int32_t TR_CatchBlockRemover::perform() { TR::CFG *cfg = comp()->getFlowGraph(); if (cfg == NULL) { if (trace()) traceMsg(comp(), "Can't do Catch Block Removal, no CFG\n"); return 0; } if (trace()) traceMsg(comp(), "Starting Catch Block Removal\n"); bool thereMayBeRemovableCatchBlocks = false; { TR::StackMemoryRegion stackMemoryRegion(*trMemory()); TR::Block *block; ListIterator<TR::CFGEdge> edgeIterator; // Go through all blocks that have exception successors and see if any of them // are not reached. Mark each of these edges with a visit count so they can // be identified later. // vcount_t visitCount = comp()->incOrResetVisitCount(); TR::CFGNode *cfgNode; for (cfgNode = cfg->getFirstNode(); cfgNode; cfgNode = cfgNode->getNext()) { if (cfgNode->getExceptionSuccessors().empty()) continue; block = toBlock(cfgNode); uint32_t reachedExceptions = 0; TR::TreeTop *treeTop; for (treeTop = block->getEntry(); treeTop != block->getExit(); treeTop = treeTop->getNextTreeTop()) { reachedExceptions |= treeTop->getNode()->exceptionsRaised(); if (treeTop->getNode()->getOpCodeValue() == TR::monexitfence) // for live monitor metadata reachedExceptions |= TR::Block::CanCatchMonitorExit; } if (reachedExceptions & TR::Block::CanCatchUserThrows) continue; for (auto edge = block->getExceptionSuccessors().begin(); edge != block->getExceptionSuccessors().end();) { TR::CFGEdge * current = *(edge++); TR::Block *catchBlock = toBlock(current->getTo()); if (catchBlock->isOSRCodeBlock() || catchBlock->isOSRCatchBlock()) continue; if (!reachedExceptions && performTransformation(comp(), "%sRemove redundant exception edge from block_%d at [%p] to catch block_%d at [%p]\n", optDetailString(), block->getNumber(), block, catchBlock->getNumber(), catchBlock)) { cfg->removeEdge(block, catchBlock); thereMayBeRemovableCatchBlocks = true; } else { if (!catchBlock->canCatchExceptions(reachedExceptions)) { current->setVisitCount(visitCount); thereMayBeRemovableCatchBlocks = true; } } } } bool edgesRemoved = false; // Now look to see if there are any catch blocks for which all exception // predecessors have the visit count set. If so, the block is unreachable and // can be removed. // If only some of the exception predecessors are marked, these edges are // left in place to identify the try/catch structure properly. // while (thereMayBeRemovableCatchBlocks) { thereMayBeRemovableCatchBlocks = false; for (cfgNode = cfg->getFirstNode(); cfgNode; cfgNode = cfgNode->getNext()) { if (cfgNode->getExceptionPredecessors().empty()) continue; auto edgeIt = cfgNode->getExceptionPredecessors().begin(); for (; edgeIt != cfgNode->getExceptionPredecessors().end(); ++edgeIt) { if ((*edgeIt)->getVisitCount() != visitCount) break; } if (edgeIt == cfgNode->getExceptionPredecessors().end() && performTransformation(comp(), "%sRemove redundant catch block_%d at [%p]\n", optDetailString(), cfgNode->getNumber(), cfgNode)) { while (!cfgNode->getExceptionPredecessors().empty()) { cfg->removeEdge(cfgNode->getExceptionPredecessors().front()); } edgesRemoved = true; thereMayBeRemovableCatchBlocks = true; } } } // Any transformations invalidate use/def and value number information // if (edgesRemoved) { optimizer()->setUseDefInfo(NULL); optimizer()->setValueNumberInfo(NULL); requestOpt(OMR::treeSimplification, true); } } // scope of the stack memory region if (trace()) traceMsg(comp(), "\nEnding Catch Block Removal\n"); return 1; // actual cost }
TR_Latestness::TR_Latestness(TR::Compilation *comp, TR::Optimizer *optimizer, TR_Structure *rootStructure, bool trace) : TR_BackwardIntersectionBitVectorAnalysis(comp, comp->getFlowGraph(), optimizer, trace) { _delayedness = new (comp->allocator()) TR_Delayedness(comp, optimizer, rootStructure, trace); _supportedNodesAsArray = _delayedness->_supportedNodesAsArray; if (trace) traceMsg(comp, "Starting Latestness\n"); TR::CFG *cfg = comp->getFlowGraph(); _numberOfNodes = cfg->getNextNodeNumber(); TR_ASSERT(_numberOfNodes > 0, "Latestness, node numbers not assigned"); _numberOfBits = getNumberOfBits(); _inSetInfo = (ContainerType **)trMemory()->allocateStackMemory(_numberOfNodes*sizeof(ContainerType *)); for (int32_t i=0;i<_numberOfNodes;i++) allocateContainer(_inSetInfo+i); // Allocate temp bit vectors from block info, since it is local to this analysis ContainerType *intersection, *negation; allocateBlockInfoContainer(&intersection); allocateBlockInfoContainer(&negation); TR::CFGNode *nextNode; for (nextNode = cfg->getFirstNode(); nextNode; nextNode = nextNode->getNext()) { TR_BlockStructure *blockStructure = (toBlock(nextNode))->getStructureOf(); if ((blockStructure == NULL) || (blockStructure->getBlock()->getSuccessors().empty() && blockStructure->getBlock()->getExceptionSuccessors().empty())) continue; /////analyzeTreeTopsInBlockStructure(blockStructure); /////analysisInfo->_containsExceptionTreeTop = _containsExceptionTreeTop; initializeInfo(intersection); for (auto succ = nextNode->getSuccessors().begin(); succ != nextNode->getSuccessors().end(); ++succ) { TR::CFGNode *succBlock = (*succ)->getTo(); compose(intersection, _delayedness->_inSetInfo[succBlock->getNumber()]); } /////if (getAnalysisInfo(blockStructure)->_containsExceptionTreeTop) { for (auto succ = nextNode->getExceptionSuccessors().begin(); succ != nextNode->getExceptionSuccessors().end(); ++succ) { TR::CFGNode *succBlock = (*succ)->getTo(); compose(intersection, _delayedness->_inSetInfo[succBlock->getNumber()]); } } negation->setAll(_numberOfBits); *negation -= *intersection; copyFromInto(negation, _inSetInfo[blockStructure->getNumber()]); *(_inSetInfo[blockStructure->getNumber()]) |= *(_delayedness->_earliestness->_globalAnticipatability->_localAnticipatability.getDownwardExposedAnalysisInfo(blockStructure->getBlock()->getNumber())); *(_inSetInfo[blockStructure->getNumber()]) &= *(_delayedness->_inSetInfo[blockStructure->getNumber()]); if (trace) { traceMsg(comp, "\nIn Set of Block : %d\n", blockStructure->getNumber()); _inSetInfo[blockStructure->getNumber()]->print(comp); } } if (trace) traceMsg(comp, "\nEnding Latestness\n"); // Null out info that will not be used by callers _delayedness->_inSetInfo = NULL; _blockAnalysisInfo = NULL; }