Answer to Philip Reames comments

- add check for volatile (probably unneeded, but I agree that we should be conservative about it). - strengthen condition from isUnordered() to isSimple(), as I don't understand well enough Unordered semantics (and it also matches the comment better this way) to be confident in the previous behaviour (thanks for catching that one, I had missed the case Monotonic/Unordered). - separate a condition in two. - lengthen comment about aliasing and loads - add tests in GVN/atomic.ll git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@215943 91177308-0d34-0410-b5e6-96231b3b80d8
2025-06-26 23:24:34 +00:00 · 2014-08-18 22:18:14 +00:00
parent 6c0e1e0fa6
commit 0acd42142a
2 changed files with 53 additions and 6 deletions
--- a/lib/Analysis/MemoryDependenceAnalysis.cpp
+++ b/lib/Analysis/MemoryDependenceAnalysis.cpp
@ -407,21 +407,33 @@ getPointerDependencyFrom(const AliasAnalysis::Location &MemLoc, bool isLoad,

    // Values depend on loads if the pointers are must aliased.  This means that
    // a load depends on another must aliased load from the same value.
+    // One exception is atomic loads: a value can depend on an atomic load that it
+    // does not alias with when this atomic load indicates that another thread may
+    // be accessing the location.
    if (LoadInst *LI = dyn_cast<LoadInst>(Inst)) {
      // Atomic loads have complications involved.
      // A monotonic load is OK if the query inst is itself not atomic.
      // FIXME: This is overly conservative.
      if (!LI->isUnordered()) {
-        if (!QueryInst || LI->getOrdering() != Monotonic)
+        if (!QueryInst)
+          return MemDepResult::getClobber(LI);
+        if (LI->getOrdering() != Monotonic)
          return MemDepResult::getClobber(LI);
        if (auto *QueryLI = dyn_cast<LoadInst>(QueryInst))
-          if (!QueryLI->isUnordered())
+          if (!QueryLI->isSimple())
            return MemDepResult::getClobber(LI);
        if (auto *QuerySI = dyn_cast<StoreInst>(QueryInst))
-          if (!QuerySI->isUnordered())
+          if (!QuerySI->isSimple())
            return MemDepResult::getClobber(LI);
      }

+      // FIXME: this is overly conservative.
+      // While volatile access cannot be eliminated, they do not have to clobber
+      // non-aliasing locations, as normal accesses can for example be reordered
+      // with volatile accesses.
+      if (LI->isVolatile())
+        return MemDepResult::getClobber(LI);
+
      AliasAnalysis::Location LoadLoc = AA->getLocation(LI);

      // If we found a pointer, check if it could be the same as our pointer.
@ -481,16 +493,25 @@ getPointerDependencyFrom(const AliasAnalysis::Location &MemLoc, bool isLoad,
      // A monotonic store is OK if the query inst is itself not atomic.
      // FIXME: This is overly conservative.
      if (!SI->isUnordered()) {
-        if (!QueryInst || SI->getOrdering() != Monotonic)
+        if (!QueryInst)
+          return MemDepResult::getClobber(SI);
+        if (SI->getOrdering() != Monotonic)
          return MemDepResult::getClobber(SI);
        if (auto *QueryLI = dyn_cast<LoadInst>(QueryInst))
-          if (!QueryLI->isUnordered())
+          if (!QueryLI->isSimple())
            return MemDepResult::getClobber(SI);
        if (auto *QuerySI = dyn_cast<StoreInst>(QueryInst))
-          if (!QuerySI->isUnordered())
+          if (!QuerySI->isSimple())
            return MemDepResult::getClobber(SI);
      }

+      // FIXME: this is overly conservative.
+      // While volatile access cannot be eliminated, they do not have to clobber
+      // non-aliasing locations, as normal accesses can for example be reordered
+      // with volatile accesses.
+      if (SI->isVolatile())
+        return MemDepResult::getClobber(SI);
+
      // If alias analysis can tell that this store is guaranteed to not modify
      // the query pointer, ignore it.  Use getModRefInfo to handle cases where
      // the query pointer points to constant memory etc.