Ejemplo n.º 1
0
Archivo: RoseToTerm.C Proyecto: 8l/rose
/**
 * class: SgTypedefType
 * term: typedef_type(name, base)
 * arg name: name of the new type
 * arg base: basetype
 */
PrologCompTerm* 
RoseToTerm::getTypedefTypeSpecific(SgType* mtype) {
  /* make sure this is actually a SgTypedefType*/
  SgTypedefType* tp = isSgTypedefType(mtype);
  ROSE_ASSERT(tp != NULL);

  /* create term and add name*/
  return new PrologCompTerm
    ("typedef_type", //2,
     new PrologAtom(tp->get_name().getString()),
     (tp->get_base_type() != NULL /* add base type */
      ? getTypeSpecific(tp->get_base_type())
      : new PrologAtom("null")));
}
Ejemplo n.º 2
0
// DQ (8/27/2006): This functionality already exists elsewhere
// It is a shame that it is recreated here as well !!!
NameQuerySynthesizedAttributeType
NameQuery::queryNameTypeName (SgNode * astNode)
{
  ROSE_ASSERT (astNode != NULL);
  string typeName = "";
  Rose_STL_Container< string > returnList;
  SgType *type = isSgType (astNode);

  // printf ("In TransformationSupport::getTypeName(): type->sage_class_name() = %s \n",type->sage_class_name());

  if (type != NULL)
    switch (type->variantT ())
      {
      case V_SgTypeComplex:
        typeName = "complex";
        break;
      case V_SgTypeImaginary:
        typeName = "imaginary";
        break;
      case V_SgTypeBool:
        typeName = "bool";
        break;
      case V_SgEnumType:
        typeName = "enum";
        break;
      case V_SgTypeChar:
        typeName = "char";
        break;
      case V_SgTypeVoid:
        typeName = "void";
        break;
      case V_SgTypeInt:
        typeName = "int";
        break;
      case V_SgTypeDouble:
        typeName = "double";
        break;
      case V_SgTypeFloat:
        typeName = "float";
        break;
      case V_SgTypeLong:
        typeName = "long";
        break;
      case V_SgTypeLongDouble:
        typeName = "long double";
        break;
      case V_SgTypeEllipse:
        typeName = "ellipse";
        break;
      case V_SgTypeGlobalVoid:
        typeName = "void";
        break;
      case V_SgTypeLongLong:
        typeName = "long long";
        break;
      case V_SgTypeShort:
        typeName = "short";
        break;
      case V_SgTypeSignedChar:
        typeName = "signed char";
        break;
      case V_SgTypeSignedInt:
        typeName = "signed int";
        break;
      case V_SgTypeSignedLong:
        typeName = "signed long";
        break;
      case V_SgTypeSignedShort:
        typeName = "signed short";
        break;
      case V_SgTypeString:
        typeName = "string";
        break;
      case V_SgTypeUnknown:
        typeName = "unknown";
        break;
      case V_SgTypeUnsignedChar:
        typeName = "unsigned char";
        break;
      case V_SgTypeUnsignedInt:
        typeName = "unsigned int";
        break;
      case V_SgTypeUnsignedLong:
        typeName = "unsigned long";
        break;
      case V_SgTypeUnsignedShort:
        typeName = "unsigned short";
        break;
      case V_SgTypeUnsignedLongLong:
        typeName = "unsigned long long";
        break;
      case V_SgReferenceType:
        {
          ROSE_ASSERT (isSgReferenceType (type)->get_base_type () != NULL);

          Rose_STL_Container< string > subTypeNames = queryNameTypeName (isSgReferenceType (type)->get_base_type ());

          typedef Rose_STL_Container< string >::iterator typeIterator;

          //This iterator will only contain one name
          for (typeIterator i = subTypeNames.begin ();
               i != subTypeNames.end (); ++i)
            {
              string e = *i;
              typeName = e;
              break;
            }

          break;
        }
      case V_SgPointerType:
        {
          ROSE_ASSERT (isSgPointerType (type)->get_base_type () != NULL);

          Rose_STL_Container< string > subTypeNames =
            queryNameTypeName (isSgPointerType (type)->get_base_type ());

          typedef Rose_STL_Container< string >::iterator typeIterator;

          //This iterator will only contain one name
          for (typeIterator i = subTypeNames.begin ();
               i != subTypeNames.end (); ++i)
            {
              string e = *i;
              typeName = e;
              break;
            }

          break;
        }
      case V_SgModifierType:
        {
          ROSE_ASSERT (isSgModifierType (type)->get_base_type () != NULL);

          Rose_STL_Container< string > subTypeNames =
            queryNameTypeName (isSgModifierType (type)->get_base_type ());

          typedef Rose_STL_Container< string >::iterator typeIterator;

          //This iterator will only contain one name
          for (typeIterator i = subTypeNames.begin ();
               i != subTypeNames.end (); ++i)
            {
              string e = *i;
              typeName = e;
              break;
            }
          break;
        }
      case V_SgNamedType:
        {
          SgNamedType *sageNamedType = isSgNamedType (type);
          ROSE_ASSERT (sageNamedType != NULL);
          typeName = sageNamedType->get_name ().str ();
          break;
        }
      case V_SgClassType:
        {
          SgClassType *sageClassType = isSgClassType (type);
          ROSE_ASSERT (sageClassType != NULL);
          typeName = sageClassType->get_name ().str ();
          break;
        }
      case V_SgTypedefType:
        {
          SgTypedefType *sageTypedefType = isSgTypedefType (type);
          ROSE_ASSERT (sageTypedefType != NULL);
          typeName = sageTypedefType->get_name ().str ();
          break;
        }
      case V_SgPointerMemberType:
        {
          SgPointerMemberType *pointerMemberType =
            isSgPointerMemberType (type);
          ROSE_ASSERT (pointerMemberType != NULL);
          SgClassType *classType =
            isSgClassType(pointerMemberType->get_class_type()->stripTypedefsAndModifiers());
          ROSE_ASSERT (classType != NULL);
          SgClassDeclaration *classDeclaration =
            isSgClassDeclaration(classType->get_declaration());
          ROSE_ASSERT (classDeclaration != NULL);
          typeName = classDeclaration->get_name ().str ();
          break;
        }
      case V_SgArrayType:
        {
          ROSE_ASSERT (isSgArrayType (type)->get_base_type () != NULL);


          Rose_STL_Container< string > subTypeNames =
            queryNameTypeName (isSgArrayType (type)->get_base_type ());

          typedef Rose_STL_Container< string >::iterator typeIterator;

          //This iterator will only contain one name
          for (typeIterator i = subTypeNames.begin ();
               i != subTypeNames.end (); ++i)
            {
              string e = *i;
              typeName = e;
              break;
            }
          break;
        }
      case V_SgFunctionType:
        {
          SgFunctionType *functionType = isSgFunctionType (type);
          ROSE_ASSERT (functionType != NULL);
          typeName = functionType->get_mangled_type ().str ();
          break;
        }
      case V_SgMemberFunctionType:
        {
          SgMemberFunctionType *memberFunctionType =
            isSgMemberFunctionType (type);
          ROSE_ASSERT (memberFunctionType != NULL);
          SgClassType *classType =
            isSgClassType(memberFunctionType->get_class_type()->stripTypedefsAndModifiers());
          ROSE_ASSERT (classType != NULL);
          SgClassDeclaration *classDeclaration =
            isSgClassDeclaration(classType->get_declaration());
          ROSE_ASSERT (classDeclaration != NULL);
          typeName = classDeclaration->get_name ().str ();
          break;
        }
      case V_SgTypeWchar:
        typeName = "wchar";
        break;
      case V_SgTypeDefault:
        typeName = "default";
        break;
      default:
        printf
          ("default reached in switch within TransformationSupport::getTypeName type->sage_class_name() = %s variant = %d \n",
           type->sage_class_name (), type->variant ());
        ROSE_ABORT ();
        break;
      }

  // Fix for purify problem report
  // typeName = ROSE::stringDuplicate(typeName);

  if (typeName.size () > 0)
    returnList.push_back (typeName);
  //ROSE_ASSERT(typeName.c_str() != NULL);
  // return typeName;
  return returnList;
//return ROSE::stringDuplicate(typeName.c_str());
}