static bool methodCanBeCompiled(OMR::FrontEnd *fe, TR_ResolvedMethod &method, TR_FilterBST *&filter, TR_Memory *trMemory) { if (!method.isCompilable(trMemory)) return false; if (!TR::Options::getDebug()) return true; return TR::Options::getDebug()->methodCanBeCompiled(trMemory, &method, filter); }
TR_BitVector * addVeryRefinedCallAliasSets(TR::ResolvedMethodSymbol * methodSymbol, TR_BitVector * aliases, List<void> * methodsPeeked) { TR::Compilation *comp = TR::comp(); void * methodId = methodSymbol->getResolvedMethod()->getPersistentIdentifier(); if (methodsPeeked->find(methodId)) { // This can't be allocated into the alias region as it must be accessed across optimizations TR_BitVector *heapAliases = new (comp->trHeapMemory()) TR_BitVector(comp->getSymRefCount(), comp->trMemory(), heapAlloc, growable); *heapAliases |= *aliases; return heapAliases; } // stop if the peek is getting very deep // if (methodsPeeked->getSize() >= PEEK_THRESHOLD) return 0; methodsPeeked->add(methodId); dumpOptDetails(comp, "O^O REFINING ALIASES: Peeking into the IL to refine aliases \n"); if (!methodSymbol->getResolvedMethod()->genMethodILForPeeking(methodSymbol, comp, true)) return 0; TR::SymbolReferenceTable * symRefTab = comp->getSymRefTab(); for (TR::TreeTop * tt = methodSymbol->getFirstTreeTop(); tt; tt = tt->getNextTreeTop()) { TR::Node *node = tt->getNode(); if (node->getOpCode().isResolveCheck()) return 0; if ((node->getOpCodeValue() == TR::treetop) || (node->getOpCodeValue() == TR::compressedRefs) || node->getOpCode().isCheck()) node = node->getFirstChild(); if (node->getOpCode().isStore()) { TR::SymbolReference * symRefInCallee = node->getSymbolReference(), * symRefInCaller; TR::Symbol * symInCallee = symRefInCallee->getSymbol(); TR::DataType type = symInCallee->getDataType(); if (symInCallee->isShadow()) { if (symInCallee->isArrayShadowSymbol()) symRefInCaller = symRefTab->getSymRef(symRefTab->getArrayShadowIndex(type)); else if (symInCallee->isArrayletShadowSymbol()) symRefInCaller = symRefTab->getSymRef(symRefTab->getArrayletShadowIndex(type)); else symRefInCaller = symRefTab->findShadowSymbol(symRefInCallee->getOwningMethod(comp), symRefInCallee->getCPIndex(), type); if (symRefInCaller) { if (symRefInCaller->reallySharesSymbol(comp)) symRefInCaller->setSharedShadowAliases(aliases, symRefTab); aliases->set(symRefInCaller->getReferenceNumber()); } } else if (symInCallee->isStatic()) { symRefInCaller = symRefTab->findStaticSymbol(symRefInCallee->getOwningMethod(comp), symRefInCallee->getCPIndex(), type); if (symRefInCaller) { if (symRefInCaller->reallySharesSymbol(comp)) symRefInCaller->setSharedStaticAliases(aliases, symRefTab); else aliases->set(symRefInCaller->getReferenceNumber()); } } } else if (node->getOpCode().isCall()) { if (node->getOpCode().isCallIndirect()) return 0; TR::ResolvedMethodSymbol * calleeSymbol = node->getSymbol()->getResolvedMethodSymbol(); if (!calleeSymbol) return 0; TR_ResolvedMethod * calleeMethod = calleeSymbol->getResolvedMethod(); if (!calleeMethod->isCompilable(comp->trMemory()) || calleeMethod->isJNINative()) return 0; if (!addVeryRefinedCallAliasSets(calleeSymbol, aliases, methodsPeeked)) return 0; } else if (node->getOpCodeValue() == TR::monent) return 0; } // This can't be allocated into the alias region as it must be accessed across optimizations TR_BitVector *heapAliases = new (comp->trHeapMemory()) TR_BitVector(comp->getSymRefCount(), comp->trMemory(), heapAlloc, growable); *heapAliases |= *aliases; return heapAliases; }