Beispiel #1
0
void
TR::RegDepCopyRemoval::updateSingleRegDep(TR_GlobalRegisterNumber reg, TR::Node *newValueNode)
   {
   RegDepInfo &dep = getRegDepInfo(reg);
   TR_ASSERT(_treetop->getNode()->getOpCodeValue() != TR::BBStart, "attempted to change %s in incoming GlRegDeps on BBStart n%un\n", registerName(reg), _treetop->getNode()->getGlobalIndex());

   TR::Node *prevChild = _regDeps->getChild(dep.childIndex);
   TR_ASSERT(prevChild == dep.node, "childIndex and node inconsistent in RegDepInfo for %s\n", registerName(reg));
   TR_ASSERT(prevChild->getGlobalRegisterNumber() == reg, "childIndex and reg inconsistent in RegDepInfo for %s\n", registerName(reg));

   if (newValueNode->getOpCode().isLoadReg()
       && newValueNode->getGlobalRegisterNumber() == reg)
      {
      _regDeps->setAndIncChild(dep.childIndex, newValueNode);
      }
   else
      {
      TR::Node *newOutgoingPassThroughNode = TR::Node::create(TR::PassThrough, 1, newValueNode);
      newOutgoingPassThroughNode->setGlobalRegisterNumber(reg);
      _regDeps->setAndIncChild(dep.childIndex, newOutgoingPassThroughNode);
      }

   prevChild->recursivelyDecReferenceCount();
   rememberNodeChoice(reg, newValueNode);
   }
Beispiel #2
0
int32_t TR::DeadTreesElimination::process(TR::TreeTop *startTree, TR::TreeTop *endTree)
   {
   TR::StackMemoryRegion stackRegion(*comp()->trMemory());
   LongestPathMap longestPaths(std::less<TR::Node*>(), stackRegion);

   typedef TR::typed_allocator<CRAnchor, TR::Region&> CRAnchorAlloc;
   typedef TR::forward_list<CRAnchor, CRAnchorAlloc> CRAnchorList;
   CRAnchorList anchors(stackRegion);

   vcount_t visitCount = comp()->incOrResetVisitCount();
   TR::TreeTop *treeTop;
   for (treeTop = startTree; (treeTop != endTree); treeTop = treeTop->getNextTreeTop())
      treeTop->getNode()->initializeFutureUseCounts(visitCount);

   TR::Block *block = NULL;
   bool delayedRegStoresBeforeThisPass = _delayedRegStores;

   // Update visitCount as they are used in this optimization and need to be
   visitCount = comp()->incOrResetVisitCount();
   for (TR::TreeTopIterator iter(startTree, comp()); iter != endTree; ++iter)
      {
      TR::Node *node = iter.currentTree()->getNode();

      if (node->getOpCodeValue() == TR::BBStart)
         {
         block = node->getBlock();
         if (!block->isExtensionOfPreviousBlock())
            longestPaths.clear();
         }

      int vcountLimit = MAX_VCOUNT - 3;
      if (comp()->getVisitCount() > vcountLimit)
         {
         dumpOptDetails(comp(),
            "%sVisit count %d exceeds limit %d; stopping\n",
            optDetailString(), comp()->getVisitCount(), vcountLimit);
         return 0;
         }

      // correct at all intermediate stages
      //
      if ((node->getOpCodeValue() != TR::treetop) &&
          (!node->getOpCode().isAnchor() || (node->getFirstChild()->getReferenceCount() != 1)) &&
          (!node->getOpCode().isStoreReg() || (node->getFirstChild()->getReferenceCount() != 1)) &&
          (delayedRegStoresBeforeThisPass ||
           (iter.currentTree() == block->getLastRealTreeTop()) ||
           !node->getOpCode().isStoreReg() ||
           (node->getVisitCount() == visitCount)))
         {
         if (node->getOpCode().isAnchor() && node->getFirstChild()->getOpCode().isLoadIndirect())
            anchors.push_front(CRAnchor(iter.currentTree(), block));

         TR::TransformUtil::recursivelySetNodeVisitCount(node, visitCount);
         continue;
         }

      if (node->getOpCode().isStoreReg())
         _delayedRegStores = true;

      TR::Node *child = node->getFirstChild();
      if (child->getOpCodeValue() == TR::PassThrough)
         {
         TR::Node *newChild = child->getFirstChild();
         node->setAndIncChild(0, newChild);
         newChild->incFutureUseCount();
         if (child->getReferenceCount() <= 1)
            optimizer()->prepareForNodeRemoval(child);
         child->recursivelyDecReferenceCount();
         recursivelyDecFutureUseCount(child);
         child = newChild;
         }

      bool treeTopCanBeEliminated = false;

      // If the treetop child has been seen before then it must be anchored
      // somewhere above already; so we don't need the treetop to be anchoring
      // this node (as the computation is already done at the first reference to
      // the node).
      //

      if (visitCount == child->getVisitCount())
         {
         treeTopCanBeEliminated = true;
         }
      else
         {
         TR::ILOpCode &childOpCode = child->getOpCode();
         TR::ILOpCodes opCodeValue = childOpCode.getOpCodeValue();
         bool seenConditionalBranch = false;

         bool callWithNoSideEffects = child->getOpCode().isCall() &&
              child->getSymbolReference()->getSymbol()->isResolvedMethod() &&
              child->getSymbolReference()->getSymbol()->castToResolvedMethodSymbol()->isSideEffectFree();

         if (callWithNoSideEffects)
            {
            treeTopCanBeEliminated = true;
            }
         else if (!((childOpCode.isCall() && !callWithNoSideEffects) ||
               childOpCode.isStore() ||
               ((opCodeValue == TR::New ||
                 opCodeValue == TR::anewarray ||
                 opCodeValue == TR::newarray) &&
                 child->getReferenceCount() > 1) ||
                 opCodeValue == TR::multianewarray ||
                 opCodeValue == TR::MergeNew ||
               opCodeValue == TR::checkcast ||
               opCodeValue == TR::Prefetch ||
               opCodeValue == TR::iu2l ||
               ((childOpCode.isDiv() ||
                 childOpCode.isRem()) &&
                 child->getNumChildren() == 3)))
            {
            // Perform the rather complex check to see whether its safe
            // to disconnect the child node from the treetop
            //
            bool safeToReplaceNode = false;
            if (child->getReferenceCount() == 1)
               {
               safeToReplaceNode = true;
#ifdef J9_PROJECT_SPECIFIC
               if (child->getOpCode().isPackedExponentiation())
                  {
                  // pdexp has a possible message side effect in truncating or no significant digits left cases
                  safeToReplaceNode = false;
                  }
#endif
               if (opCodeValue == TR::loadaddr)
                  treeTopCanBeEliminated = true;
               }
            else if (!_cannotBeEliminated)
               {
               safeToReplaceNode = isSafeToReplaceNode(
                  child,
                  iter.currentTree(),
                  &seenConditionalBranch,
                  visitCount,
                  comp(),
                  &_targetTrees,
                  _cannotBeEliminated,
                  longestPaths);
               }

            if (safeToReplaceNode)
               {
               if (childOpCode.hasSymbolReference())
                  {
                  TR::SymbolReference *symRef = child->getSymbolReference();

                  if (symRef->getSymbol()->isAuto() || symRef->getSymbol()->isParm())
                     treeTopCanBeEliminated = true;
                  else
                     {
                     if (childOpCode.isLoad() ||
                         (opCodeValue == TR::loadaddr) ||
                         (opCodeValue == TR::instanceof) ||
                         (((opCodeValue == TR::New)  ||
                            (opCodeValue == TR::anewarray ||
                              opCodeValue == TR::newarray)) &&
                          ///child->getFirstChild()->isNonNegative()))
                           child->markedAllocationCanBeRemoved()))
                       //        opCodeValue == TR::multianewarray ||
                       //        opCodeValue == TR::MergeNew)
                        treeTopCanBeEliminated = true;
                     }
                  }
               else
                  treeTopCanBeEliminated = true;
               }
            }

         // Fix for the case when a float to non-float conversion node swings
         // down past a branch on IA32; this would cause a FP value to be commoned
         // across a branch where there was none originally; this causes pblms
         // as a value is left on the stack.
         //
         if (treeTopCanBeEliminated &&
             seenConditionalBranch)
            {
            if (!cg()->getSupportsJavaFloatSemantics())
               {
               if (child->getOpCode().isConversion() ||
                   child->getOpCode().isBooleanCompare())
                 {
                 if (child->getFirstChild()->getOpCode().isFloatingPoint() &&
                     !child->getOpCode().isFloatingPoint())
                     treeTopCanBeEliminated = false;
                 }
               }
            }

         if (treeTopCanBeEliminated)
            {
            TR::NodeChecklist visited(comp());
            bool containsFloatingPoint = false;
            for (int32_t i = 0; i < child->getNumChildren(); ++i)
               {
               // Anchor nodes with reference count > 1
               //
               bool highGlobalIndex = false;
               if (fixUpTree(child->getChild(i), iter.currentTree(), visited, highGlobalIndex, self(), visitCount))
                  containsFloatingPoint = true;
               if (highGlobalIndex)
                  {
                  dumpOptDetails(comp(),
                     "%sGlobal index limit exceeded; stopping\n",
                     optDetailString());
                  return 0;
                  }
               }

            if (seenConditionalBranch &&
                containsFloatingPoint)
               {
               if (!cg()->getSupportsJavaFloatSemantics())
                  treeTopCanBeEliminated = false;
               }
            }
         }

      // Update visitCount as they are used in this optimization and need to be
      // correct at all intermediate stages
      //
      if (!treeTopCanBeEliminated)
         TR::TransformUtil::recursivelySetNodeVisitCount(node, visitCount);

      if (treeTopCanBeEliminated)
         {
         TR::TreeTop *prevTree = iter.currentTree()->getPrevTreeTop();
         TR::TreeTop *nextTree = iter.currentTree()->getNextTreeTop();

         if (!node->getOpCode().isStoreReg() || (node->getFirstChild()->getReferenceCount() == 1))
            {
            // Actually going to remove the treetop now
            //
            if (performTransformation(comp(), "%sRemove tree : [" POINTER_PRINTF_FORMAT "] ([" POINTER_PRINTF_FORMAT "] = %s)\n", optDetailString(), node, node->getFirstChild(), node->getFirstChild()->getOpCode().getName()))
               {
               prevTree->join(nextTree);
               optimizer()->prepareForNodeRemoval(node);
               ///child->recursivelyDecReferenceCount();
               node->recursivelyDecReferenceCount();
               recursivelyDecFutureUseCount(child);
               iter.jumpTo(prevTree);
               if (child->getReferenceCount() == 1)
                  requestOpt(OMR::treeSimplification, true, block);

               if (nextTree->getNode()->getOpCodeValue() == TR::Goto
                   && prevTree->getNode()->getOpCodeValue() == TR::BBStart
                   && !prevTree->getNode()->getBlock()->isExtensionOfPreviousBlock())
                  {
                  requestOpt(
                     OMR::redundantGotoElimination,
                     prevTree->getNode()->getBlock());
                  }
               }
            }
         else
            {
            if (performTransformation(comp(), "%sMove tree : [" POINTER_PRINTF_FORMAT "]([" POINTER_PRINTF_FORMAT "] = %s) to end of block\n", optDetailString(), node, node->getFirstChild(), node->getFirstChild()->getOpCode().getName()))
               {
               prevTree->join(nextTree);
               node->setVisitCount(visitCount);

               TR::TreeTop *lastTree = findLastTreetop(block, prevTree);
               TR::TreeTop *prevLastTree = lastTree->getPrevTreeTop();

               TR::TreeTop *cursorTreeTop = nextTree;
               while (cursorTreeTop != lastTree)
                  {
                  if (cursorTreeTop->getNode()->getOpCode().isStoreReg() &&
                      (cursorTreeTop->getNode()->getGlobalRegisterNumber() == iter.currentTree()->getNode()->getGlobalRegisterNumber()))
                     {
                     lastTree = cursorTreeTop;
                     prevLastTree = lastTree->getPrevTreeTop();
                     break;
                     }

                  cursorTreeTop = cursorTreeTop->getNextTreeTop();
                  }

               if (lastTree->getNode()->getOpCodeValue() == TR::BBStart)
                  {
                  prevLastTree = lastTree;
                  lastTree = block->getExit();
                  }

               TR::Node *lastNode = lastTree->getNode();
               TR::Node *prevLastNode = prevLastTree->getNode();

               if (lastNode->getOpCode().isIf() && !lastNode->getOpCode().isCompBranchOnly() &&
                   prevLastNode->getOpCode().isStoreReg() &&
                   ((prevLastNode->getFirstChild() == lastNode->getFirstChild()) ||
                    (prevLastNode->getFirstChild() == lastNode->getSecondChild())))
                  {
                  lastTree = prevLastTree;
                  prevLastTree = lastTree->getPrevTreeTop();
                  }

               prevLastTree->join(iter.currentTree());
               iter.currentTree()->join(lastTree);

               iter.jumpTo(prevTree);
               requestOpt(OMR::treeSimplification, true, block);
               }
            }
         }
      }

   for (auto it = anchors.begin(); it != anchors.end(); ++it)
      {
      TR::Node *anchor = it->tree->getNode();
      TR::Node *load = anchor->getChild(0);
      if (load->getReferenceCount() > 1)
         continue;

      // We can eliminate the indirect load immediately, but for the moment the
      // subtree providing the base object has to be anchored.

      TR::Node *heapBase = anchor->getChild(1);

      TR::Node::recreate(anchor, TR::treetop);
      anchor->setAndIncChild(0, load->getChild(0));
      anchor->setChild(1, NULL);
      anchor->setNumChildren(1);

      if (!heapBase->getOpCode().isLoadConst())
         {
         it->tree->insertAfter(
            TR::TreeTop::create(
               comp(),
               TR::Node::create(heapBase, TR::treetop, 1, heapBase)));
         }

      load->recursivelyDecReferenceCount();
      heapBase->recursivelyDecReferenceCount();

      // A later pass of dead trees can likely move (or even remove) the base
      // object expression.

      requestOpt(OMR::deadTreesElimination, true, it->block);
      }

   return 1; // actual cost
   }