TR_BitVector * OMR::SymbolReference::getUseonlyAliasesBV(TR::SymbolReferenceTable * symRefTab) { int32_t kind = _symbol->getKind(); switch (kind) { case TR::Symbol::IsMethod: { TR::MethodSymbol * methodSymbol = _symbol->castToMethodSymbol(); // Aliasing for potentialOSRPointHelper // A potentialOSRPointHelper call is an exception point that may go to OSR catch block ( see // Node API exceptionsRaised), the control flow constraint imposed by the exception edge will // apply to all the global optimizations that may move things around. Local optimizations also // ask exceptionsRaised to determine if a code motion across certain point is safe. So aliasing // is not necessary. However, we'd like to add aliasing here to cause the compiler to be more // conservative about reordering this helper with other operations. The aliasing can always be // relaxed when necessary. // if (symRefTab->isNonHelper(self(), TR::SymbolReferenceTable::potentialOSRPointHelperSymbol)) { return &symRefTab->aliasBuilder.defaultMethodUseAliases(); } // Aliasing for osrFearPointHelper // Preventing the reordering of fear point helper w.r.t. OSR points and yield/invalidation points is // the minimum requirement of aliasing for OSR fear point helper. These reorderings would in almost // all cases be naturally disallowed simply due to the fact that the fear point is represented as a // call, which even without aliasing could e.g. perform I/O. Thus the following is a highly conservative // aliasing and can be relaxed later when necessary // if (symRefTab->isNonHelper(self(), TR::SymbolReferenceTable::osrFearPointHelperSymbol)) { return &symRefTab->aliasBuilder.defaultMethodUseAliases(); } if (!methodSymbol->isHelper()) { return &symRefTab->aliasBuilder.defaultMethodUseAliases(); } switch (self()->getReferenceNumber()) { case TR_asyncCheck: return 0; // helpers that don't throw have no use aliases case TR_instanceOf: case TR_checkAssignable: case TR_monitorEntry: case TR_transactionEntry: case TR_reportFinalFieldModified: case TR_reportMethodEnter: case TR_reportStaticMethodEnter: case TR_reportMethodExit: case TR_acquireVMAccess: case TR_throwCurrentException: case TR_releaseVMAccess: case TR_stackOverflow: case TR_writeBarrierStore: case TR_writeBarrierStoreGenerational: case TR_writeBarrierStoreGenerationalAndConcurrentMark: case TR_writeBarrierBatchStore: case TR_typeCheckArrayStore: case TR_arrayStoreException: case TR_arrayBoundsCheck: case TR_checkCast: case TR_divCheck: case TR_overflowCheck: case TR_nullCheck: case TR_methodTypeCheck: case TR_incompatibleReceiver: case TR_IncompatibleClassChangeError: case TR_aThrow: case TR_aNewArray: case TR_monitorExit: case TR_transactionExit: case TR_newObject: case TR_newObjectNoZeroInit: case TR_newArray: case TR_multiANewArray: default: return &symRefTab->aliasBuilder.defaultMethodUseAliases(); } } case TR::Symbol::IsResolvedMethod: { TR::ResolvedMethodSymbol * resolvedMethodSymbol = _symbol->castToResolvedMethodSymbol(); if (!TR::comp()->getOption(TR_EnableHCR)) { switch (resolvedMethodSymbol->getRecognizedMethod()) { #ifdef J9_PROJECT_SPECIFIC case TR::java_lang_Double_longBitsToDouble: case TR::java_lang_Double_doubleToLongBits: case TR::java_lang_Float_intBitsToFloat: case TR::java_lang_Float_floatToIntBits: case TR::java_lang_Double_doubleToRawLongBits: case TR::java_lang_Float_floatToRawIntBits: case TR::java_lang_Math_sqrt: case TR::java_lang_StrictMath_sqrt: case TR::java_lang_Math_sin: case TR::java_lang_StrictMath_sin: case TR::java_lang_Math_cos: case TR::java_lang_StrictMath_cos: case TR::java_lang_Math_max_I: case TR::java_lang_Math_min_I: case TR::java_lang_Math_max_L: case TR::java_lang_Math_min_L: case TR::java_lang_Math_abs_I: case TR::java_lang_Math_abs_L: case TR::java_lang_Math_abs_F: case TR::java_lang_Math_abs_D: case TR::java_lang_Math_pow: case TR::java_lang_StrictMath_pow: case TR::java_lang_Math_exp: case TR::java_lang_StrictMath_exp: case TR::java_lang_Math_log: case TR::java_lang_StrictMath_log: case TR::java_lang_Math_floor: case TR::java_lang_Math_ceil: case TR::java_lang_Math_copySign_F: case TR::java_lang_Math_copySign_D: case TR::java_lang_StrictMath_floor: case TR::java_lang_StrictMath_ceil: case TR::java_lang_StrictMath_copySign_F: case TR::java_lang_StrictMath_copySign_D: return NULL; #endif default: break; } } return &symRefTab->aliasBuilder.defaultMethodUseAliases(); } case TR::Symbol::IsAutomatic: case TR::Symbol::IsParameter: if (symRefTab->aliasBuilder.catchLocalUseSymRefs().isSet(self()->getReferenceNumber())) return &symRefTab->aliasBuilder.methodsThatMayThrow(); return 0; default: //TR_ASSERT(0, "getUseOnlyAliases: unexpected symbol kind "); return 0; } }
TR_BitVector * OMR::SymbolReference::getUseDefAliasesBV(bool isDirectCall, bool includeGCSafePoint) { TR::Compilation *comp = TR::comp(); TR::Region &aliasRegion = comp->aliasRegion(); int32_t bvInitialSize = comp->getSymRefCount(); TR_BitVectorGrowable growability = growable; // allow more than one shadow for an array type. Used by LoopAliasRefiner const bool supportArrayRefinement=true; int32_t kind = _symbol->getKind(); TR::SymbolReferenceTable * symRefTab = comp->getSymRefTab(); // !!! NOTE !!! // THERE IS A COPY OF THIS LOGIC IN sharesSymbol // if (!self()->reallySharesSymbol(comp)) { switch (kind) { case TR::Symbol::IsShadow: case TR::Symbol::IsStatic: { // For unresolved constant dynamic, we need to invoke a Java bootstrap method, // which can have arbitrary side effects, so the aliasing should be conservative here. // isConstObjectRef now returns true for condy, so we add an explicit condition, // more like a short-circuit, to say if we are unresolved and not isConstObjectRef // (this is the same as before), or if we are unresolved and condy // (this is the extra condition added), we would return conservative aliases. if ((self()->isUnresolved() && (_symbol->isConstantDynamic() || !_symbol->isConstObjectRef())) || _symbol->isVolatile() || self()->isLiteralPoolAddress() || self()->isFromLiteralPool() || _symbol->isUnsafeShadowSymbol() || (_symbol->isArrayShadowSymbol() && comp->getMethodSymbol()->hasVeryRefinedAliasSets())) { // getUseDefAliases might not return NULL } else if (!symRefTab->aliasBuilder.mutableGenericIntShadowHasBeenCreated()) { // getUseDefAliases must return NULL return NULL; } else if (kind == TR::Symbol::IsStatic && !symRefTab->aliasBuilder.litPoolGenericIntShadowHasBeenCreated()) { // getUseDefAliases must return NULL return NULL; } break; } } } // now do stuff for various kinds of symbols // switch (kind) { case TR::Symbol::IsMethod: { TR::MethodSymbol * methodSymbol = _symbol->castToMethodSymbol(); if (!methodSymbol->isHelper()) return symRefTab->aliasBuilder.methodAliases(self()); if (symRefTab->isNonHelper(self(), TR::SymbolReferenceTable::arraySetSymbol) || symRefTab->isNonHelper(self(), TR::SymbolReferenceTable::osrFearPointHelperSymbol) || symRefTab->isNonHelper(self(), TR::SymbolReferenceTable::potentialOSRPointHelperSymbol)) { return &symRefTab->aliasBuilder.defaultMethodDefAliases(); } if (symRefTab->isNonHelper(self(), TR::SymbolReferenceTable::arrayCmpSymbol)) return 0; switch (self()->getReferenceNumber()) { case TR_methodTypeCheck: case TR_nullCheck: return &symRefTab->aliasBuilder.defaultMethodDefAliasesWithoutImmutable(); case TR_arrayBoundsCheck: case TR_checkCast: case TR_divCheck: case TR_typeCheckArrayStore: case TR_arrayStoreException: case TR_incompatibleReceiver: case TR_IncompatibleClassChangeError: case TR_reportFinalFieldModified: case TR_reportMethodEnter: case TR_reportStaticMethodEnter: case TR_reportMethodExit: case TR_acquireVMAccess: case TR_instanceOf: case TR_checkAssignable: case TR_throwCurrentException: case TR_releaseVMAccess: case TR_stackOverflow: case TR_writeBarrierStore: case TR_writeBarrierBatchStore: case TR_jitProfileAddress: case TR_jitProfileWarmCompilePICAddress: case TR_jitProfileValue: case TR_jitProfileLongValue: case TR_jitProfileBigDecimalValue: case TR_jitProfileParseBuffer: return 0; case TR_asyncCheck: case TR_writeBarrierClassStoreRealTimeGC: case TR_writeBarrierStoreRealTimeGC: case TR_aNewArray: case TR_newObject: case TR_newObjectNoZeroInit: case TR_newArray: case TR_multiANewArray: if ((comp->generateArraylets() || comp->isDLT()) && includeGCSafePoint) return &symRefTab->aliasBuilder.gcSafePointSymRefNumbers(); else return 0; case TR_aThrow: return 0; // The monitor exit symbol needs to be aliased with all fields in the // current class to ensure that all references to fields are evaluated // before the monitor exit case TR_monitorExit: case TR_monitorEntry: case TR_transactionExit: case TR_transactionEntry: default: // The following is the place to check for // a use of killsAllMethodSymbolRef... However, // it looks like the default action is sufficient. //if (symRefTab->findKillsAllMethodSymbolRef() == self()) // { // } return &symRefTab->aliasBuilder.defaultMethodDefAliases(); } } case TR::Symbol::IsResolvedMethod: { TR::ResolvedMethodSymbol * resolvedMethodSymbol = _symbol->castToResolvedMethodSymbol(); if (!comp->getOption(TR_EnableHCR)) { switch (resolvedMethodSymbol->getRecognizedMethod()) { #ifdef J9_PROJECT_SPECIFIC case TR::java_lang_System_arraycopy: { TR_BitVector * aliases = new (aliasRegion) TR_BitVector(bvInitialSize, aliasRegion, growability); *aliases |= symRefTab->aliasBuilder.arrayElementSymRefs(); if (comp->generateArraylets()) *aliases |= symRefTab->aliasBuilder.arrayletElementSymRefs(); return aliases; } if (resolvedMethodSymbol->isPureFunction()) return NULL; case TR::java_lang_Double_longBitsToDouble: case TR::java_lang_Double_doubleToLongBits: case TR::java_lang_Float_intBitsToFloat: case TR::java_lang_Float_floatToIntBits: case TR::java_lang_Double_doubleToRawLongBits: case TR::java_lang_Float_floatToRawIntBits: case TR::java_lang_Math_sqrt: case TR::java_lang_StrictMath_sqrt: case TR::java_lang_Math_sin: case TR::java_lang_StrictMath_sin: case TR::java_lang_Math_cos: case TR::java_lang_StrictMath_cos: case TR::java_lang_Math_max_I: case TR::java_lang_Math_min_I: case TR::java_lang_Math_max_L: case TR::java_lang_Math_min_L: case TR::java_lang_Math_abs_I: case TR::java_lang_Math_abs_L: case TR::java_lang_Math_abs_F: case TR::java_lang_Math_abs_D: case TR::java_lang_Math_pow: case TR::java_lang_StrictMath_pow: case TR::java_lang_Math_exp: case TR::java_lang_StrictMath_exp: case TR::java_lang_Math_log: case TR::java_lang_StrictMath_log: case TR::java_lang_Math_floor: case TR::java_lang_Math_ceil: case TR::java_lang_Math_copySign_F: case TR::java_lang_Math_copySign_D: case TR::java_lang_StrictMath_floor: case TR::java_lang_StrictMath_ceil: case TR::java_lang_StrictMath_copySign_F: case TR::java_lang_StrictMath_copySign_D: case TR::com_ibm_Compiler_Internal__TR_Prefetch: case TR::java_nio_Bits_keepAlive: if ((comp->generateArraylets() || comp->isDLT()) && includeGCSafePoint) return &symRefTab->aliasBuilder.gcSafePointSymRefNumbers(); else return 0; // no aliasing on DFP dummy stubs case TR::java_math_BigDecimal_DFPPerformHysteresis: case TR::java_math_BigDecimal_DFPUseDFP: case TR::java_math_BigDecimal_DFPHWAvailable: case TR::java_math_BigDecimal_DFPCompareTo: case TR::java_math_BigDecimal_DFPUnscaledValue: case TR::com_ibm_dataaccess_DecimalData_DFPFacilityAvailable: case TR::com_ibm_dataaccess_DecimalData_DFPUseDFP: case TR::com_ibm_dataaccess_DecimalData_DFPConvertPackedToDFP: case TR::com_ibm_dataaccess_DecimalData_DFPConvertDFPToPacked: case TR::com_ibm_dataaccess_DecimalData_createZeroBigDecimal: case TR::com_ibm_dataaccess_DecimalData_getlaside: case TR::com_ibm_dataaccess_DecimalData_setlaside: case TR::com_ibm_dataaccess_DecimalData_getflags: case TR::com_ibm_dataaccess_DecimalData_setflags: if (!( #ifdef TR_TARGET_S390 TR::Compiler->target.cpu.getS390SupportsDFP() || #endif TR::Compiler->target.cpu.supportsDecimalFloatingPoint()) || comp->getOption(TR_DisableDFP)) return NULL; #endif //J9_PROJECT_SPECIFIC default: break; } } #ifdef J9_PROJECT_SPECIFIC TR_ResolvedMethod * method = resolvedMethodSymbol->getResolvedMethod(); TR_PersistentMethodInfo * methodInfo = TR_PersistentMethodInfo::get(method); if (methodInfo && (methodInfo->hasRefinedAliasSets() || comp->getMethodHotness() >= veryHot || resolvedMethodSymbol->hasVeryRefinedAliasSets()) && (method->isStatic() || method->isFinal() || isDirectCall)) { TR_BitVector * aliases = new (aliasRegion) TR_BitVector(bvInitialSize, aliasRegion, growability); if ((comp->generateArraylets() || comp->isDLT()) && includeGCSafePoint) *aliases |= symRefTab->aliasBuilder.gcSafePointSymRefNumbers(); if (methodInfo->doesntKillAnything() && !comp->getOption(TR_DisableRefinedAliases)) return aliases; if ((resolvedMethodSymbol->hasVeryRefinedAliasSets() || comp->getMethodHotness() >= hot) && !debug("disableVeryRefinedCallAliasSets")) { TR_BitVector * exactAliases = 0; if (resolvedMethodSymbol->hasVeryRefinedAliasSets()) exactAliases = symRefTab->aliasBuilder.getVeryRefinedCallAliasSets(resolvedMethodSymbol); else { resolvedMethodSymbol->setHasVeryRefinedAliasSets(true); List<void> methodsPeeked(comp->trMemory()); exactAliases = addVeryRefinedCallAliasSets(resolvedMethodSymbol, aliases, &methodsPeeked); symRefTab->aliasBuilder.setVeryRefinedCallAliasSets(resolvedMethodSymbol, exactAliases); } if (exactAliases) { return exactAliases; } } // From here on, we're just checking refined alias info. // If refined aliases are disabled, return the conservative answer // we would have returned had we never attempted to use refined // aliases at all. // if (comp->getOption(TR_DisableRefinedAliases)) return symRefTab->aliasBuilder.methodAliases(self()); if (!methodInfo->doesntKillAddressArrayShadows()) { symRefTab->aliasBuilder.addAddressArrayShadows(aliases); if (comp->generateArraylets()) aliases->set(symRefTab->getArrayletShadowIndex(TR::Address)); } if (!methodInfo->doesntKillIntArrayShadows()) { symRefTab->aliasBuilder.addIntArrayShadows(aliases); if (comp->generateArraylets()) { aliases->set(symRefTab->getArrayletShadowIndex(TR::Int32)); } } if (!methodInfo->doesntKillNonIntPrimitiveArrayShadows()) { symRefTab->aliasBuilder.addNonIntPrimitiveArrayShadows(aliases); if (comp->generateArraylets()) { aliases->set(symRefTab->getArrayletShadowIndex(TR::Int8)); aliases->set(symRefTab->getArrayletShadowIndex(TR::Int16)); aliases->set(symRefTab->getArrayletShadowIndex(TR::Int32)); aliases->set(symRefTab->getArrayletShadowIndex(TR::Int64)); aliases->set(symRefTab->getArrayletShadowIndex(TR::Float)); aliases->set(symRefTab->getArrayletShadowIndex(TR::Double)); } } if (!methodInfo->doesntKillAddressFields()) *aliases |= symRefTab->aliasBuilder.addressShadowSymRefs(); if (!methodInfo->doesntKillIntFields()) *aliases |= symRefTab->aliasBuilder.intShadowSymRefs(); if (!methodInfo->doesntKillNonIntPrimitiveFields()) *aliases |= symRefTab->aliasBuilder.nonIntPrimitiveShadowSymRefs(); if (!methodInfo->doesntKillAddressStatics()) *aliases |= symRefTab->aliasBuilder.addressStaticSymRefs(); if (!methodInfo->doesntKillIntStatics()) *aliases |= symRefTab->aliasBuilder.intStaticSymRefs(); if (!methodInfo->doesntKillNonIntPrimitiveStatics()) *aliases |= symRefTab->aliasBuilder.nonIntPrimitiveStaticSymRefs(); TR_BitVector *methodAliases = symRefTab->aliasBuilder.methodAliases(self()); *aliases &= *methodAliases; return aliases; } #endif return symRefTab->aliasBuilder.methodAliases(self()); } case TR::Symbol::IsShadow: { if ((self()->isUnresolved() && !_symbol->isConstObjectRef()) || _symbol->isVolatile() || self()->isLiteralPoolAddress() || self()->isFromLiteralPool() || (_symbol->isUnsafeShadowSymbol() && !self()->reallySharesSymbol())) { if (symRefTab->aliasBuilder.unsafeArrayElementSymRefs().get(self()->getReferenceNumber())) { TR_BitVector *aliases = new (aliasRegion) TR_BitVector(bvInitialSize, aliasRegion, growability); *aliases |= comp->getSymRefTab()->aliasBuilder.defaultMethodDefAliasesWithoutImmutable(); *aliases -= symRefTab->aliasBuilder.cpSymRefs(); return aliases; } else return &comp->getSymRefTab()->aliasBuilder.defaultMethodDefAliasesWithoutImmutable(); } TR_BitVector *aliases = NULL; if (_symbol == symRefTab->findGenericIntShadowSymbol()) { aliases = new (aliasRegion) TR_BitVector(bvInitialSize, aliasRegion, growability); *aliases |= symRefTab->aliasBuilder.arrayElementSymRefs(); if (comp->generateArraylets()) *aliases |= symRefTab->aliasBuilder.arrayletElementSymRefs(); *aliases |= symRefTab->aliasBuilder.genericIntShadowSymRefs(); *aliases |= symRefTab->aliasBuilder.genericIntArrayShadowSymRefs(); *aliases |= symRefTab->aliasBuilder.genericIntNonArrayShadowSymRefs(); *aliases |= symRefTab->aliasBuilder.unsafeSymRefNumbers(); #ifdef J9_PROJECT_SPECIFIC *aliases |= symRefTab->aliasBuilder.unresolvedShadowSymRefs(); #endif if (symRefTab->aliasBuilder.conservativeGenericIntShadowAliasing()) { *aliases |= symRefTab->aliasBuilder.addressShadowSymRefs(); *aliases |= symRefTab->aliasBuilder.intShadowSymRefs(); *aliases |= symRefTab->aliasBuilder.nonIntPrimitiveShadowSymRefs(); } aliases->set(self()->getReferenceNumber()); return aliases; } if (self()->reallySharesSymbol(comp)) { aliases = new (aliasRegion) TR_BitVector(bvInitialSize, aliasRegion, growability); self()->setSharedShadowAliases(aliases, symRefTab); } if (symRefTab->findGenericIntShadowSymbol()) { if (!aliases) aliases = new (aliasRegion) TR_BitVector(bvInitialSize, aliasRegion, growability); self()->setLiteralPoolAliases(aliases, symRefTab); if (symRefTab->aliasBuilder.conservativeGenericIntShadowAliasing() || self()->isUnresolved()) { *aliases |= symRefTab->aliasBuilder.genericIntShadowSymRefs(); *aliases |= symRefTab->aliasBuilder.genericIntArrayShadowSymRefs(); *aliases |= symRefTab->aliasBuilder.genericIntNonArrayShadowSymRefs(); } } if (_symbol->isArrayShadowSymbol() && symRefTab->findGenericIntShadowSymbol()) { if (!aliases) aliases = new (aliasRegion) TR_BitVector(bvInitialSize, aliasRegion, growability); *aliases |= symRefTab->aliasBuilder.genericIntShadowSymRefs(); *aliases |= symRefTab->aliasBuilder.genericIntArrayShadowSymRefs(); if (supportArrayRefinement && self()->getIndependentSymRefs()) *aliases -= *self()->getIndependentSymRefs(); } #ifdef J9_PROJECT_SPECIFIC // make TR::PackedDecimal aliased with TR::Int8(byte) if (_symbol->isArrayShadowSymbol() && _symbol->getDataType() == TR::PackedDecimal) { if (!aliases) aliases = new (aliasRegion) TR_BitVector(bvInitialSize, aliasRegion, growability); aliases->set(symRefTab->getArrayShadowIndex(TR::Int8)); } //the other way around. if (_symbol->isArrayShadowSymbol() && _symbol->getDataType() == TR::Int8) { if (!aliases) aliases = new (aliasRegion) TR_BitVector(bvInitialSize, aliasRegion, growability); aliases->set(symRefTab->getArrayShadowIndex(TR::PackedDecimal)); } #endif // alias vector arrays shadows with corresponding scalar array shadows if (_symbol->isArrayShadowSymbol() && _symbol->getDataType().isVector()) { if (!aliases) aliases = new (aliasRegion) TR_BitVector(bvInitialSize, aliasRegion, growability); aliases->set(symRefTab->getArrayShadowIndex(_symbol->getDataType().vectorToScalar())); } // the other way around if (_symbol->isArrayShadowSymbol() && !_symbol->getDataType().isVector()) { if (!aliases) aliases = new (aliasRegion) TR_BitVector(bvInitialSize, aliasRegion, growability); aliases->set(symRefTab->getArrayShadowIndex(_symbol->getDataType().scalarToVector())); } if (_symbol->isArrayShadowSymbol() && !symRefTab->aliasBuilder.immutableArrayElementSymRefs().isEmpty()) { if (!aliases) aliases = new (aliasRegion) TR_BitVector(bvInitialSize, aliasRegion, growability); TR::DataType type = _symbol->getDataType(); TR_BitVectorIterator bvi(symRefTab->aliasBuilder.arrayElementSymRefs()); int32_t symRefNum; while (bvi.hasMoreElements()) { symRefNum = bvi.getNextElement(); if (symRefTab->getSymRef(symRefNum)->getSymbol()->getDataType() == type) aliases->set(symRefNum); } } if (_symbol->isArrayShadowSymbol() && supportArrayRefinement && comp->getMethodSymbol()->hasVeryRefinedAliasSets()) { if (!aliases) aliases = new (aliasRegion) TR_BitVector(bvInitialSize, aliasRegion, growability); TR::DataType type = _symbol->getDataType(); TR_BitVectorIterator bvi(symRefTab->aliasBuilder.arrayElementSymRefs()); int32_t symRefNum; while (bvi.hasMoreElements()) { symRefNum = bvi.getNextElement(); if (symRefTab->getSymRef(symRefNum)->getSymbol()->getDataType() == type) aliases->set(symRefNum); } if (self()->getIndependentSymRefs()) *aliases -= *self()->getIndependentSymRefs(); return aliases; } if (aliases) aliases->set(self()->getReferenceNumber()); if (symRefTab->aliasBuilder.unsafeArrayElementSymRefs().get(self()->getReferenceNumber())) *aliases -= symRefTab->aliasBuilder.cpSymRefs(); else if (symRefTab->aliasBuilder.cpSymRefs().get(self()->getReferenceNumber())) *aliases -= symRefTab->aliasBuilder.unsafeArrayElementSymRefs(); return aliases; } case TR::Symbol::IsStatic: { // For unresolved constant dynamic, we need to invoke a Java bootstrap method, // which can have arbitrary side effects, so the aliasing should be conservative here. // isConstObjectRef now returns true for condy, so we add an explicit condition, // more like a short-circuit, to say if we are unresolved and not isConstObjectRef // (this is the same as before), or if we are unresolved and condy // (this is the extra condition added), we would return conservative aliases. if ((self()->isUnresolved() && (_symbol->isConstantDynamic() || !_symbol->isConstObjectRef())) || self()->isLiteralPoolAddress() || self()->isFromLiteralPool() || _symbol->isVolatile()) { return &comp->getSymRefTab()->aliasBuilder.defaultMethodDefAliases(); } TR_BitVector *aliases = NULL; if (self()->reallySharesSymbol(comp)) { aliases = new (aliasRegion) TR_BitVector(bvInitialSize, aliasRegion, growability); self()->setSharedStaticAliases(aliases, symRefTab); } if (symRefTab->findGenericIntShadowSymbol()) { if (!aliases) aliases = new (aliasRegion) TR_BitVector(bvInitialSize, aliasRegion, growability); self()->setLiteralPoolAliases(aliases, symRefTab); } if (aliases) aliases->set(self()->getReferenceNumber()); return aliases; } case TR::Symbol::IsMethodMetaData: { TR_BitVector *aliases = NULL; return aliases; } default: //TR_ASSERT(0, "getUseDefAliasing called for non method"); if (comp->generateArraylets() && comp->getSymRefTab()->aliasBuilder.gcSafePointSymRefNumbers().get(self()->getReferenceNumber()) && includeGCSafePoint) return &comp->getSymRefTab()->aliasBuilder.gcSafePointSymRefNumbers(); else return 0; } }