+    return {0};
+
   Type *Ty = Ptr->getType();
   assert(Ty->isPointerTy() && "Unexpected non-ptr");
-
   if (isa<ScalableVectorType>(AccessTy)) {
     LLVM_DEBUG(dbgs() << "LAA: Bad stride - Scalable object: " << *AccessTy
                       << "\n");
     return std::nullopt;
   }
 
-  const SCEV *PtrScev = replaceSymbolicStrideSCEV(PSE, StridesMap, Ptr);
-
   const SCEVAddRecExpr *AR = dyn_cast<SCEVAddRecExpr>(PtrScev);
   if (Assume && !AR)
     AR = PSE.getAsAddRec(Ptr);
@@ -1899,24 +1895,12 @@ static bool areStridedAccessesIndependent(uint64_t Distance, uint64_t Stride,
   return ScaledDist % Stride;
 }
 
-/// Returns true if any of the underlying objects has a loop varying address,
-/// i.e. may change in \p L.
-static bool
-isLoopVariantIndirectAddress(ArrayRef<const Value *> UnderlyingObjects,
-                             ScalarEvolution &SE, const Loop *L) {
-  return any_of(UnderlyingObjects, [&SE, L](const Value *UO) {
-    return !SE.isLoopInvariant(SE.getSCEV(const_cast<Value *>(UO)), L);
-  });
-}
-
 std::variant<MemoryDepChecker::Dependence::DepType,
              MemoryDepChecker::DepDistanceStrideAndSizeInfo>
 MemoryDepChecker::getDependenceDistanceStrideAndSize(
     const AccessAnalysis::MemAccessInfo &A, Instruction *AInst,
-    const AccessAnalysis::MemAccessInfo &B, Instruction *BInst,
-    const DenseMap<Value *, SmallVector<const Value *, 16>>
-        &UnderlyingObjects) {
-  auto &DL = InnermostLoop->getHeader()->getDataLayout();
+    const AccessAnalysis::MemAccessInfo &B, Instruction *BInst) {
+  const auto &DL = InnermostLoop->getHeader()->getDataLayout();
   auto &SE = *PSE.getSE();
   auto [APtr, AIsWrite] = A;
   auto [BPtr, BIsWrite] = B;
@@ -1933,12 +1917,10 @@ MemoryDepChecker::getDependenceDistanceStrideAndSize(
       BPtr->getType()->getPointerAddressSpace())
     return MemoryDepChecker::Dependence::Unknown;
 
-  int64_t StrideAPtr =
-      getPtrStride(PSE, ATy, APtr, InnermostLoop, SymbolicStrides, true)
-          .value_or(0);
-  int64_t StrideBPtr =
-      getPtrStride(PSE, BTy, BPtr, InnermostLoop, SymbolicStrides, true)
-          .value_or(0);
+  std::optional<int64_t> StrideAPtr =
+      getPtrStride(PSE, ATy, APtr, InnermostLoop, SymbolicStrides, true, true);
+  std::optional<int64_t> StrideBPtr =
+      getPtrStride(PSE, BTy, BPtr, InnermostLoop, SymbolicStrides, true, true);
 
   const SCEV *Src = PSE.getSCEV(APtr);
   const SCEV *Sink = PSE.getSCEV(BPtr);
@@ -1946,26 +1928,19 @@ MemoryDepChecker::getDependenceDistanceStrideAndSize(
   // If the induction step is negative we have to invert source and sink of the
   // dependence when measuring the distance between them. We should not swap
   // AIsWrite with BIsWrite, as their uses expect them in program order.
-  if (StrideAPtr < 0) {
+  if (StrideAPtr && *StrideAPtr < 0) {
     std::swap(Src, Sink);
     std::swap(AInst, BInst);
+    std::swap(StrideAPtr, StrideBPtr);
   }
 
   const SCEV *Dist = SE.getMinusSCEV(Sink, Src);
 
   LLVM_DEBUG(dbgs() << "LAA: Src Scev: " << *Src << "Sink Scev: " << *Sink
-                    << "(Induction step: " << StrideAPtr << ")\n");
+                    << "\n");
   LLVM_DEBUG(dbgs() << "LAA: Distance for " << *AInst << " to " << *BInst
                     << ": " << *Dist << "\n");
 
-  // Needs accesses where the addresses of the accessed underlying objects do
-  // not change within the loop.
-  if (isLoopVariantIndirectAddress(UnderlyingObjects.find(APtr)->second, SE,
-                                   InnermostLoop) ||
-      isLoopVariantIndirectAddress(UnderlyingObjects.find(BPtr)->second, SE,
-                                   InnermostLoop))
-    return MemoryDepChecker::Dependence::IndirectUnsafe;
-
   // Check if we can prove that Sink only accesses memory after Src's end or
   // vice versa. At the moment this is limited to cases where either source or
   // sink are loop invariant to avoid compile-time increases. This is not
@@ -1987,12 +1962,33 @@ MemoryDepChecker::getDependenceDistanceStrideAndSize(
     }
   }
 
-  // Need accesses with constant strides and the same direction. We don't want
-  // to vectorize "A[B[i]] += ..." and similar code or pointer arithmetic that
-  // could wrap in the address space.
-  if (!StrideAPtr || !StrideBPtr || (StrideAPtr > 0 && StrideBPtr < 0) ||
-      (StrideAPtr < 0 && StrideBPtr > 0)) {
+  // Need accesses with constant strides and the same direction for further
+  // dependence analysis. We don't want to vectorize "A[B[i]] += ..." and
+  // similar code or pointer arithmetic that could wrap in the address space.
+
+  // If either Src or Sink are not strided (i.e. not a non-wrapping AddRec) and
+  // not loop-invariant (stride will be 0 in that case), we cannot analyze the
+  // dependence further and also cannot generate runtime checks.
+  if (!StrideAPtr || !StrideBPtr) {
     LLVM_DEBUG(dbgs() << "Pointer access with non-constant stride\n");
+    return MemoryDepChecker::Dependence::IndirectUnsafe;
+  }
+
+  int64_t StrideAPtrInt = *StrideAPtr;
+  int64_t StrideBPtrInt = *StrideBPtr;
+  LLVM_DEBUG(dbgs() << "LAA:  Src induction step: " << StrideAPtrInt
+                    << " Sink induction step: " << StrideBPtrInt << "\n");
+  // At least Src or Sink are loop invariant and the other is strided or
+  // invariant. We can generate a runtime check to disambiguate the accesses.
+  if (StrideAPtrInt == 0 || StrideBPtrInt == 0)
+    return MemoryDepChecker::Dependence::Unknown;
+
+  // Both Src and Sink have a constant stride, check if they are in the same
+  // direction.
+  if ((StrideAPtrInt > 0 && StrideBPtrInt < 0) ||
+      (StrideAPtrInt < 0 && StrideBPtrInt > 0)) {
+    LLVM_DEBUG(
+        dbgs() << "Pointer access with strides in different directions\n");
     return MemoryDepChecker::Dependence::Unknown;
   }
 
@@ -2001,22 +1997,20 @@ MemoryDepChecker::getDependenceDistanceStrideAndSize(
       DL.getTypeStoreSizeInBits(ATy) == DL.getTypeStoreSizeInBits(BTy);
   if (!HasSameSize)
     TypeByteSize = 0;
-  return DepDistanceStrideAndSizeInfo(Dist, std::abs(StrideAPtr),
-                                      std::abs(StrideBPtr), TypeByteSize,
+  return DepDistanceStrideAndSizeInfo(Dist, std::abs(StrideAPtrInt),
+                                      std::abs(StrideBPtrInt), TypeByteSize,
                                       AIsWrite, BIsWrite);
 }
 
-MemoryDepChecker::Dependence::DepType MemoryDepChecker::isDependent(
-    const MemAccessInfo &A, unsigned AIdx, const MemAccessInfo &B,
-    unsigned BIdx,
-    const DenseMap<Value *, SmallVector<const Value *, 16>>
-        &UnderlyingObjects) {
+MemoryDepChecker::Dependence::DepType
+MemoryDepChecker::isDependent(const MemAccessInfo &A, unsigned AIdx,
+                              const MemAccessInfo &B, unsigned BIdx) {
   assert(AIdx < BIdx && "Must pass arguments in program order");
 
   // Get the dependence distance, stride, type size and what access writes for
   // the dependence between A and B.
-  auto Res = getDependenceDistanceStrideAndSize(
-      A, InstMap[AIdx], B, InstMap[BIdx], UnderlyingObjects);
+  auto Res =
+      getDependenceDistanceStrideAndSize(A, InstMap[AIdx], B, InstMap[BIdx]);
   if (std::holds_alternative<Dependence::DepType>(Res))
     return std::get<Dependence::DepType>(Res);
 
@@ -2250,10 +2244,8 @@ MemoryDepChecker::Dependence::DepType MemoryDepChecker::isDependent(
   return Dependence::BackwardVectorizable;
 }
 
-bool MemoryDepChecker::areDepsSafe(
-    DepCandidates &AccessSets, MemAccessInfoList &CheckDeps,
-    const DenseMap<Value *, SmallVector<const Value *, 16>>
-        &UnderlyingObjects) {
+bool MemoryDepChecker::areDepsSafe(const DepCandidates &AccessSets,
+                                   const MemAccessInfoList &CheckDeps) {
 
   MinDepDistBytes = -1;
   SmallPtrSet<MemAccessInfo, 8> Visited;
@@ -2296,8 +2288,8 @@ bool MemoryDepChecker::areDepsSafe(
             if (*I1 > *I2)
               std::swap(A, B);
 
-            Dependence::DepType Type = isDependent(*A.first, A.second, *B.first,
-                                                   B.second, UnderlyingObjects);
+            Dependence::DepType Type =
+                isDependent(*A.first, A.second, *B.first, B.second);
             mergeInStatus(Dependence::isSafeForVectorization(Type));
 
             // Gather dependences unless we accumulated MaxDependences
@@ -2652,8 +2644,7 @@ bool LoopAccessInfo::analyzeLoop(AAResults *AA, LoopInfo *LI,
   if (Accesses.isDependencyCheckNeeded()) {
     LLVM_DEBUG(dbgs() << "LAA: Checking memory dependencies\n");
     DepsAreSafe = DepChecker->areDepsSafe(DependentAccesses,
-                                          Accesses.getDependenciesToCheck(),
-                                          Accesses.getUnderlyingObjects());
+                                          Accesses.getDependenciesToCheck());
 
     if (!DepsAreSafe && DepChecker->shouldRetryWithRuntimeCheck()) {
       LLVM_DEBUG(dbgs() << "LAA: Retrying with memory checks\n");
diff --git a/llvm/test/Analysis/LoopAccessAnalysis/load-store-index-loaded-in-loop.ll b/llvm/test/Analysis/LoopAccessAnalysis/load-store-index-loaded-in-loop.ll
index 2e61a28039846b..6d8e296ec72fa9 100644
--- a/llvm/test/Analysis/LoopAccessAnalysis/load-store-index-loaded-in-loop.ll
+++ b/llvm/test/Analysis/LoopAccessAnalysis/load-store-index-loaded-in-loop.ll
@@ -9,21 +9,19 @@
 define void @B_indices_loaded_in_loop_A_stored(ptr %A, ptr noalias %B, i64 %N, i64 %off) {
 ; CHECK-LABEL: 'B_indices_loaded_in_loop_A_stored'
 ; CHECK-NEXT:    loop:
-; CHECK-NEXT:      Memory dependences are safe with run-time checks
+; CHECK-NEXT:      Report: unsafe dependent memory operations in loop. Use #pragma clang loop distribute(enable) to allow loop distribution to attempt to isolate the offending operations into a separate loop
+; CHECK-NEXT:  Unsafe indirect dependence.
 ; CHECK-NEXT:      Dependences:
+; CHECK-NEXT:        IndirectUnsafe:
+; CHECK-NEXT:            %l = load i32, ptr %gep.B, align 4 ->
+; CHECK-NEXT:            store i32 %inc, ptr %gep.B, align 4
+; CHECK-EMPTY:
+; CHECK-NEXT:        Unknown:
+; CHECK-NEXT:            %indices = load i8, ptr %gep.A, align 1 ->
+; CHECK-NEXT:            store i32 %l, ptr %gep.C, align 4
+; CHECK-EMPTY:
 ; CHECK-NEXT:      Run-time memory checks:
-; CHECK-NEXT:      Check 0:
-; CHECK-NEXT:        Comparing group ([[GRP1:0x[0-9a-f]+]]):
-; CHECK-NEXT:          %gep.C = getelementptr inbounds i32, ptr %A, i64 %iv
-; CHECK-NEXT:        Against group ([[GRP2:0x[0-9a-f]+]]):
-; CHECK-NEXT:          %gep.A = getelementptr inbounds i8, ptr %A, i64 %iv.off
 ; CHECK-NEXT:      Grouped accesses:
-; CHECK-NEXT:        Group [[GRP1]]:
-; CHECK-NEXT:          (Low: %A High: ((4 * %N) + %A))
-; CHECK-NEXT:            Member: {%A,+,4}<nuw><%loop>
-; CHECK-NEXT:        Group [[GRP2]]:
-; CHECK-NEXT:          (Low: (%off + %A) High: (%N + %off + %A))
-; CHECK-NEXT:            Member: {(%off + %A),+,1}<nw><%loop>
 ; CHECK-EMPTY:
 ; CHECK-NEXT:      Non vectorizable stores to invariant address were not found in loop.
 ; CHECK-NEXT:      SCEV assumptions:
@@ -59,9 +57,9 @@ define void @B_indices_loaded_in_loop_A_not_stored(ptr %A, ptr noalias %B, i64 %
 ; CHECK-LABEL: 'B_indices_loaded_in_loop_A_not_stored'
 ; CHECK-NEXT:    loop:
 ; CHECK-NEXT:      Report: unsafe dependent memory operations in loop. Use #pragma clang loop distribute(enable) to allow loop distribution to attempt to isolate the offending operations into a separate loop
-; CHECK-NEXT:  Unknown data dependence.
+; CHECK-NEXT:  Unsafe indirect dependence.
 ; CHECK-NEXT:      Dependences:
-; CHECK-NEXT:        Unknown:
+; CHECK-NEXT:        IndirectUnsafe:
 ; CHECK-NEXT:            %l = load i32, ptr %gep.B, align 4 ->
 ; CHECK-NEXT:            store i32 %inc, ptr %gep.B, align 4
 ; CHECK-EMPTY:
diff --git a/llvm/test/Analysis/LoopAccessAnalysis/pointer-with-unknown-bounds.ll b/llvm/test/Analysis/LoopAccessAnalysis/pointer-with-unknown-bounds.ll
index 546a75cf4efd58..28ee6c6f0a89a7 100644
--- a/llvm/test/Analysis/LoopAccessAnalysis/pointer-with-unknown-bounds.ll
+++ b/llvm/test/Analysis/LoopAccessAnalysis/pointer-with-unknown-bounds.ll
@@ -13,9 +13,9 @@ target datalayout = "e-m:o-i64:64-f80:128-n8:16:32:64-S128"
 ; CHECK-NEXT: for.body:
 ; CHECK-NEXT:   Report: unsafe dependent memory operations in loop
 ; CHECK-NOT:    Report: cannot identify array bounds
-; CHECK-NEXT:   Unknown data dependence.
+; CHECK-NEXT:   Unsafe indirect dependence.
 ; CHECK-NEXT:     Dependences:
-; CHECK-NEXT:       Unknown:
+; CHECK-NEXT:       IndirectUnsafe:
 ; CHECK-NEXT:         %loadA = load i16, ptr %arrayidxA, align 2 ->
 ; CHECK-NEXT:         store i16 %mul, ptr %arrayidxA, align 2
 
diff --git a/llvm/test/Analysis/LoopAccessAnalysis/print-order.ll b/llvm/test/Analysis/LoopAccessAnalysis/print-order.ll
index 18e45f469b4a38..8ca30383092c67 100644
--- a/llvm/test/Analysis/LoopAccessAnalysis/print-order.ll
+++ b/llvm/test/Analysis/LoopAccessAnalysis/print-order.ll
@@ -9,8 +9,9 @@
 ; CHECK-LABEL: 'negative_step'
 ; CHECK: LAA: Found an analyzable loop: loop
 ; CHECK: LAA: Checking memory dependencies
-; CHECK-NEXT: LAA: Src Scev: {(4092 + %A),+,-4}<nw><%loop>Sink Scev: {(4088 + %A)<nuw>,+,-4}<nw><%loop>(Induction step: -1)
+; CHECK-NEXT: LAA: Src Scev: {(4092 + %A),+,-4}<nw><%loop>Sink Scev: {(4088 + %A)<nuw>,+,-4}<nw><%loop>
 ; CHECK-NEXT: LAA: Distance for   store i32 %add, ptr %gep.A.plus.1, align 4 to   %l = load i32, ptr %gep.A, align 4: -4
+; CHECK-NEXT: LAA: Src induction step: -1 Sink induction step: -1
 ; CHECK-NEXT: LAA: Dependence is negative
 
 define void @negative_step(ptr nocapture %A) {
@@ -41,8 +42,9 @@ exit:
 ; CHECK-LABEL: 'positive_step'
 ; CHECK: LAA: Found an analyzable loop: loop
 ; CHECK: LAA: Checking memory dependencies
-; CHECK-NEXT: LAA: Src Scev: {(4 + %A)<nuw>,+,4}<nuw><%loop>Sink Scev: {%A,+,4}<nw><%loop>(Induction step: 1)
+; CHECK-NEXT: LAA: Src Scev: {(4 + %A)<nuw>,+,4}<nuw><%loop>Sink Scev: {%A,+,4}<nw><%loop>
 ; CHECK-NEXT: LAA: Distance for   %l = load i32, ptr %gep.A, align 4 to   store i32 %add, ptr %gep.A.minus.1, align 4: -4
+; CHECK-NEXT: LAA: Src induction step: 1 Sink induction step: 1
 ; CHECK-NEXT: LAA: Dependence is negative
 
 define void @positive_step(ptr nocapture %A) {
diff --git a/llvm/test/Analysis/LoopAccessAnalysis/select-dependence.ll b/llvm/test/Analysis/LoopAccessAnalysis/select-dependence.ll
index 60fe8b4fcbed42..8bef7583c35c0f 100644
--- a/llvm/test/Analysis/LoopAccessAnalysis/select-dependence.ll
+++ b/llvm/test/Analysis/LoopAccessAnalysis/select-dependence.ll
@@ -5,9 +5,9 @@ define void @test(ptr noalias %x, ptr noalias %y, ptr noalias %z) {
 ; CHECK-LABEL: 'test'
 ; CHECK-NEXT:    loop:
 ; CHECK-NEXT:      Report: unsafe dependent memory operations in loop. Use #pragma clang loop distribute(enable) to allow loop distribution to attempt to isolate the offending operations into a separate loop
-; CHECK-NEXT:  Unknown data dependence.
+; CHECK-NEXT:  Unsafe indirect dependence.
 ; CHECK-NEXT:      Dependences:
-; CHECK-NEXT:        Unknown:
+; CHECK-NEXT:        IndirectUnsafe:
 ; CHECK-NEXT:            %load = load double, ptr %gep.sel, align 8 ->
 ; CHECK-NEXT:            store double %load, ptr %gep.sel2, align 8
 ; CHECK-EMPTY:
diff --git a/llvm/test/Analysis/LoopAccessAnalysis/symbolic-stride.ll b/llvm/test/Analysis/LoopAccessAnalysis/symbolic-stride.ll
index 7c1b11e22aef24..f0aed2421a96e5 100644
--- a/llvm/test/Analysis/LoopAccessAnalysis/symbolic-stride.ll
+++ b/llvm/test/Analysis/LoopAccessAnalysis/symbolic-stride.ll
@@ -276,9 +276,9 @@ define void @single_stride_used_for_trip_count(ptr noalias %A, ptr noalias %B, i
 ; CHECK-LABEL: 'single_stride_used_for_trip_count'
 ; CHECK-NEXT:    loop:
 ; CHECK-NEXT:      Report: unsafe dependent memory operations in loop. Use #pragma clang loop distribute(enable) to allow loop distribution to attempt to isolate the offending operations into a separate loop
-; CHECK-NEXT:  Unknown data dependence.
+; CHECK-NEXT:  Unsafe indirect dependence.
 ; CHECK-NEXT:      Dependences:
-; CHECK-NEXT:        Unknown:
+; CHECK-NEXT:        IndirectUnsafe:
 ; CHECK-NEXT:            %load = load i32, ptr %gep.A, align 4 ->
 ; CHECK-NEXT...
[truncated]

``````````

</details>


https://github.com/llvm/llvm-project/pull/102201


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