コード例 #1
0
ファイル: HtSageUtils.cpp プロジェクト: CarlEbeling/OpenHT
SgStatement *findSafeInsertPoint(SgNode *node) {
    SgStatement *insertPoint = SageInterface::getEnclosingStatement(node);
    SgStatement *es = isSgExprStatement(insertPoint);
    SgStatement *esParent = es ? isSgStatement(es->get_parent()) : 0;
    if (es && (isSgSwitchStatement(esParent) || isSgIfStmt(esParent))) {
      // Make sure insertion point is outside of the condition of an if-stmt
      // or the selector of a switch-stmt.
      insertPoint = esParent; 
    } else {
      if (esParent) {
        assert(isSgBasicBlock(esParent));
      }
    }
    return insertPoint;
}
コード例 #2
0
void
FunctionCallNormalization::visit( SgNode *astNode )
   {
     SgStatement *stm = isSgStatement( astNode );

     // visiting all statements which may contain function calls;
     // Note 1: we do not look at the body of loops, or sequences of statements, but only
     // at statements which may contain directly function calls; all other statements will have their component parts visited in turn
     if ( isSgEnumDeclaration( astNode ) || isSgVariableDeclaration( astNode ) || isSgVariableDefinition( astNode ) ||
                               isSgExprStatement( astNode ) || isSgForStatement( astNode ) || isSgReturnStmt( astNode ) ||
                               isSgSwitchStatement( astNode ) )
        {
       // maintain the mappings from function calls to expressions (variables or dereferenced variables)
          map<SgFunctionCallExp *, SgExpression *> fct2Var;

       // list of Declaration structures, one structure per function call
          DeclarationPtrList declarations;
          bool variablesDefined = false;
             
       // list of function calls, in correnspondence with the inForTest list below
          list<SgNode*> functionCallExpList;
          list<bool> inForTest;

          SgForStatement *forStm = isSgForStatement( stm );
          SgSwitchStatement *swStm = isSgSwitchStatement( stm );
          list<SgNode*> temp1, temp2;

       // for-loops and Switch statements have conditions ( and increment ) expressed as expressions
       // and not as standalone statements; this will change in future Sage versions
       // TODO: when for-loops and switch statements have conditions expressed via SgStatements
       // these cases won't be treated separately; however, do-while will have condition expressed via expression
       // so that will be the only exceptional case to be treated separately
          if (forStm != NULL)
             {
            // create a list of function calls in the condition and increment expression
            // the order is important, the condition is evaluated after the increment expression
            // temp1 = FEOQueryForNodes( forStm->get_increment_expr_root(), V_SgFunctionCallExp );
            // temp2 = FEOQueryForNodes( forStm->get_test_expr_root(), V_SgFunctionCallExp );
               temp1 = FEOQueryForNodes( forStm->get_increment(), V_SgFunctionCallExp );
               temp2 = FEOQueryForNodes( forStm->get_test_expr(), V_SgFunctionCallExp );
               functionCallExpList = temp1;
               functionCallExpList.splice( functionCallExpList.end(), temp2 );
             }
            else
             {
               if (swStm != NULL)
                  {
                 // create a list of function calls in the condition in the order of function evaluation
                 // DQ (11/23/2005): Fixed SgSwitchStmt to have SgStatement for conditional.
                 // list<SgNode*> temp1 = FEOQueryForNodes( swStm->get_item_selector_root(), V_SgFunctionCallExp );
                    list<SgNode*> temp1 = FEOQueryForNodes( swStm->get_item_selector(), V_SgFunctionCallExp );
                    functionCallExpList = temp1;
                  }
                 else
                  {
                 // create a list of function calls in the statement in the order of function evaluation
                    functionCallExpList = FEOQueryForNodes( stm, V_SgFunctionCallExp );
                  }
             }

         // all function calls get replaced: this is because they can occur in expressions (e.g. for-loops)
         // which makes it difficult to build control flow graphs
         if ( functionCallExpList.size() > 0 )
           {
             cout << "--------------------------------------\nStatement ";
             cout << stm->unparseToString() << "\n";;
             
             // traverse the list of function calls in the current statement, generate a structure  Declaration for each call
             // put these structures in a list to be inserted in the code later
             for ( list<SgNode *>::iterator i = functionCallExpList.begin(); i != functionCallExpList.end(); i++ )
               {
                 variablesDefined = true;

                 // get function call exp
                 SgFunctionCallExp *exp = isSgFunctionCallExp( *i );
                 ROSE_ASSERT ( exp );
                 
                 // get type of expression, generate unique variable name
                 SgType *expType = exp->get_type();
                 ROSE_ASSERT ( expType );
                 Sg_File_Info *location = Sg_File_Info::generateDefaultFileInfoForTransformationNode();
                 ROSE_ASSERT ( location );
                 ostringstream os;
                 os << "__tempVar__" << location;
                 SgName name = os.str().c_str();

                 // replace previous variable bindings in the AST
                 SgExprListExp *paramsList = exp->get_args();
                 SgExpression *function = exp->get_function();
                 ROSE_ASSERT ( paramsList && function );
                 replaceFunctionCallsInExpression( paramsList, fct2Var );
                 replaceFunctionCallsInExpression( function, fct2Var );

                 // duplicate function call expression, for the initialization declaration and the assignment
                 SgTreeCopy treeCopy;
                 SgFunctionCallExp *newExpInit = isSgFunctionCallExp( exp->copy( treeCopy ) );
                 ROSE_ASSERT ( newExpInit );
                 SgFunctionCallExp *newExpAssign = isSgFunctionCallExp( exp->copy( treeCopy ) );
                 ROSE_ASSERT ( newExpAssign );

                 // variables
                 Sg_File_Info *initLoc = Sg_File_Info::generateDefaultFileInfoForTransformationNode(),
                   *nonInitLoc = Sg_File_Info::generateDefaultFileInfoForTransformationNode(),
                   *assignLoc = Sg_File_Info::generateDefaultFileInfoForTransformationNode();
                 Declaration *newDecl = new Declaration();
                 SgStatement *nonInitVarDeclaration, *initVarDeclaration, *assignStmt;
                 SgExpression *varRefExp;
                 SgVariableSymbol *varSymbol;
                 SgAssignOp *assignOp;
                 SgInitializedName *initName;

                 bool pointerTypeNeeded = false;

                 // mark whether to replace inside or outside of ForStatement due to the
                 // function call being inside the test or the increment for a for-loop statement
                 // the 'inForTest' list is in 1:1  ordered correpondence with the 'declarations' list
                 if ( forStm )
                   {
        // SgExpressionRoot
                  //   *testExp = isSgForStatement( astNode )->get_test_expr_root(),
                  //   *incrExp = isSgForStatement( astNode )->get_increment_expr_root();
                     SgExpression
                       *testExp = isSgForStatement( astNode )->get_test_expr(),
                       *incrExp = isSgForStatement( astNode )->get_increment();
                     SgNode *up = exp;
                     while ( up && up != testExp && up != incrExp )
                       up = up->get_parent();
                     ROSE_ASSERT ( up );

                     // function call is in the condition of the for-loop
                     if ( up == testExp )
                       inForTest.push_back( true );
                     // function call is in the increment expression
                     else
                       {
                         inForTest.push_back( false );

                         // for increment expressions we need to be able to reassign the return value
                         // of the function; if the ret value is a reference, we need to generate a
                         // pointer of that type (to be able to reassign it later)
                         if ( isSgReferenceType( expType ) )
                           pointerTypeNeeded = true;
                       }
                   }

                 // for do-while statements:  we need to generate declaration of type pointer to be able to have
                 // non-assigned references when looping and assign them at the end of the body of the loop
                 if ( isSgDoWhileStmt( stm->get_parent() ) && isSgReferenceType( expType ) )
                   pointerTypeNeeded = true;

                 // we have a function call returning a reference and we can't initialize the variable
                 // at the point of declaration; we need to define the variable as a pointer
                 if ( pointerTypeNeeded )
                   {
                     // create 'address of' term for function expression, so we can assign it to the pointer
                     SgAddressOfOp *addressOp = new SgAddressOfOp( assignLoc, newExpAssign, expType );

                     // create noninitialized declaration
                     SgType *base = isSgReferenceType( expType )->get_base_type();
                     ROSE_ASSERT( base );
                     SgPointerType *ptrType = SgPointerType::createType( isSgReferenceType( expType )->get_base_type() );
                     ROSE_ASSERT ( ptrType );
                     nonInitVarDeclaration = new SgVariableDeclaration ( nonInitLoc, name, ptrType );

                     // create assignment (symbol, varRefExp, assignment)
                     initName = isSgVariableDeclaration( nonInitVarDeclaration )->get_decl_item( name );
                     ROSE_ASSERT ( initName );

                     varSymbol = new SgVariableSymbol( initName );
                     ROSE_ASSERT ( varSymbol );
                     varRefExp = new SgVarRefExp( assignLoc, varSymbol );

                     SgPointerDerefExp *ptrDeref= new SgPointerDerefExp( assignLoc, varRefExp, expType );
                     ROSE_ASSERT ( isSgExpression( varRefExp ) && ptrDeref );
                     assignOp = new SgAssignOp( assignLoc, varRefExp, addressOp, ptrType );
                     assignStmt = new SgExprStatement( assignLoc, assignOp );
                     ROSE_ASSERT ( assignStmt &&  nonInitVarDeclaration );
           
                     // we don't need initialized declarations in this case
                     initVarDeclaration = NULL;

                     // save new mapping
                     fct2Var.insert( Fct2Var( exp, ptrDeref ) );
                   }
                 else
                   {
                     // create (non- &)initialized declarations, initialized name & symbol
                     SgAssignInitializer *declInit = new SgAssignInitializer( initLoc, newExpInit, expType );
                     ROSE_ASSERT ( declInit );
                     initVarDeclaration = new SgVariableDeclaration ( initLoc, name, expType, declInit );
                     nonInitVarDeclaration = new SgVariableDeclaration ( nonInitLoc, name, expType );
                     ROSE_ASSERT ( initVarDeclaration && nonInitVarDeclaration );

                     initName = isSgVariableDeclaration( nonInitVarDeclaration )->get_decl_item( name );
                     ROSE_ASSERT ( initName );
                     newExpInit->set_parent( initName );
                     varSymbol = new SgVariableSymbol( initName );
                     ROSE_ASSERT ( varSymbol );

                     // create variable ref exp
                     varRefExp = new SgVarRefExp( assignLoc, varSymbol );
                     ROSE_ASSERT ( isSgVarRefExp( varRefExp ) );

                     // create the assignment
                     assignOp = new SgAssignOp( assignLoc, varRefExp, newExpAssign, expType );
                     assignStmt = new SgExprStatement( assignLoc, assignOp );
                     ROSE_ASSERT ( assignStmt );

                     initVarDeclaration->set_parent( stm->get_parent() );
                     isSgVariableDeclaration( initVarDeclaration )->set_definingDeclaration( isSgDeclarationStatement( initVarDeclaration ) );

                     // save new mapping
                     fct2Var.insert( Fct2Var( exp, varRefExp ) );
                   }

                 // save the 'declaration' structure, with all 3 statements and the variable name
                 newDecl->nonInitVarDeclaration = nonInitVarDeclaration;
                 newDecl->initVarDeclaration = initVarDeclaration;
                 newDecl->assignment = assignStmt;
                 newDecl->name = name;
                 nonInitVarDeclaration->set_parent( stm->get_parent() );
                 isSgVariableDeclaration( nonInitVarDeclaration )->set_definingDeclaration( isSgVariableDeclaration( nonInitVarDeclaration ) );
                 assignStmt->set_parent( stm->get_parent() );
                 declarations.push_back( newDecl );
               } // end for
           } // end if  fct calls in crt stmt > 1

         SgScopeStatement *scope = stm->get_scope();
         ROSE_ASSERT ( scope );
         
         // insert function bindings to variables; each 'declaration' structure in the list
         // corresponds to one function call
         for ( DeclarationPtrList::iterator i = declarations.begin(); i != declarations.end(); i++ )
           {
             Declaration *d = *i;
             ROSE_ASSERT ( d && d->assignment && d->nonInitVarDeclaration );

             // if the current statement is a for-loop, we insert Declarations before & in the loop body, depending on the case
             if ( forStm )
               {
                 SgStatement *parentScope = isSgStatement( stm->get_scope() );
                 SgBasicBlock *body = SageInterface::ensureBasicBlockAsBodyOfFor(forStm);
                 ROSE_ASSERT ( !inForTest.empty() && body && parentScope );
                 // SgStatementPtrList &list = body->get_statements();

                 // if function call is in loop condition, we add initialized variable before the loop and at its end
                 // hoist initialized variable declarations outside the loop
                 if ( inForTest.front() )
                   {
                     ROSE_ASSERT ( d->initVarDeclaration );
                     parentScope->insert_statement( stm, d->initVarDeclaration );

                     // set the scope of the initializedName
                     SgInitializedName *initName = isSgVariableDeclaration( d->initVarDeclaration )->get_decl_item( d->name );
                     ROSE_ASSERT ( initName );
                     initName->set_scope( isSgScopeStatement( parentScope ) );
                     ROSE_ASSERT ( initName->get_scope() );
                   }
                 // function call is in loop post increment so add noninitialized variable decls above the loop
                 else
                   {
                     parentScope->insert_statement( stm, d->nonInitVarDeclaration );

                     // set the scope of the initializedName
                     SgInitializedName *initName = isSgVariableDeclaration( d->nonInitVarDeclaration )->get_decl_item( d->name );
                     ROSE_ASSERT ( initName );
                     initName->set_scope( isSgScopeStatement( parentScope ) );
                     ROSE_ASSERT ( initName->get_scope() );
                   }

                 // in a for-loop, always insert assignments at the end of the loop
                 body->get_statements().push_back( d->assignment );
                 d->assignment->set_parent( body );

                 // remove marker
                 inForTest.pop_front();
               }
             else
               {
                 // look at the type of the enclosing scope
                 switch ( scope->variantT() )
                   {

                     // while stmts have to repeat the function calls at the end of the loop;
                     // note there is no "break" statement, since we want to also add initialized
                     // declarations before the while-loop
                   case V_SgWhileStmt:
                     {
                       // assignments need to be inserted at the end of each while loop
                       SgBasicBlock *body = SageInterface::ensureBasicBlockAsBodyOfWhile(isSgWhileStmt( scope ) );
                       ROSE_ASSERT ( body );
                       d->assignment->set_parent( body );
                       body->get_statements().push_back( d->assignment );
                     }

                     // SgForInitStatement has scope SgForStatement, move declarations before the for loop;
                     // same thing if the enclosing scope is an If, or Switch statement
                   case V_SgForStatement:
                   case V_SgIfStmt:
                   case V_SgSwitchStatement:
                     {
                       // adding bindings (initialized variable declarations only, not assignments)
                       // outside the statement, in the parent scope
                       SgStatement *parentScope = isSgStatement( scope->get_parent() );
                       ROSE_ASSERT ( parentScope );
                       parentScope->insert_statement( scope, d->initVarDeclaration, true );\

                       // setting the scope of the initializedName
                       SgInitializedName *initName = isSgVariableDeclaration( d->initVarDeclaration )->get_decl_item( d->name );
                       ROSE_ASSERT ( initName );
                       initName->set_scope( scope->get_scope() );
                       ROSE_ASSERT ( initName->get_scope() );
                     }
                     break;

                     // do-while needs noninitialized declarations before the loop, with assignments inside the loop
                   case V_SgDoWhileStmt:
                     {
                       // adding noninitialized variable declarations before the body of the loop
                       SgStatement *parentScope = isSgStatement( scope->get_parent() );
                       ROSE_ASSERT ( parentScope );
                       parentScope->insert_statement( scope, d->nonInitVarDeclaration, true );

                       // initialized name scope setting
                       SgInitializedName *initName = isSgVariableDeclaration( d->nonInitVarDeclaration )->get_decl_item( d->name );
                       ROSE_ASSERT ( initName );
                       initName->set_scope( scope->get_scope() );
                       ROSE_ASSERT ( initName->get_scope() );

                       // adding assignemts at the end of the do-while loop
                       SgBasicBlock *body = SageInterface::ensureBasicBlockAsBodyOfDoWhile( isSgDoWhileStmt(scope) );
                       ROSE_ASSERT ( body );
                       body->get_statements().push_back( d->assignment );
                       d->assignment->set_parent(body);
                     }
                     break;

                     // for all other scopes, add bindings ( initialized declarations ) before the statement, in the same scope
                   default:
                     scope->insert_statement( stm, d->initVarDeclaration, true );

                     // initialized name scope setting
                     SgInitializedName *initName = isSgVariableDeclaration( d->initVarDeclaration )->get_decl_item( d->name );
                     ROSE_ASSERT ( initName );
                     initName->set_scope( scope->get_scope() );
                     ROSE_ASSERT ( initName->get_scope() );
                   }
               }
           }
         
         // once we have inserted all variable declarations, we need to replace top-level calls in the original statement
         if ( variablesDefined )
           {
             cout << "\tReplacing in the expression " << stm->unparseToString() << "\n";

             // for ForStatements, replace expressions in condition and increment expressions,
             // not in the body, since those get replace later
             if ( forStm )
               {
         // SgExpressionRoot *testExp = forStm->get_test_expr_root(), *incrExp = forStm->get_increment_expr_root();
            SgExpression *testExp = forStm->get_test_expr(), *incrExp = forStm->get_increment();
            replaceFunctionCallsInExpression( incrExp, fct2Var );
            replaceFunctionCallsInExpression( testExp, fct2Var );
               }
             else
               if ( swStm )
             {
            // DQ (11/23/2005): Fixed SgSwitch to permit use of declaration for conditional
            // replaceFunctionCallsInExpression( swStm->get_item_selector_root(), fct2Var );
               replaceFunctionCallsInExpression( swStm->get_item_selector(), fct2Var );
             }
               else
             replaceFunctionCallsInExpression( stm, fct2Var );
           }
       } // end if isSgStatement block
   }
コード例 #3
0
ファイル: mpiCodeGenerator.C プロジェクト: 8l/rose
void MPI_Code_Generator::lower_xomp (SgSourceFile* file)
{
  ROSE_ASSERT(file != NULL);

  Rose_STL_Container<SgNode*> nodeList = NodeQuery::querySubTree(file, V_SgStatement);
  Rose_STL_Container<SgNode*>::reverse_iterator nodeListIterator = nodeList.rbegin();
  for ( ;nodeListIterator !=nodeList.rend();  ++nodeListIterator)
  {
    SgStatement* node = isSgStatement(*nodeListIterator);
    ROSE_ASSERT(node != NULL);
    //debug the order of the statements
    //    cout<<"Debug lower_omp(). stmt:"<<node<<" "<<node->class_name() <<" "<< node->get_file_info()->get_line()<<endl;

    switch (node->variantT())
    {
#if 0
      case V_SgOmpParallelStatement:
        {
          // check if this parallel region is under "omp target"
          SgNode* parent = node->get_parent();
          ROSE_ASSERT (parent != NULL);
          if (isSgBasicBlock(parent)) // skip the padding block in between.
            parent= parent->get_parent();
          if (isSgOmpTargetStatement(parent))
            transOmpTargetParallel(node);
          else  
            transOmpParallel(node);
          break;
        }
      case V_SgOmpForStatement:
      case V_SgOmpDoStatement:
        {
          // check if the loop is part of the combined "omp parallel for" under the "omp target" directive
          // TODO: more robust handling of this logic, not just fixed AST form
          bool is_target_loop = false;
          SgNode* parent = node->get_parent();
          ROSE_ASSERT (parent != NULL);
          // skip a possible BB between omp parallel and omp for, especially when the omp parallel has multiple omp for loops 
          if (isSgBasicBlock(parent))
            parent = parent->get_parent();
          SgNode* grand_parent = parent->get_parent();
          ROSE_ASSERT (grand_parent != NULL);

          if (isSgOmpParallelStatement (parent) && isSgOmpTargetStatement(grand_parent) ) 
            is_target_loop = true;

          if (is_target_loop)
          {
            //            transOmpTargetLoop (node);
            // use round-robin scheduler for larger iteration space and better performance
            transOmpTargetLoop_RoundRobin(node);
          }
          else  
          { 
            transOmpLoop(node);
          }
          break;
        }
#endif
    // transform combined "omp target parallel for", represented as separated three directives: omp target, omp parallel, and omp for     
    case V_SgOmpForStatement:
    {
      SgOmpTargetStatement * omp_target; 
      SgOmpParallelStatement*  omp_parallel;
      if (isCombinedTargetParallelFor (isSgOmpForStatement(node),&omp_target, &omp_parallel )) 
      {
        transOmpTargetParallelLoop (isSgOmpForStatement(node));
      }
      break;
    }
    case V_SgOmpTargetStatement:
        {
          SgOmpTargetStatement* t_stmt = isSgOmpTargetStatement(node);
          ROSE_ASSERT (t_stmt != NULL);
          SgStatement* body_stmt = t_stmt->get_body();
          SgBasicBlock * body_block = isSgBasicBlock (body_stmt);
//          transOmpTarget(node);
          if (isMPIAllBegin (t_stmt))
          {
            // move all body statements to be after omp target
            if (body_block != NULL)
            {
              stripOffBasicBlock (body_block, t_stmt);
            }
            else
            {
              //TODO: ideally, the body_stmt should be normalized to be a BB even it is only a single statement
              removeStatement (body_stmt);
              insertStatementAfter (t_stmt, body_stmt, false);
            }
            // remove the pragma stmt after the translation
            removeStatement (t_stmt);
          }
          else if (isMPIMasterBegin (t_stmt))
          {
            transMPIDeviceMaster (t_stmt);
          }
          else
          {
            // other target directive with followed omp parallel for will be handled when parallel for is translated
            // cerr<<"Error. Unhandled target directive:" <<t_stmt->unparseToString()<<endl;
            //ROSE_ASSERT (false);
          }
          break;
        }
     default:
        {
          // do nothing here    
        }
    }// switch

  } // end for 

}
コード例 #4
0
ファイル: options.C プロジェクト: 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");
   }
コード例 #5
0
// Convert something like "int a = foo();" into "int a; a = foo();"
SgAssignOp* convertInitializerIntoAssignment(SgAssignInitializer* init)
   {
#ifndef CXX_IS_ROSE_CODE_GENERATION
     using namespace SageBuilder;
     assert (SageInterface::isDefaultConstructible(init->get_operand_i()->get_type()));
     SgStatement* stmt = getStatementOfExpression(init);
     assert (stmt);
     SgScopeStatement* parent = isSgScopeStatement(stmt->get_parent());
     if (!parent && isSgForInitStatement(stmt->get_parent()))
          parent = isSgScopeStatement(stmt->get_parent()->get_parent()->get_parent());
     assert (parent);
     SgNode* initparent = init->get_parent();
     assert (initparent);

     SgInitializedName* initname = NULL;
     if (isSgInitializedName(initparent))
          initname = isSgInitializedName(initparent);
       else
          if (isSgVariableDefinition(initparent))
               initname = isSgVariableDefinition(initparent)->get_vardefn();
            else
               if (isSgVariableDeclaration(initparent))
                  {
                    SgInitializedNamePtrList& vars = isSgVariableDeclaration(initparent)->get_variables();
                    for (SgInitializedNamePtrList::iterator i = vars.begin(); i != vars.end(); ++i)
                       {
                         if ((*i)->get_initializer() == init)
                            {
                              initname = *i;
                              break;
                            }
                       }
                  }
                 else
                  {
                    std::cout << "initparent is a " << initparent->sage_class_name() << std::endl;
                    assert (!"Should not happen");
                  }

     assert (initname);
     assert (initname->get_initializer() == init);
     assert (parent);
     SgSymbol* sym = initname->get_symbol_from_symbol_table();
     ROSE_ASSERT (isSgVariableSymbol(sym));
     SgVarRefExp* vr = buildVarRefExp(isSgVariableSymbol(sym));
     vr->set_lvalue(true);
     SgExprStatement* assign_stmt = buildAssignStatement(vr, init->get_operand());

     initname->set_initializer(NULL);

  // assignment->set_parent(assign_stmt);
  // cout << "stmt is " << stmt->unparseToString() << endl;
  // cout << "stmt->get_parent() is a " << stmt->get_parent()->sage_class_name() << endl;

     myStatementInsert(stmt, assign_stmt, false);
     assign_stmt->set_parent(parent);

  // FixSgTree(assign_stmt);
  // FixSgTree(parent);

  // AstPostProcessing(assign_stmt);
     return isSgAssignOp(assign_stmt->get_expression());
#else
     return NULL;
#endif
   }
コード例 #6
0
// Insert a new statement before or after a target statement.  If
// allowForInit is true, the new statement can be inserted into the
// initializer of a for statement.
// Needs to be merged
void myStatementInsert ( SgStatement* target, SgStatement* newstmt, bool before, bool allowForInit )
   {
     ROSE_ASSERT(target != NULL);
     ROSE_ASSERT(newstmt != NULL);
#if 0
     printf ("In inlining: myStatementInsert(): newstmt = %p = %s \n",newstmt,newstmt->class_name().c_str());
     printf ("In inlining: myStatementInsert(): target = %p = %s \n",target,target->class_name().c_str());
#endif
     SgStatement* parent = isSgStatement(target->get_parent());
#if 0
     if (parent == NULL)
        {
          ROSE_ASSERT(target->get_file_info() != NULL);
          target->get_file_info()->display("problem IR node: debug");

          if (target != NULL)
             {
            // printf ("In inlining: myStatementInsert(): target->get_parent() = %p = %s \n",target->get_parent(),target->get_parent()->class_name().c_str());
               printf ("In inlining: myStatementInsert(): target->get_parent() = %p \n",target->get_parent());
             }
        }
#endif
  // cerr << "1: target is a " << target->sage_class_name() << ", target->get_parent() is a " << target->get_parent()->sage_class_name() << endl;
     if (isSgIfStmt(parent) && isSgIfStmt(parent)->get_conditional() == target)
        {
          target = parent;
          parent = isSgScopeStatement(target->get_parent());
        }

  // printf ("allowForInit = %s \n",allowForInit ? "true" : "false");
     if (isSgForInitStatement(target->get_parent()) && !allowForInit)
        {
          target = isSgScopeStatement(target->get_parent()->get_parent());
          parent = isSgScopeStatement(target->get_parent());
          assert (target);
        }

     if (isSgSwitchStatement(target->get_parent()) && target == isSgSwitchStatement(target->get_parent())->get_item_selector()) {
       target = isSgScopeStatement(target->get_parent()->get_parent());
       parent = isSgScopeStatement(target->get_parent());
       assert (target);
     }

     ROSE_ASSERT(target != NULL);
#if 0
  // DQ (8/1/2005): This fails because the parent at some point is not set and the unparseToString detects this (likely in qualifier generation)
     cerr << "2: target is a " << target->sage_class_name() << ", target->get_parent() is a " << target->get_parent()->sage_class_name() << endl;
     ROSE_ASSERT(parent != NULL);
     if (parent->get_parent() == NULL)
        {
          printf ("Found null parent of %p = %s \n",parent,parent->class_name().c_str());
        }
     ROSE_ASSERT(parent->get_parent() != NULL);
     cerr << "2: parent is a " << parent->sage_class_name() << ", parent->get_parent() is a " << parent->get_parent()->sage_class_name() << endl;
  // cerr << "2: target is " << target->unparseToString() << ", target->get_parent() is " << target->get_parent()->unparseToString() << endl;
#endif
     ROSE_ASSERT (parent);
     SgStatementPtrList* siblings_ptr;
     if (isSgForInitStatement(target->get_parent()))
        {
          siblings_ptr = &isSgForInitStatement(target->get_parent())->get_init_stmt();
        }
       else
        {
          assert (parent);
          if (isSgScopeStatement(parent))
             {
               ROSE_ASSERT(parent != NULL);
               siblings_ptr = &isSgScopeStatement(parent)->getStatementList();
               parent = isSgStatement(target->get_parent()); // getStatementList might have changed it when parent was a loop or something similar
               ROSE_ASSERT (parent);
             }
            else
             {
               assert (!"Bad parent type");
             }
        }

     ROSE_ASSERT(siblings_ptr != NULL);
     ROSE_ASSERT(target != NULL);

     SgStatementPtrList& siblings = *siblings_ptr;
     SgStatementPtrList::iterator stmt_iter = std::find(siblings.begin(), siblings.end(), target);
     ROSE_ASSERT (stmt_iter != siblings.end());

     if (!before)
          ++stmt_iter;

     newstmt->set_parent(parent);
     siblings.insert(stmt_iter, newstmt);
   }