Example #1
0
 virtual void visit(SgNode* node) {
     if (isSgBasicBlock(node)) {
         SgBasicBlock* c = isSgBasicBlock(node);
         SgStatementPtrList newStatements;
         for (SgStatementPtrList::const_iterator i = c->get_statements().begin();
                 i != c->get_statements().end(); ++i) {
             if (isSgBasicBlock(*i)) {
                 SgBasicBlock* c2 = isSgBasicBlock(*i);
                 const SgStatementPtrList& c2Stmts = c2->get_statements();
                 // We need to prevent a declaration from immediately following a label, as that is illegal
                 if (!newStatements.empty() && isSgLabelStatement(newStatements.back()) && !c2Stmts.empty() && isSgVariableDeclaration(c2Stmts.front())) {
                     newStatements.push_back(SageBuilder::buildExprStatement(SageBuilder::buildNullExpression()));
                 }
                 newStatements.insert(newStatements.end(), isSgBasicBlock(*i)->get_statements().begin(), isSgBasicBlock(*i)->get_statements().end());
             } else {
                 if (!newStatements.empty() && isSgLabelStatement(newStatements.back()) && isSgVariableDeclaration(*i)) {
                     newStatements.push_back(SageBuilder::buildExprStatement(SageBuilder::buildNullExpression()));
                 }
                 newStatements.push_back(*i);
             }
         }
         if (!newStatements.empty() && isSgLabelStatement(newStatements.back())) {
             // Prevent block from ending with a label
             newStatements.push_back(SageBuilder::buildExprStatement(SageBuilder::buildNullExpression()));
         }
         for (SgStatementPtrList::const_iterator i = newStatements.begin();
                 i != newStatements.end(); ++i) {
             (*i)->set_parent(c);
         }
         c->get_statements() = newStatements;
         c->get_symbol_table()->get_table()->clear();
         SageInterface::rebuildSymbolTable(c);
     }
 }
Example #2
0
void Jovial_to_C::translateProgramHeaderStatement(SgProgramHeaderStatement* programHeaderStatement)
{
// Get scopeStatement from SgProgramHeaderStatement
   SgScopeStatement* scopeStatement = programHeaderStatement->get_scope();
   ROSE_ASSERT(scopeStatement);
  
// Get ParameterList and DecoratorList
   SgFunctionParameterList* functionParameterList = buildFunctionParameterList(); 
   SgExprListExp* decoratorList = deepCopy(programHeaderStatement->get_decoratorList());
  
// Reuse FunctionDefinition from Fortran programHeaderStatement
   SgFunctionDefinition* functionDefinition = programHeaderStatement->get_definition();
  
// Get basicBlock from SgProgramHeaderStatement
   SgBasicBlock* basicBlock = functionDefinition->get_body();
   ROSE_ASSERT(basicBlock);

   SgSymbolTable* symbolTable = basicBlock->get_symbol_table();
   ROSE_ASSERT(symbolTable);
  
// The main function return type is int
   SgType* mainType = SgTypeInt::createType();
  
// Remove original function symbol.  Keep the new function symbol with name of "main"
   SgFunctionSymbol* functionSymbol = isSgFunctionSymbol(scopeStatement->lookup_symbol(programHeaderStatement->get_name()));
   SgSymbolTable* globalSymbolTable = isSgSymbolTable(functionSymbol->get_parent());
   globalSymbolTable->remove(functionSymbol);
   functionSymbol->set_parent(NULL);
   delete(functionSymbol);
  
// Create SgFunctionDeclaration for C main function. Name must be "main".
   SgFunctionDeclaration* cFunctionDeclaration = buildDefiningFunctionDeclaration("main",
                                                                                  mainType,
                                                                                  functionParameterList,
                                                                                  scopeStatement);
  
// Setup the C function declaration.
   removeList.push_back(cFunctionDeclaration->get_definition());
   functionDefinition->set_parent(cFunctionDeclaration);
   cFunctionDeclaration->set_definition(functionDefinition);
   programHeaderStatement->set_definition(NULL);
 
// Replace the SgProgramHeaderStatement with SgFunctionDeclaration.
   replaceStatement(programHeaderStatement,cFunctionDeclaration,true);
   cFunctionDeclaration->set_decoratorList(decoratorList);
// cFunctionDeclaration->set_startOfConstruct(functionDefinition->get_startOfConstruct());
// cFunctionDeclaration->set_endOfConstruct(functionDefinition->get_endOfConstruct());
// cFunctionDeclaration->get_file_info()->set_physical_filename(cFunctionDeclaration->get_file_info()->get_filenameString()); 
  
   programHeaderStatement->set_parent(NULL);
}  // End of Jovial_to_C::translateProgramHeaderStatement
Example #3
0
File: options.C Project: 8l/rose
void
TransformationSupport::getTransformationOptions ( SgNode* astNode, list<OptionDeclaration> & generatedList, string identifingTypeName )
   {
  // This function searches for variables of type ScopeBasedTransformationOptimization.  Variables
  // of type ScopeBasedTransformationOptimization are used to communicate optimizations from the
  // application to the preprocessor. If called from a project or file object it traverses down to
  // the global scope of the file and searches only the global scope, if called from and other
  // location within the AST it searches the current scope and then traverses the parent nodes to
  // find all enclosing scopes until in reaches the global scope.  At each scope it searches for
  // variables of type ScopeBasedTransformationOptimization.

  // printf ("######################### START OF TRANSFORMATION OPTION QUERY ######################## \n");

     ROSE_ASSERT (astNode != NULL);
     ROSE_ASSERT (identifingTypeName.c_str() != NULL);

#if 0
     printf ("In getTransformationOptions(): astNode->sage_class_name() = %s generatedList.size() = %d \n",
          astNode->sage_class_name(),generatedList.size());
     SgLocatedNode* locatedNode = isSgLocatedNode(astNode);
     if (locatedNode != NULL)
        {
          printf ("          locatedNode->get_file_info()->get_filename() = %s \n",locatedNode->get_file_info()->get_filename());
          printf ("          locatedNode->get_file_info()->get_line() = %d \n",locatedNode->get_file_info()->get_line());
        }
#endif

     switch (astNode->variant())
        {
          case ProjectTag:
             {
               SgProject* project = isSgProject(astNode);
               ROSE_ASSERT (project != NULL);

           //! Loop through all the files in the project and call the mainTransform function for each file
               int i = 0;
               for (i=0; i < project->numberOfFiles(); i++)
                  {
                    SgFile* file = &(project->get_file(i));

                 // printf ("Calling Query::traverse(SgFile,QueryFunctionType,QueryAssemblyFunctionType) \n");
                    getTransformationOptions ( file, generatedList, identifingTypeName );
                  }
               break;
             }

          case SourceFileTag:
             {
               SgSourceFile* file = isSgSourceFile(astNode);
               ROSE_ASSERT (file != NULL);
               SgGlobal* globalScope = file->get_globalScope();
               ROSE_ASSERT (globalScope != NULL);
               ROSE_ASSERT (isSgGlobal(globalScope) != NULL);
               getTransformationOptions ( globalScope, generatedList, identifingTypeName );
               break;
             }

       // Global Scope
          case GLOBAL_STMT:
             {
               SgGlobal* globalScope = isSgGlobal(astNode);
               ROSE_ASSERT (globalScope != NULL);

               SgSymbolTable* symbolTable = globalScope->get_symbol_table();
               ROSE_ASSERT (symbolTable != NULL);
               getTransformationOptions ( symbolTable, generatedList, identifingTypeName );

            // printf ("Processed global scope, exiting .. \n");
            // ROSE_ABORT();
               break;
             }

          case SymbolTableTag:
             {
            // List the variable in each scope
            // printf ("List all the variables in this symbol table! \n");
               SgSymbolTable* symbolTable = isSgSymbolTable(astNode);
               ROSE_ASSERT (symbolTable != NULL);

               bool foundTransformationOptimizationSpecifier = false;

            // printf ("Now print out the information in the symbol table for this scope: \n");
            // symbolTable->print();

#if 0
            // I don't know when a SymbolTable is given a name!
               printf ("SymbolTable has a name = %s \n",
                    (symbolTable->get_no_name()) ? "NO: it has no name" : "YES: it does have a name");
               if (!symbolTable->get_no_name())
                    printf ("SymbolTable name = %s \n",symbolTable->get_name().str());
                 else
                    ROSE_ASSERT (symbolTable->get_name().str() == NULL);
#endif

               if (symbolTable->get_table() != NULL)
                  {
                    SgSymbolTable::hash_iterator i = symbolTable->get_table()->begin();
                    int counter = 0;
                    while (i != symbolTable->get_table()->end())
                       {
                         ROSE_ASSERT ( isSgSymbol( (*i).second ) != NULL );

                      // printf ("Initial info: number: %d pair.first (SgName) = %s pair.second (SgSymbol) sage_class_name() = %s \n",
                      //      counter,(*i).first.str(),(*i).second->sage_class_name());

                         SgSymbol* symbol = isSgSymbol((*i).second);
                         ROSE_ASSERT ( symbol != NULL );
                         SgType* type = symbol->get_type();
                         ROSE_ASSERT ( type != NULL );

                         SgNamedType* namedType = isSgNamedType(type);
                         string typeName;
                         if (namedType != NULL)
                            {
                              SgName n = namedType->get_name();
                              typeName = namedType->get_name().str();
                           // char* nameString = namedType->get_name().str();
                           // printf ("Type is: (named type) = %s \n",nameString);
                              ROSE_ASSERT (identifingTypeName.c_str() != NULL);
                           // ROSE_ASSERT (typeName != NULL);
                           // printf ("In getTransformationOptions(): typeName = %s identifingTypeName = %s \n",typeName.c_str(),identifingTypeName.c_str());
                           // if ( (typeName != NULL) && ( typeName == identifingTypeName) )
                              if ( typeName == identifingTypeName )
                                 {
                                // Now look at the parameter list to the constructor and save the
                                // values into the list.

                                // printf ("Now save the constructor arguments! \n");

                                   SgVariableSymbol* variableSymbol = isSgVariableSymbol(symbol);

                                   if ( variableSymbol != NULL )
                                      {
                                        SgInitializedName* initializedNameDeclaration = variableSymbol->get_declaration();
                                        ROSE_ASSERT (initializedNameDeclaration != NULL);

                                        SgDeclarationStatement* declarationStatement = initializedNameDeclaration->get_declaration();
                                        ROSE_ASSERT (declarationStatement != NULL);

                                        SgVariableDeclaration* variableDeclaration = isSgVariableDeclaration(declarationStatement);
                                        ROSE_ASSERT (variableDeclaration != NULL);

                                        getTransformationOptionsFromVariableDeclarationConstructorArguments(variableDeclaration,generatedList);

                                        foundTransformationOptimizationSpecifier = true;

                                     // printf ("Exiting after saving the constructor arguments! \n");
                                     // ROSE_ABORT();
                                      }
                                     else
                                      {
#if 0
                                        printf ("Not a SgVariableSymbol: symbol->sage_class_name() = %s \n",
                                             symbol->sage_class_name());
#endif
                                      }
                                 }
                                else
                                 {
#if 0
                                   printf ("typeName != identifingTypeName : symbol->sage_class_name() = %s \n",
                                        symbol->sage_class_name());
#endif
#if 0
                                // I don't think this should ever be NULL (but it is sometimes)
                                   if (typeName != NULL)
                                        printf ("typeName == NULL \n");
#endif
                                 }
                            }
                           else
                            {
                              typeName = (char *)type->sage_class_name();
                            }

                      // printf ("In while loop at the base: counter = %d \n",counter);
                         i++;
                         counter++;
                       }
                  }
                 else
                  {
                 // printf ("Pointer to symbol table is NULL \n");
                  }

            // printf ("foundTransformationOptimizationSpecifier = %s \n",foundTransformationOptimizationSpecifier ? "true" : "false");

            // SgSymbolTable objects don't have a parent node (specifically they lack a get_parent
            // member function in the interface)!
               break;
             }

          case BASIC_BLOCK_STMT:
             {
            // List the variable in each scope
            // printf ("List all the variables in this scope! \n");
               SgBasicBlock* basicBlock = isSgBasicBlock(astNode);
               ROSE_ASSERT (basicBlock != NULL);

               SgSymbolTable* symbolTable = basicBlock->get_symbol_table();
               ROSE_ASSERT (symbolTable != NULL);
               getTransformationOptions ( symbolTable, generatedList, identifingTypeName );

            // Next go (fall through this case) to the default case so that we traverse the parent
            // of the SgBasicBlock.
            // break;
             }

          default:
            // Most cases will be the default (this is by design)
            // printf ("default in switch found in globalQueryGetListOperandStringFunction() (sage_class_name = %s) \n",astNode->sage_class_name());

            // Need to recursively backtrack through the parents until we reach the SgGlobal (global scope)
               SgStatement* statement = isSgStatement(astNode);
               if (statement != NULL)
                  {
                    SgNode* parentNode = statement->get_parent();
                    ROSE_ASSERT (parentNode != NULL);
//                  printf ("parent = %p parentNode->sage_class_name() = %s \n",parentNode,parentNode->sage_class_name());
                    SgStatement* parentStatement = isSgStatement(parentNode);
                    if (parentStatement == NULL)
                       {
                         printf ("parentStatement == NULL: statement (%p) is a %s \n",statement,statement->sage_class_name());
                         printf ("parentStatement == NULL: statement->get_file_info()->get_filename() = %s \n",statement->get_file_info()->get_filename());
                         printf ("parentStatement == NULL: statement->get_file_info()->get_line() = %d \n",statement->get_file_info()->get_line());
                       }
                    ROSE_ASSERT (parentStatement != NULL);

                 // Call this function recursively (directly rather than through the query mechanism)
                    getTransformationOptions ( parentStatement, generatedList, identifingTypeName );
                  }
                 else
                  {
                 // printf ("astNode is not a SgStatement! \n");
                  }

               break;
        }

#if 0
     printf ("At BASE of getTransformationOptions(): astNode->sage_class_name() = %s size of generatedList = %d \n",
          astNode->sage_class_name(),generatedList.size());
#endif

  // printf ("######################### END OF TRANSFORMATION OPTION QUERY ######################## \n");
   }