Esempio n. 1
0
bool
OMR::SymbolReference::sharesSymbol(bool includingGCSafePoint)
   {
   TR::Compilation * c = TR::comp();
   if (self()->reallySharesSymbol(c))
      return true;

   // At this point, we'd like to call getUseDefAliases(c, false) and return
   // true iff that is non-NULL.  However, doing so caused floatSanity
   // (specifically CompactNullChecks) to consume immense amounts (1GB+) of
   // memory and run for a long, long time (half an hour or more in some
   // cases), so we need to copy some of that logic in here as a short-circuit.
   //
   // !!! NOTE !!!
   // THERE IS A COPY OF THIS LOGIC IN getUseDefAliases
   //
   int32_t kind = _symbol->getKind();
   TR::SymbolReferenceTable * symRefTab = c->getSymRefTab();
   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() && c->getMethodSymbol()->hasVeryRefinedAliasSets()))
            {
            // getUseDefAliases might not return NULL
            }
         else if (!symRefTab->aliasBuilder.mutableGenericIntShadowHasBeenCreated())
            {
            // getUseDefAliases must return NULL
            return false;
            }
         else if (kind == TR::Symbol::IsStatic && !symRefTab->aliasBuilder.litPoolGenericIntShadowHasBeenCreated())
            {
            // getUseDefAliases must return NULL
            return false;
            }
         break;
         }
      }

   return !self()->getUseDefAliases(false, includingGCSafePoint).isZero(c);
   }
Esempio n. 2
0
void
OMR::CodeGenPhase::performBinaryEncodingPhase(TR::CodeGenerator * cg, TR::CodeGenPhase * phase)
   {
   TR::Compilation * comp = cg->comp();
   phase->reportPhase(BinaryEncodingPhase);

   if (cg->getDebug())
      cg->getDebug()->roundAddressEnumerationCounters();

   TR::LexicalMemProfiler mp(phase->getName(), comp->phaseMemProfiler());
   LexicalTimer pt(phase->getName(), comp->phaseTimer());

   cg->doBinaryEncoding();

   if (debug("verifyFinalNodeReferenceCounts"))
      {
      if (cg->getDebug())
         cg->getDebug()->verifyFinalNodeReferenceCounts(comp->getMethodSymbol());
      }
   }
Esempio n. 3
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;


      }
   }
Esempio n. 4
0
void
OMR::CodeGenPhase::performProcessRelocationsPhase(TR::CodeGenerator * cg, TR::CodeGenPhase * phase)
   {
   TR::Compilation * comp = cg->comp();

   if (comp->getPersistentInfo()->isRuntimeInstrumentationEnabled())
      {
      // This must be called before relocations to generate the relocation data for the profiled instructions.
      cg->createHWPRecords();
      }

   phase->reportPhase(ProcessRelocationsPhase);

   TR::LexicalMemProfiler mp(phase->getName(), comp->phaseMemProfiler());
   LexicalTimer pt(phase->getName(), comp->phaseTimer());

   cg->processRelocations();

   cg->resizeCodeMemory();
   cg->registerAssumptions();

   cg->syncCode(cg->getBinaryBufferStart(), cg->getBinaryBufferCursor() - cg->getBinaryBufferStart());

   if (comp->getOption(TR_EnableOSR))
     {
     if (comp->getOption(TR_TraceOSR) && !comp->getOption(TR_DisableOSRSharedSlots))
        {
        (*comp) << "OSRCompilationData is " << *comp->getOSRCompilationData() << "\n";
        }
     }

   if (comp->getOption(TR_AOT) && (comp->getOption(TR_TraceRelocatableDataCG) || comp->getOption(TR_TraceRelocatableDataDetailsCG) || comp->getOption(TR_TraceReloCG)))
     {
     traceMsg(comp, "\n<relocatableDataCG>\n");
     if (comp->getOption(TR_TraceRelocatableDataDetailsCG)) // verbose output
        {
        uint8_t * relocatableMethodCodeStart = (uint8_t *)comp->getRelocatableMethodCodeStart();
        traceMsg(comp, "Code start = %8x, Method start pc = %x, Method start pc offset = 0x%x\n", relocatableMethodCodeStart, cg->getCodeStart(), cg->getCodeStart() - relocatableMethodCodeStart);
        }
     cg->getAheadOfTimeCompile()->dumpRelocationData();
     traceMsg(comp, "</relocatableDataCG>\n");
     }

     if (debug("dumpCodeSizes"))
        {
        diagnostic("%08d   %s\n", cg->getCodeLength(), comp->signature());
        }

     if (comp->getCurrentMethod() == NULL)
        {
        comp->getMethodSymbol()->setMethodAddress(cg->getBinaryBufferStart());
        }

     TR_ASSERT(cg->getCodeLength() <= cg->getEstimatedCodeLength(),
               "Method length estimate must be conservatively large\n"
               "    codeLength = %d, estimatedCodeLength = %d \n",
               cg->getCodeLength(), cg->getEstimatedCodeLength()
               );

     // also trace the interal stack atlas
     cg->getStackAtlas()->close(cg);

     TR::SimpleRegex * regex = comp->getOptions()->getSlipTrap();
     if (regex && TR::SimpleRegex::match(regex, comp->getCurrentMethod()))
        {
        if (TR::Compiler->target.is64Bit())
        {
        setDllSlip((char*)cg->getCodeStart(),(char*)cg->getCodeStart()+cg->getCodeLength(),"SLIPDLL64", comp);
        }
     else
        {
        setDllSlip((char*)cg->getCodeStart(),(char*)cg->getCodeStart()+cg->getCodeLength(),"SLIPDLL31", comp);
        }
     }
   if (comp->getOption(TR_TraceCG) || comp->getOptions()->getTraceCGOption(TR_TraceCGPostBinaryEncoding))
      {
      const char * title = "Post Relocation Instructions";
      comp->getDebug()->dumpMethodInstrs(comp->getOutFile(), title, false, true);

      traceMsg(comp,"<snippets>");
      comp->getDebug()->print(comp->getOutFile(), cg->getSnippetList());
      traceMsg(comp,"\n</snippets>\n");

      auto iterator = cg->getSnippetList().begin();
      int32_t estimatedSnippetStart = cg->getEstimatedSnippetStart();
      while (iterator != cg->getSnippetList().end())
         {
         estimatedSnippetStart += (*iterator)->getLength(estimatedSnippetStart);
         ++iterator;
         }
      }
   }