Beispiel #1
0
StencilEvaluation_InheritedAttribute
StencilEvaluationTraversal::evaluateInheritedAttribute (SgNode* astNode, StencilEvaluation_InheritedAttribute inheritedAttribute )
   {
#if 0
     printf ("In evaluateInheritedAttribute(): astNode = %p = %s \n",astNode,astNode->class_name().c_str());
#endif

     bool foundPairShiftDoubleConstructor = false;

  // This is for stencil specifications using vectors of points to represent offsets (not finished).
  // bool foundVariableDeclarationForStencilInput = false;

     double stencilCoeficientValue = 0.0;

  // StencilOffsetFSM offset;
     StencilOffsetFSM* stencilOffsetFSM = NULL;

  // We want to interogate the SgAssignInitializer, but we need to generality in the refactored function to use any SgInitializer (e.g. SgConstructorInitializer, etc.).
     SgInitializedName* initializedName = detectVariableDeclarationOfSpecificType (astNode,"Point");

     if (initializedName != NULL)
        {
       // This is the code that is specific to the DSL (e.g. the semantics of getZeros() and getUnitv() functions).
       // So this may be the limit of what can be refactored to common DSL support code.
       // Or I can maybe do a second pass at atempting to refactor more code later.

          string name = initializedName->get_name();

          SgInitializer* initializer = initializedName->get_initptr();

          SgAssignInitializer* assignInitializer = isSgAssignInitializer(initializer);
          if (assignInitializer != NULL)
             {
               SgExpression* exp = assignInitializer->get_operand();
               ROSE_ASSERT(exp != NULL);
               SgFunctionCallExp* functionCallExp = isSgFunctionCallExp(exp);
               if (functionCallExp != NULL)
                  {
                    SgFunctionRefExp* functionRefExp = isSgFunctionRefExp(functionCallExp->get_function());
                    if (functionRefExp != NULL)
                       {
                         SgFunctionSymbol* functionSymbol = functionRefExp->get_symbol();
                         ROSE_ASSERT(functionSymbol != NULL);
                         string functionName = functionSymbol->get_name();
#if 0
                         printf ("functionName = %s \n",functionName.c_str());
#endif
                         if (functionName == "getZeros")
                            {
                           // We leverage the semantics of known functions used to initialize "Point" objects ("getZeros" initialized the Point object to be all zeros).
                           // In a stencil this will be the center point from which all other points will have non-zero offsets.
                           // For a common centered difference discretization this will be the center point of the stencil.
#if 0
                              printf ("Identified and interpreting the semantics of getZeros() function \n");
#endif
                              stencilOffsetFSM = new StencilOffsetFSM(0,0,0);
                              ROSE_ASSERT(stencilOffsetFSM != NULL);
                            }

                         if (functionName == "getUnitv")
                            {
                           // We leverage the semantics of known functions used to initialize "Point" objects 
                           // ("getUnitv" initializes the Point object to be a unit vector for a specific input dimention).
                           // In a stencil this will be an ofset from the center point.
#if 0
                              printf ("Identified and interpreting the semantics of getUnitv() function \n");
#endif
                           // Need to get the dimention argument.
                              SgExprListExp* argumentList = functionCallExp->get_args();
                              ROSE_ASSERT(argumentList != NULL);
                           // This function has a single argument.
                              ROSE_ASSERT(argumentList->get_expressions().size() == 1);
                              SgExpression* functionArg = argumentList->get_expressions()[0];
                              ROSE_ASSERT(functionArg != NULL);
                              SgIntVal* intVal = isSgIntVal(functionArg);
                           // ROSE_ASSERT(intVal != NULL);
                              if (intVal != NULL)
                                 {
                                   int value = intVal->get_value();
#if 0
                                   printf ("value = %d \n",value);
#endif
                                   switch(value)
                                      {
                                        case 0: stencilOffsetFSM = new StencilOffsetFSM(1,0,0); break;
                                        case 1: stencilOffsetFSM = new StencilOffsetFSM(0,1,0); break;
                                        case 2: stencilOffsetFSM = new StencilOffsetFSM(0,0,1); break;

                                        default:
                                           {
                                             printf ("Error: default reached in switch: value = %d (for be value of 0, 1, or 2) \n",value);
                                             ROSE_ASSERT(false);
                                           }
                                      }

                                   ROSE_ASSERT(stencilOffsetFSM != NULL);

                                // End of test for intVal != NULL
                                 }
                                else
                                 {
#if 0
                                   printf ("functionArg = %p = %s \n",functionArg,functionArg->class_name().c_str());
#endif
                                 }
                            }

                          // ROSE_ASSERT(stencilOffsetFSM != NULL);
                       }
                  }
             }

           if (stencilOffsetFSM != NULL)
             {
            // Put the FSM into the map.
#if 0
               printf ("Put the stencilOffsetFSM = %p into the StencilOffsetMap using key = %s \n",stencilOffsetFSM,name.c_str());
#endif
               ROSE_ASSERT(StencilOffsetMap.find(name) == StencilOffsetMap.end());

            // We have a choice of syntax to add the element to the map.
            // StencilOffsetMap.insert(pair<string,StencilOffsetFSM*>(name,stencilOffsetFSM));
               StencilOffsetMap[name] = stencilOffsetFSM;
             }

       // new StencilOffsetFSM();
#if 0
          printf ("Exiting as a test! \n");
          ROSE_ASSERT(false);
#endif
        }

  // Recognize member function calls on "Point" objects so that we can trigger events on those associated finite state machines.
     bool isTemplateClass = false;
     bool isTemplateFunctionInstantiation = false;
     SgInitializedName* initializedNameUsedToCallMemberFunction = NULL;
     SgFunctionCallExp* functionCallExp = detectMemberFunctionOfSpecificClassType(astNode,initializedNameUsedToCallMemberFunction,"Point",isTemplateClass,"operator*=",isTemplateFunctionInstantiation);
     if (functionCallExp != NULL)
        {
       // This is the DSL specific part (capturing the semantics of operator*= with specific integer values).

       // The name of the variable off of which the member function is called (variable has type "Point").
          ROSE_ASSERT(initializedNameUsedToCallMemberFunction != NULL);
          string name = initializedNameUsedToCallMemberFunction->get_name();

       // Need to get the dimention argument.
          SgExprListExp* argumentList = functionCallExp->get_args();
          ROSE_ASSERT(argumentList != NULL);
       // This function has a single argument.
          ROSE_ASSERT(argumentList->get_expressions().size() == 1);
          SgExpression* functionArg = argumentList->get_expressions()[0];
          ROSE_ASSERT(functionArg != NULL);
          SgIntVal* intVal = isSgIntVal(functionArg);

          bool usingUnaryMinus = false;
          if (intVal == NULL)
             {
               SgMinusOp* minusOp = isSgMinusOp(functionArg);
               if (minusOp != NULL)
                  {
#if 0
                    printf ("Using SgMinusOp on stencil constant \n");
#endif
                    usingUnaryMinus = true;
                    intVal = isSgIntVal(minusOp->get_operand());
                  }
             }

          ROSE_ASSERT(intVal != NULL);
          int value = intVal->get_value();

          if (usingUnaryMinus == true)
             {
               value *= -1;
             }
#if 0
          printf ("value = %d \n",value);
#endif
       // Look up the stencil offset finite state machine
          ROSE_ASSERT(StencilOffsetMap.find(name) != StencilOffsetMap.end());
          StencilOffsetFSM* stencilOffsetFSM = StencilOffsetMap[name];
          ROSE_ASSERT(stencilOffsetFSM != NULL);
#if 0
          printf ("We have found the StencilOffsetFSM associated with the StencilOffset named %s \n",name.c_str());
#endif
#if 0
          stencilOffsetFSM->display("before multiply event");
#endif
          if (value == -1)
             {
            // Execute the event on the finte state machine to accumulate the state.
               stencilOffsetFSM->operator*=(-1);
             }
            else
             {
               printf ("Error: constant value other than -1 are not supported \n");
               ROSE_ASSERT(false);
             }
#if 0
          stencilOffsetFSM->display("after multiply event");
#endif
        }

  // Detection of "pair<Shift,double>(xdir,ident)" defined as an event in the stencil finite machine model.
  // Actually, it is the Stencil that is create using the "pair<Shift,double>(xdir,ident)" that should be the 
  // event so we first detect the SgConstructorInitializer.  There is not other code similar to this which 
  // has to test for the template arguments, so this has not yet refactored into the dslSupport.C file.
  // I will do this later since this is general support that could be resused in other DSL compilers.
     SgConstructorInitializer* constructorInitializer = isSgConstructorInitializer(astNode);
     if (constructorInitializer != NULL)
        {
       // DQ (10/20/2014): This can sometimes be NULL.
       // ROSE_ASSERT(constructorInitializer->get_class_decl() != NULL);
          SgClassDeclaration* classDeclaration = constructorInitializer->get_class_decl();
       // ROSE_ASSERT(classDeclaration != NULL);
          if (classDeclaration != NULL)
             {
#if 0
          printf ("constructorInitializer = %p class name    = %s \n",constructorInitializer,classDeclaration->get_name().str());
#endif
          SgTemplateInstantiationDecl* templateInstantiationDecl = isSgTemplateInstantiationDecl(classDeclaration);
       // ROSE_ASSERT(templateInstantiationDecl != NULL);
#if 0
          if (templateInstantiationDecl != NULL)
             {
               printf ("constructorInitializer = %p name = %s template name = %s \n",constructorInitializer,templateInstantiationDecl->get_name().str(),templateInstantiationDecl->get_templateName().str());
             }
#endif

       // if (classDeclaration->get_name() == "pair")
          if (templateInstantiationDecl != NULL && templateInstantiationDecl->get_templateName() == "pair")
             {
            // Look at the template parameters.
#if 0
               printf ("Found template instantiation for pair \n");
#endif
               SgTemplateArgumentPtrList & templateArgs = templateInstantiationDecl->get_templateArguments();
               if (templateArgs.size() == 2)
                  {
                 // Now look at the template arguments and check that they represent the pattern that we are looking for in the AST.
                 // It is not clear now flexible we should be, at present shift/coeficent pairs must be specified exactly one way.

                    SgType* type_0 = templateArgs[0]->get_type();
                    SgType* type_1 = templateArgs[1]->get_type();

                    if ( type_0 != NULL && type_1 != NULL)
                       {
                         SgClassType* classType_0 = isSgClassType(type_0);
                      // ROSE_ASSERT(classType_0 != NULL);
                         if (classType_0 != NULL)
                            {
                         SgClassDeclaration* classDeclarationType_0 = isSgClassDeclaration(classType_0->get_declaration());
                         ROSE_ASSERT(classDeclarationType_0 != NULL);
#if 0
                         printf ("templateArgs[0]->get_name() = %s \n",classDeclarationType_0->get_name().str());
                         printf ("templateArgs[1]->get_type()->class_name() = %s \n",type_1->class_name().c_str());
#endif
                         bool foundShiftExpression   = false;
                         bool foundStencilCoeficient = false;

                      // We might want to be more flexiable about the type of the 2nd parameter (allow SgTypeFloat, SgTypeComplex, etc.).
                         if (classDeclarationType_0->get_name() == "Shift" && type_1->variant() == V_SgTypeDouble)
                            {
                           // Found a pair<Shift,double> input for a stencil.
#if 0
                              printf ("##### Found a pair<Shift,double>() input for a stencil input \n");
#endif
                           // *****************************************************************************************************
                           // Look at the first parameter to the pair<Shift,double>() constructor.
                           // *****************************************************************************************************
                              SgExpression* stencilOffset = constructorInitializer->get_args()->get_expressions()[0];
                              ROSE_ASSERT(stencilOffset != NULL);
#if 0
                              printf ("stencilOffset = %p = %s \n",stencilOffset,stencilOffset->class_name().c_str());
#endif
                              SgConstructorInitializer* stencilOffsetConstructorInitializer = isSgConstructorInitializer(stencilOffset);
                              if (stencilOffsetConstructorInitializer != NULL)
                                 {
                                // This is the case of a Shift being constructed implicitly from a Point (doing so more directly would be easier to make sense of in the AST).
#if 0
                                   printf ("!!!!! Looking for the stencil offset \n");
#endif
                                   ROSE_ASSERT(stencilOffsetConstructorInitializer->get_class_decl() != NULL);
                                   SgClassDeclaration* stencilOffsetClassDeclaration = stencilOffsetConstructorInitializer->get_class_decl();
                                   ROSE_ASSERT(stencilOffsetClassDeclaration != NULL);
#if 0
                                   printf ("stencilOffsetConstructorInitializer = %p class name    = %s \n",stencilOffsetConstructorInitializer,stencilOffsetClassDeclaration->get_name().str());
                                   printf ("stencilOffsetConstructorInitializer = %p class = %p = %s \n",stencilOffsetConstructorInitializer,stencilOffsetClassDeclaration,stencilOffsetClassDeclaration->class_name().c_str());
#endif
                                // This should not be a template instantiation (the Shift is defined to be a noo-template class declaration, not a template class declaration).
                                   SgTemplateInstantiationDecl* stencilOffsetTemplateInstantiationDecl = isSgTemplateInstantiationDecl(stencilOffsetClassDeclaration);
                                   ROSE_ASSERT(stencilOffsetTemplateInstantiationDecl == NULL);

                                   if (stencilOffsetClassDeclaration != NULL && stencilOffsetClassDeclaration->get_name() == "Shift")
                                      {
                                     // Now we know that the type associated with the first template parameter is associated with the class "Shift".
                                     // But we need so also now what the first parametr is associate with the constructor initializer, since it will
                                     // be the name of the variable used to interprete the stencil offset (and the name of the variable will be the 
                                     // key into the map of finite machine models used to accumulate the state of the stencil offsets that we accumulate
                                     // to build the stencil.

                                     // Now we need the value of the input (computed using it's fine state machine).
                                        SgExpression* inputToShiftConstructor = stencilOffsetConstructorInitializer->get_args()->get_expressions()[0];
                                        ROSE_ASSERT(inputToShiftConstructor != NULL);
                                        SgConstructorInitializer* inputToShiftConstructorInitializer = isSgConstructorInitializer(inputToShiftConstructor);
                                        if (stencilOffsetConstructorInitializer != NULL)
                                           {
                                             SgExpression* inputToPointConstructor = inputToShiftConstructorInitializer->get_args()->get_expressions()[0];
                                             ROSE_ASSERT(inputToPointConstructor != NULL);

                                          // This should be a SgVarRefExp (if we strictly follow the stencil specification rules (which are not written down yet).
                                             SgVarRefExp* inputToPointVarRefExp = isSgVarRefExp(inputToPointConstructor);
                                             if (inputToPointVarRefExp != NULL)
                                                {
#if 0
                                                  printf ("Found varRefExp in bottom of chain of constructors \n");
#endif
                                                  SgVariableSymbol* variableSymbolForOffset = isSgVariableSymbol(inputToPointVarRefExp->get_symbol());
                                                  ROSE_ASSERT(variableSymbolForOffset != NULL);
                                                  SgInitializedName* initializedNameForOffset = variableSymbolForOffset->get_declaration();
                                                  ROSE_ASSERT(initializedNameForOffset != NULL);
                                                  SgInitializer* initializer = initializedNameForOffset->get_initptr();
                                                  ROSE_ASSERT(initializer != NULL);
#if 0
                                                  printf ("Found initializedName: name = %s in bottom of chain of constructors: initializer = %p = %s \n",initializedNameForOffset->get_name().str(),initializer,initializer->class_name().c_str());
#endif
                                               // Record the name to be used as a key into the map of "StencilOffset" finite state machines.

                                                  SgAssignInitializer* assignInitializer = isSgAssignInitializer(initializer);
                                                  ROSE_ASSERT(assignInitializer != NULL);

                                                  string name = initializedNameForOffset->get_name();
                                               // Look up the current state in the finite state machine for the "Point".

                                               // Check that this is a previously defined stencil offset.
                                                  ROSE_ASSERT(StencilOffsetMap.find(name) != StencilOffsetMap.end());
                                               // StencilOffsetFSM* stencilOffsetFSM = StencilOffsetMap[name];
                                                  stencilOffsetFSM = StencilOffsetMap[name];
                                                  ROSE_ASSERT(stencilOffsetFSM != NULL);
#if 0
                                                  printf ("We have found the StencilOffsetFSM associated with the StencilOffset named %s \n",name.c_str());
#endif
#if 0
                                                  printf ("Exiting as a test! \n");
                                                  ROSE_ASSERT(false);
#endif
                                                }
                                               else
                                                {
                                                  printf ("What is this expression: inputToPointConstructor = %p = %s \n",inputToPointConstructor,inputToPointConstructor->class_name().c_str());
                                                  ROSE_ASSERT(false);
                                                }
                                           }
#if 0
                                        printf ("Found Shift type \n");
#endif
                                        foundShiftExpression = true;
                                      }
#if 0
                                   printf ("Exiting as a test! \n");
                                   ROSE_ASSERT(false);
#endif
                                 }
                                else
                                 {
                                // This case for the specification of a Shift in the first argument is not yet supported (need an example of this).
                                   printf ("This case of using a shift is not a part of what is supported \n");
                                 }

                           // *****************************************************************************************************
                           // Look at the second parameter to the pair<Shift,double>(first_parameter,second_parameter) constructor.
                           // *****************************************************************************************************
                              SgExpression* stencilCoeficent = constructorInitializer->get_args()->get_expressions()[1];
                              ROSE_ASSERT(stencilCoeficent != NULL);

                              SgVarRefExp* stencilCoeficentVarRefExp = isSgVarRefExp(stencilCoeficent);
                              if (stencilCoeficentVarRefExp != NULL)
                                 {
                                // Handle the case where this is a constant SgVarRefExp and the value is available in the declaration.
                                   SgVariableSymbol* variableSymbolForConstant = isSgVariableSymbol(stencilCoeficentVarRefExp->get_symbol());
                                   ROSE_ASSERT(variableSymbolForConstant != NULL);
                                   SgInitializedName* initializedNameForConstant = variableSymbolForConstant->get_declaration();
                                   ROSE_ASSERT(initializedNameForConstant != NULL);
                                   SgInitializer* initializer = initializedNameForConstant->get_initptr();
                                   ROSE_ASSERT(initializer != NULL);
                                   SgAssignInitializer* assignInitializer = isSgAssignInitializer(initializer);
                                   ROSE_ASSERT(assignInitializer != NULL);

                                   SgValueExp* valueExp = isSgValueExp(assignInitializer->get_operand());

                                   bool usingUnaryMinus = false;
                                // ROSE_ASSERT(valueExp != NULL);
                                   if (valueExp == NULL)
                                      {
                                        SgExpression* operand = assignInitializer->get_operand();
                                        SgMinusOp* minusOp = isSgMinusOp(operand);
                                        if (minusOp != NULL)
                                           {
#if 0
                                             printf ("Using SgMinusOp on stencil constant \n");
#endif
                                             usingUnaryMinus = true;
                                             valueExp = isSgValueExp(minusOp->get_operand());
                                           }
                                      }

                                   SgDoubleVal* doubleVal = isSgDoubleVal(valueExp);
                                // ROSE_ASSERT(doubleVal != NULL);
                                   double value = 0.0;
                                   if (doubleVal == NULL)
                                      {
                                     // Call JP's function to evaluate the constant expression.
                                        ROSE_ASSERT(valueExp == NULL);
                                        ROSE_ASSERT(stencilCoeficent != NULL);
                                        DSL_Support::const_numeric_expr_t const_expression = DSL_Support::evaluateConstNumericExpression(stencilCoeficent);
                                        if (const_expression.hasValue_ == true)
                                           {
                                             ROSE_ASSERT(const_expression.isIntOnly_ == false);
                                             value = const_expression.value_;

                                             printf ("const expression evaluated to value = %4.2f \n",value);
                                           }
                                          else
                                           {
                                             printf ("constnat value expression could not be evaluated to a constant \n");
                                             ROSE_ASSERT(false);
                                           }
                                      }
                                     else
                                      {
#if 1
                                        printf ("SgDoubleVal value = %f \n",doubleVal->get_value());
#endif
                                        value = (usingUnaryMinus == false) ? doubleVal->get_value() : -(doubleVal->get_value());
                                      }
#if 1
                                   printf ("Stencil coeficient = %f \n",value);
#endif
                                   foundStencilCoeficient = true;

                                   stencilCoeficientValue = value;
                                 }
                                else
                                 {
                                // When we turn on constant folding in the frontend we eveluate directly to a SgDoubleVal.
                                   SgDoubleVal* doubleVal = isSgDoubleVal(stencilCoeficent);
                                   if (doubleVal != NULL)
                                      {
                                        ROSE_ASSERT(doubleVal != NULL);
#if 0
                                        printf ("SgDoubleVal value = %f \n",doubleVal->get_value());
#endif
                                        double value = doubleVal->get_value();
#if 0
                                        printf ("Stencil coeficient = %f \n",value);
#endif
                                        foundStencilCoeficient = true;

                                        stencilCoeficientValue = value;
                                      }
                                     else
                                      {
                                        printf ("Error: second parameter in pair for stencil is not a SgVarRefExp (might be explicit value not yet supported) \n");
                                        printf ("   --- stencilCoeficent = %p = %s \n",stencilCoeficent,stencilCoeficent->class_name().c_str());
                                        ROSE_ASSERT(false);
                                      }
                                 }
                            }
#if 0
                         printf ("foundShiftExpression   = %s \n",foundShiftExpression   ? "true" : "false");
                         printf ("foundStencilCoeficient = %s \n",foundStencilCoeficient ? "true" : "false");
#endif
                         if (foundShiftExpression == true && foundStencilCoeficient == true)
                            {
#if 0
                              printf ("Found pair<Shift,double>() constructor expression! \n");
#endif
                              foundPairShiftDoubleConstructor = true;
                            }

                         // End of test for classType_0 != NULL
                            }
                       }
                  }
             }
            else
             {
#if 0
               printf ("This is not a SgConstructorInitializer for the pair templated class \n");
#endif
             }

          // End of test for classDeclaration != NULL
             }
        }

#if 0
     printf ("foundPairShiftDoubleConstructor = %s \n",foundPairShiftDoubleConstructor ? "true" : "false");
#endif

     if (foundPairShiftDoubleConstructor == true)
        {
       // This is the recognition of an event for one of the finite state machines we implement to evaluate the stencil at compile time.
#if 0
          printf ("In evaluateInheritedAttribute(): found pair<Shift,double>() constructor expression! \n");
          printf ("   --- stencilOffsetFSM       = %p \n",stencilOffsetFSM);
          printf ("   --- stencilCoeficientValue = %f \n",stencilCoeficientValue);
#endif
          ROSE_ASSERT(stencilOffsetFSM != NULL);

          inheritedAttribute.stencilOffsetFSM       = stencilOffsetFSM;
          inheritedAttribute.stencilCoeficientValue = stencilCoeficientValue;

#if 0
          printf ("Exiting as a test! \n");
          ROSE_ASSERT(false);
#endif
        }

  // Construct the return attribute from the modified input attribute.
     return StencilEvaluation_InheritedAttribute(inheritedAttribute);
   }
bool FixupTemplateArguments::contains_private_type (SgType* type, SgScopeStatement* targetScope)
   {
  // DQ (4/2/2018): Note that this function now addresses requirements of supporting both private and protected types.

#if DEBUGGING_USING_RECURSIVE_DEPTH
  // For debugging, keep track of the recursive depth.
     static size_t depth = 0;

     printf ("In contains_private_type(SgType*): depth = %zu \n",depth);
     ROSE_ASSERT(depth < 500);

     printf ("In contains_private_type(SgType*): global_depth = %zu \n",global_depth);
     ROSE_ASSERT(global_depth < 55);
#endif

  // Note this is the recursive function.
     bool returnValue = false;

#if DEBUG_PRIVATE_TYPE || 0
  // DQ (1/7/2016): It is a problem to do this for some files (failing about 35 files in Cxx_tests).
  // The issues appears to be in the unparsing of the template arguments of the qualified names for the types.
  // printf ("In contains_private_type(SgType*): type = %p = %s = %s \n",type,type->class_name().c_str(),type->unparseToString().c_str());
     printf ("In contains_private_type(SgType*): type = %p = %s \n",type,type->class_name().c_str());
#endif

     SgTypedefType* typedefType = isSgTypedefType(type);
     if (typedefType != NULL)
        {
       // Get the associated declaration.
          SgTypedefDeclaration* typedefDeclaration = isSgTypedefDeclaration(typedefType->get_declaration());
          ROSE_ASSERT(typedefDeclaration != NULL);

#if 0
          bool isPrivate = typedefDeclaration->get_declarationModifier().get_accessModifier().isPrivate();
#else
       // DQ (4/2/2018): Fix this to address requirements of both private and protected class members (see Cxx11_tests/test2018_71.C).
          bool isPrivate = typedefDeclaration->get_declarationModifier().get_accessModifier().isPrivate() ||
                           typedefDeclaration->get_declarationModifier().get_accessModifier().isProtected();
#endif
#if DEBUG_PRIVATE_TYPE || 0
          printf ("typedefDeclaration isPrivate = %s \n",isPrivate ? "true" : "false");
#endif

       // First we need to know if this is a visable type.
          bool isVisable = false;
#if 0
          printf ("targetScope                     = %p = %s \n",targetScope,targetScope->class_name().c_str());
       // printf ("typedefDeclaration              = %p = %s \n",typedefDeclaration,typedefDeclaration->class_name().c_str());
          printf ("typedefDeclaration->get_scope() = %p = %s \n",typedefDeclaration->get_scope(),typedefDeclaration->get_scope()->class_name().c_str());
#endif
#if 0
          printf ("SageInterface::whereAmI(targetScope): \n");
          SageInterface::whereAmI(targetScope);
          printf ("SageInterface::whereAmI(typedefDeclaration): \n");
          SageInterface::whereAmI(typedefDeclaration);
#endif
#if 0
          printf ("\ntargetScope symbol table: \n");
          targetScope->get_symbol_table()->print("targetScope");
          printf ("end of symbol table \n");
          printf ("\ntypedefDeclaration->get_scope() symbol table: \n");
          typedefDeclaration->get_scope()->get_symbol_table()->print("typedefDeclaration->get_scope()");
          printf ("end of symbol table \n\n");
#endif
       // Test for the trivial case of matching scope (an even better test (below) is be to make sure that the targetScope is nested in the typedef scope).
          if (typedefDeclaration->get_scope() == targetScope)
             {
#if 0
               printf ("In contains_private_type(SgType*): This is a typedef type from the same scope as the target declaration \n");
#endif
            // ROSE_ASSERT(false);
            // return false;
               isVisable = true;
             }
            else
             {
            // SgTypedefSymbol*   lookupTypedefSymbolInParentScopes  (const SgName & name, SgScopeStatement *currentScope = NULL);
               SgTypedefSymbol* typedefSymbol = SageInterface::lookupTypedefSymbolInParentScopes (typedefDeclaration->get_name(),targetScope);
               if (typedefSymbol != NULL)
                  {
#if 0
                    printf ("In contains_private_type(SgType*): This is not in the current scope but can be reached from the current scope \n");
#endif
                 // ROSE_ASSERT(false);
                 // return false;
                    isVisable = true;
                  }
                 else
                  {
#if 0
                    printf ("Symbol for typedef name = %s not found in parent scopes \n",typedefDeclaration->get_name().str());
#endif
                 // ROSE_ASSERT(false);
                  }
             }
#if 0
       // Testing codes because it seems that "BitSet" shuld be visiable and so we need to debug this first.
          if (typedefDeclaration->get_name() == "BitSet")
             {
               printf ("Exiting as a test! \n");
               ROSE_ASSERT(false);
             }
#endif
       // If this is not private, then we are looking at what would be possbile template arguments used in a possible name qualification.
       // if (isPrivate == false)
       // if (isPrivate == false && isVisable == false)
          if (isVisable == false)
             {
               if (isPrivate == true)
                  {
                    return true;
                  }
                 else
                  {

                 // Get the scope and see if it is a template instantiation.
                    SgScopeStatement* scope = typedefDeclaration->get_scope();
#if DEBUG_PRIVATE_TYPE || 0
                    printf ("++++++++++++++ Looking in parent scope for template arguments: scope = %p = %s \n",scope,scope->class_name().c_str());
#endif
                 // Get the associated declaration.
                    switch (scope->variantT())
                       {
                         case V_SgTemplateInstantiationDefn:
                            {
                              SgTemplateInstantiationDefn* templateInstantiationDefinition = isSgTemplateInstantiationDefn(scope);
                              ROSE_ASSERT(templateInstantiationDefinition != NULL);

                              SgTemplateInstantiationDecl* templateInstantiationDeclaration = isSgTemplateInstantiationDecl(templateInstantiationDefinition->get_declaration());
                              ROSE_ASSERT(templateInstantiationDeclaration != NULL);

                              SgTemplateArgumentPtrList & templateArgumentPtrList = templateInstantiationDeclaration->get_templateArguments();
                              for (SgTemplateArgumentPtrList::iterator i = templateArgumentPtrList.begin(); i != templateArgumentPtrList.end(); i++)
                                 {
#if DEBUG_PRIVATE_TYPE
                                   printf ("recursive call to contains_private_type(%p): name = %s = %s \n",*i,(*i)->class_name().c_str(),(*i)->unparseToString().c_str());
#endif
#if DEBUGGING_USING_RECURSIVE_DEPTH
                                   global_depth++;
#endif

                                   bool isPrivateType = contains_private_type(*i,targetScope);

#if DEBUGGING_USING_RECURSIVE_DEPTH
                                   global_depth--;
#endif
                                   returnValue |= isPrivateType;
                                 }
                              break;
                            }

                         default:
                            {
#if DEBUG_PRIVATE_TYPE
                              printf ("Ignoring non-SgTemplateInstantiationDefn \n");
#endif
                            }
                       }
                  }
             }
            else
             {
            // If it is visible then it need not be qualified and we don't care about if it was private.
               ROSE_ASSERT(isVisable == true);

            // returnValue = true;
               returnValue = false;
             }
        }
       else
        {
#if DEBUG_PRIVATE_TYPE || 0
          printf ("could be a wrapped type: type = %p = %s (not a template class instantiaton) \n",type,type->class_name().c_str());
          if (isSgModifierType(type) != NULL)
             {
               SgModifierType* modifierType = isSgModifierType(type);
               SgType* base_type = modifierType->get_base_type();
               printf ("--- base_type = %p = %s \n",base_type,base_type->class_name().c_str());
               SgNamedType* namedType = isSgNamedType(base_type);
               if (namedType != NULL)
                  {
                    printf ("--- base_type: name = %s \n",namedType->get_name().str());
                  }
             }
#endif
       // If this is a default SgModifierType then unwrap it.
#if 0
          SgModifierType* modifierType = isSgModifierType(type);
          if (modifierType != NULL)
             {

#error "DEAD CODE!"

            // What kind of modifier is this?
               printf ("What kind of type modifier: %s \n",modifierType->get_typeModifier().displayString().c_str());
               if (modifierType->get_typeModifier().isDefault() == true)
                  {
                 // This is a default mode modifier (acting as a wrapper type).
                    type = modifierType->get_base_type();
                  }
                 else
                  {
                    printf ("Not a default modifierType wrapper (need to handle this case) \n");
                    ROSE_ASSERT(false);
                  }
             }
#else
       // Strip past pointers and other wrapping modifiers (but not the typedef types, since the whole point is to detect private instatances).
          type = type->stripType(SgType::STRIP_MODIFIER_TYPE|SgType::STRIP_REFERENCE_TYPE|SgType::STRIP_RVALUE_REFERENCE_TYPE|SgType::STRIP_POINTER_TYPE|SgType::STRIP_ARRAY_TYPE);
#endif

#if 0
          printf ("After stripType(): type = %p = %s \n",type,type->class_name().c_str());
          SgNamedType* namedType = isSgNamedType(type);
          if (namedType != NULL)
             {
               printf ("--- stripType: name = %s \n",namedType->get_name().str());
             }
#endif
          ROSE_ASSERT(type != NULL);

       // Make sure this is not a simple template type (else we will have infinite recursion).
       // if (type != NULL && type->isIntegerType() == false && type->isFloatType() == false)
       // if (type != NULL)
          SgTemplateType*        templateType        = isSgTemplateType(type);
          SgClassType*           classType           = isSgClassType(type);
          SgTypeVoid*            voidType            = isSgTypeVoid(type);
          SgRvalueReferenceType* rvalueReferenceType = isSgRvalueReferenceType(type);
          SgFunctionType*        functionType        = isSgFunctionType(type);
          SgDeclType*            declType            = isSgDeclType(type);

       // DQ (12/7/2016): An enum type needs to be handled since the declaration might be private (but still debugging this for now).
          SgEnumType*            enumType            = isSgEnumType(type);

       // DQ (2/12/2017): Added specific type (causing infinite recursion for CompileTests/RoseExample_tests/testRoseHeaders_03.C.
          SgTypeEllipse*         typeEllipse         = isSgTypeEllipse(type);
          SgTypeUnknown*         typeUnknown         = isSgTypeUnknown(type);
          SgTypeComplex*         typeComplex         = isSgTypeComplex(type);

       // DQ (2/16/2017): This is a case causeing many C codes to fail.
          SgTypeOfType* typeOfType = isSgTypeOfType(type);

          if (type != NULL && templateType == NULL && classType == NULL && voidType == NULL && rvalueReferenceType == NULL && 
                              functionType == NULL && declType  == NULL && enumType == NULL && typeEllipse         == NULL && 
                              typeUnknown  == NULL && typeComplex == NULL && typeOfType == NULL)
             {
#if DEBUG_PRIVATE_TYPE || 0
               printf ("found unwrapped type = %p = %s = %s (not a template class instantiaton) \n",type,type->class_name().c_str(),type->unparseToString().c_str());
#endif
            // if (type->isIntegerType() == false && type->isFloatType() == false)
            // if (type->isIntegerType() == false && type->isFloatType() == false)
               if (type->isIntegerType() == false && type->isFloatType() == false)
                  {
#if DEBUG_PRIVATE_TYPE || 0
                    printf ("Making a recursive call to contains_private_type(type): not integer or float type: type = %p = %s  \n",type,type->class_name().c_str());
#endif
#if DEBUGGING_USING_RECURSIVE_DEPTH
                    depth++;
                    global_depth++;
#endif
                    bool isPrivateType = contains_private_type(type,targetScope);

#if DEBUGGING_USING_RECURSIVE_DEPTH
                    depth--;
                    global_depth--;
#endif
                    returnValue = isPrivateType;
                  }
                 else
                  {
                 // This can't be a private type.
#if DEBUG_PRIVATE_TYPE
                    printf ("This is an integer or float type (of some sort): type = %p = %s = %s \n",type,type->class_name().c_str(),type->unparseToString().c_str());
#endif
                    returnValue = false;
                  }
             }
            else
             {
            // This is where we need to resolve is any types that are associated with declarations might be private (e.g. SgEnumType).

               if (classType != NULL)
                  {
                 // Check if this is associated with a template class instantiation.
#if 0
                    SgClassDeclaration* classDeclaration = isSgClassDeclaration(classType->get_declaration());
                    ROSE_ASSERT(classDeclaration != NULL);
                    printf ("--------- classDeclaration = %p = %s = %s \n",classDeclaration,classDeclaration->class_name().c_str(),classDeclaration->get_name().str());
#endif
                    SgTemplateInstantiationDecl* templateInstantiationDeclaration = isSgTemplateInstantiationDecl(classType->get_declaration());
                    if (templateInstantiationDeclaration != NULL)
                       {
#if DEBUGGING_USING_RECURSIVE_DEPTH
                         global_depth++;
#endif
#if 0
                         printf ("Calling contains_private_type(SgTemplateArgumentPtrList): templateInstantiationDeclaration = %p = %s \n",
                              templateInstantiationDeclaration,templateInstantiationDeclaration->get_name().str());
#endif
                         returnValue = contains_private_type(templateInstantiationDeclaration->get_templateArguments(),targetScope);

#if DEBUGGING_USING_RECURSIVE_DEPTH
                         global_depth--;
#endif
#if 0
                         printf ("DONE: Calling contains_private_type(SgTemplateArgumentPtrList): templateInstantiationDeclaration = %p = %s \n",
                              templateInstantiationDeclaration,templateInstantiationDeclaration->get_name().str());
#endif
                       }
#if 0
                    printf ("DONE: --- classDeclaration = %p = %s = %s \n",classDeclaration,classDeclaration->class_name().c_str(),classDeclaration->get_name().str());
#endif
                  }
             }
        }

#if DEBUG_PRIVATE_TYPE || 0
     printf ("Leaving contains_private_type(SgType*): type = %p = %s = %s returnValue = %s \n",type,type->class_name().c_str(),type->unparseToString().c_str(),returnValue ? "true" : "false");
#endif

     return returnValue;
   }