Ejemplo n.º 1
0
Rose_STL_Container<SgInitializedName*>
buildListOfGlobalVariables ( SgSourceFile* file )
   {
  // This function builds a list of global variables (from a SgFile).
     assert(file != NULL);

     Rose_STL_Container<SgInitializedName*> globalVariableList;

     SgGlobal* globalScope = file->get_globalScope();
     assert(globalScope != NULL);
     Rose_STL_Container<SgDeclarationStatement*>::iterator i = globalScope->get_declarations().begin();
     while(i != globalScope->get_declarations().end())
        {
          SgVariableDeclaration *variableDeclaration = isSgVariableDeclaration(*i);
          if (variableDeclaration != NULL)
             {
               Rose_STL_Container<SgInitializedName*> & variableList = variableDeclaration->get_variables();
               Rose_STL_Container<SgInitializedName*>::iterator var = variableList.begin();
               while(var != variableList.end())
                  {
                    globalVariableList.push_back(*var);
                    var++;
                  }
             }
          i++;
        }

     return globalVariableList;
   }
Ejemplo n.º 2
0
string
Doxygen::getDeclStmtName(SgDeclarationStatement *st)
{
    SgFunctionDeclaration *fn = isSgFunctionDeclaration(st);
    SgVariableDeclaration *vn = isSgVariableDeclaration(st);
    SgClassDeclaration *cn = isSgClassDeclaration(st);
    if (fn)
    {
        return fn->get_name().str();
    }
    else if (vn)
    {
        /* XXX The following is a bit dodgy since single
         * SgVariableDeclaration may declare multiple
         * variables.  But doxygen doesn't handle this case
         * properly.  A useful transform may split up the
         * SgVariableDeclaration for doxygen's sake */
        return (*(vn->get_variables().begin()))->get_name().str();
    }
    else if (cn)
    {
        return cn->get_name().str();
    }
    else
    {
        fprintf(stderr, "Cannot handle this case: %s\n", st->sage_class_name());
        abort();
    }
}
Ejemplo n.º 3
0
// Are any variables in syms modified anywhere within n, or is n a declaration
// of one of them?
// FIXME: move to inliner
bool anyOfListPotentiallyModifiedIn(const vector<SgVariableSymbol*>& syms,
                                    SgNode* n) {
    bool modified = false;
    for (vector<SgVariableSymbol*>::const_iterator j = syms.begin();
            j != syms.end(); ++j) {
        SgVarRefExp* vr = new SgVarRefExp(SgNULL_FILE, *j);
        vr->set_endOfConstruct(SgNULL_FILE);
        if (isPotentiallyModified(vr, n)) {
            modified = true;
        }
        delete vr;
        if (modified) break;
        if (isSgVariableDeclaration(n)) {
            SgVariableDeclaration* decl = isSgVariableDeclaration(n);
            for (SgInitializedNamePtrList::const_iterator i =
                        decl->get_variables().begin();
                    i != decl->get_variables().end(); ++i) {
                if (*i == (*j)->get_declaration()) {
                    modified = true;
                    break;
                }
            }
        }
        if (modified) break;
    }
    return modified;
}
Ejemplo n.º 4
0
NameQuerySynthesizedAttributeType
NameQuery::queryNameUnionFieldNames (SgNode * astNode)
{

  ROSE_ASSERT (astNode != 0);

  NameQuerySynthesizedAttributeType returnNameList;

// SgNode *sageReturnNode = NULL;

  SgClassDefinition *sageClassDefinition = isSgClassDefinition (astNode);

  if (sageClassDefinition != NULL)
    {
      ROSE_ASSERT (sageClassDefinition->get_declaration () != NULL);
      if (sageClassDefinition->get_declaration ()->get_class_type () ==
          SgClassDeclaration::e_struct)
        {
          SgDeclarationStatementPtrList declarationStatementPtrList =
            sageClassDefinition->get_members ();

        typedef SgDeclarationStatementPtrList::iterator LI;

        for (LI i = declarationStatementPtrList.begin ();
             i != declarationStatementPtrList.end (); ++i)
          {
            SgNode *listElement = *i;

            SgVariableDeclaration *sageVariableDeclaration =
              isSgVariableDeclaration (listElement);

            if (sageVariableDeclaration != NULL)
              {


                typedef SgInitializedNamePtrList::iterator INITLI;

                SgInitializedNamePtrList sageInitializedNameList = sageVariableDeclaration->get_variables ();

                for (INITLI i = sageInitializedNameList.begin ();
                     i != sageInitializedNameList.end (); ++i)
                  {
                    SgInitializedName* initializedListElement = *i;
                    ROSE_ASSERT (isSgInitializedName (initializedListElement) != NULL);

                    returnNameList.push_back (initializedListElement->get_name().str());

                  }             /* End iteration over declarationStatementPtrList */

              }                 /* End iteration over declarationStatementPtrList */
          }

        }
    }

  return returnNameList;

}                               /* End function queryUnionFieldNames() */
Ejemplo n.º 5
0
    virtual void visit(SgNode* n) {
        if (isSgBasicBlock(n)) {
            SgBasicBlock* bb = isSgBasicBlock(n);
            SgStatementPtrList& stmts = bb->get_statements();
            size_t initi;
            for (size_t decli = 0; decli < stmts.size(); ++decli) {
                if (isSgVariableDeclaration(stmts[decli])) {
                    SgVariableDeclaration* decl = isSgVariableDeclaration(stmts[decli]);
                    SgInitializedNamePtrList& vars = decl->get_variables();
                    for (size_t vari = 0; vari != vars.size(); ++vari) {
                        SgInitializedName* in = vars[vari];
                        if (in->get_initializer() == 0) {
                            bool used = false;
                            for (initi = decli + 1; initi < stmts.size();
                                    used |= containsVariableReference(stmts[initi], in),
                                    ++initi) {
                                SgExprStatement* initExprStmt = isSgExprStatement(stmts[initi]);
                                if (initExprStmt) {
                                    SgExpression* top = initExprStmt->get_expression();
                                    if (isSgAssignOp(top)) {
                                        SgVarRefExp* vr = isSgVarRefExp(isSgAssignOp(top)->get_lhs_operand());
                                        ROSE_ASSERT(isSgAssignOp(top) != NULL);
                                        SgExpression* newinit = isSgAssignOp(top)->get_rhs_operand();
                                        if (!used && vr && vr->get_symbol()->get_declaration() == in) {
                                            ROSE_ASSERT(newinit != NULL);
                                            // printf ("MoveDeclarationsToFirstUseVisitor::visit(): newinit = %p = %s \n",newinit,newinit->class_name().c_str());
                                            ROSE_ASSERT(newinit->get_type() != NULL);
                                            SgAssignInitializer* i = new SgAssignInitializer(SgNULL_FILE,newinit,newinit->get_type());
                                            i->set_endOfConstruct(SgNULL_FILE);
                                            // printf ("Built a SgAssignInitializer #1 \n");
                                            vars[vari]->set_initializer(i);
                                            stmts[initi] = decl;
                                            newinit->set_parent(i);

                                            // DQ (6/23/2006): Set the parent and file_info pointers
                                            // printf ("Setting parent of i = %p = %s to parent = %p = %s \n",i,i->class_name().c_str(),in,in->class_name().c_str());
                                            i->set_parent(in);
                                            ROSE_ASSERT(i->get_parent() != NULL);

                                            i->set_file_info(new Sg_File_Info(*(newinit->get_file_info())));
                                            ROSE_ASSERT(i->get_file_info() != NULL);

                                            // Assumes only one var per declaration FIXME
                                            ROSE_ASSERT (vars.size() == 1);
                                            stmts.erase(stmts.begin() + decli);
                                            --decli; // To counteract ++decli in loop header
                                            break; // To get out of initi loop
                                        }
                                    }
                                }
                            }
                        }
                    }
                }
            }
        }
    }
void
Unparse_Jovial::unparseVarDeclStmt(SgStatement* stmt, SgUnparse_Info& info)
   {
     SgVariableDeclaration* vardecl = isSgVariableDeclaration(stmt);
     ROSE_ASSERT(vardecl != NULL);
  
     SgInitializedNamePtrList::iterator p = vardecl->get_variables().begin();

  // Jovial has only one variable per declaration
     unparseVarDecl(vardecl, *p, info);
   }
int main(int argc, char** argv) {
	SgProject* proj = frontend(argc,argv);
	SgFunctionDeclaration* mainDecl = SageInterface::findMain(proj);
	SgFunctionDefinition* mainDef = mainDecl->get_definition();
	std::vector<SgNode*> ifExps;
	ifExps = NodeQuery::querySubTree(mainDef, V_SgIfStmt);
	for (int i = 0; i < ifExps.size(); i++) {
		getIfConds(isSgIfStmt(ifExps[i]), isSgScopeStatement(mainDef));
	}
	
	std::vector<SgNode*> assignNodes = NodeQuery::querySubTree(mainDef, V_SgVariableDeclaration);
	std::cout << assignNodes.size() << " nodes found" << std::endl;
	std::vector<SgBinaryOp*> bin_ops;
	std::vector<SgUnaryOp*> un_ops;
	std::vector<SgNode*> other;
	std::vector<SgExpression*> results;
	for (std::vector<SgNode*>::iterator i = assignNodes.begin(); i != assignNodes.end(); i++) {
	
		SgVariableDeclaration* vdecl = isSgVariableDeclaration(*i);
		SgInitializedNamePtrList vlst = vdecl->get_variables();
		SgInitializedName* initName = isSgInitializedName((*(vlst.begin())));
		SgExpression* exp = isSgAssignInitializer(initName->get_initializer())->get_operand();
		std::cout << exp->class_name() << std::endl;
		if (!isSgFunctionCallExp(exp)) {
			getExps(exp, isSgInitializedName(*i), results, 0);
		
	
	std::cout << "prefixes" << std::endl;
	for (int j = 0; j < prefixes.size(); j++) {
	        SgExprStatement* expSt = SageBuilder::buildExprStatement_nfi(prefixes[j]);
		SageInterface::insertStatement(isSgVariableDeclaration(*i),expSt,true);
		
		std::cout << prefixes[j]->class_name() << std::endl;
	}
	std::cout << "results" << std::endl;
	for (int j = 0; j < results.size(); j++) {
		std::cout << results[j]->class_name() << std::endl;
	}
	std::cout << "postfixes" << std::endl;
	for (int j = 0; j < postfixes.size(); j++) {
		SgExprStatement* expSt = SageBuilder::buildExprStatement_nfi(postfixes[j]);
                SageInterface::insertStatement(isSgVariableDeclaration(*i),expSt,false);
		std::cout << postfixes[j]->class_name() << std::endl;
	}
	
	replaceExps(exp,vdecl);
	simplifyExps(exp);
	}
		
	}
			
	backend(proj);
	return 0;
}
int main (int argc, char *argv[])
{
  // grab the scope in which AST will be added
  SgProject *project = frontend (argc, argv);
  SgGlobal *globalScope = getFirstGlobalScope (project);

  ROSE_ASSERT(globalScope != NULL);

// DQ (9/28/2009): Tracking down GNU 4.0.x compiler problem!
// SageBuilder::clearScopeStack();
// SageBuilder::pushScopeStack (globalScope);

  // bottom up for volatile int j; no previous knowledge of target scope
  SgVariableDeclaration *varDecl0 = buildVariableDeclaration("j", 
    buildVolatileType(buildIntType()));

  //const int jc = 0;
  SgVariableDeclaration *varDecl0c = buildVariableDeclaration("jc", 
    buildConstType(buildIntType()), buildAssignInitializer(buildIntVal(0)));

  // int * restrict p;
  SgVariableDeclaration *varDecl0p = buildVariableDeclaration("jp", 
//    buildRestrictType(buildIntType())); 
    buildRestrictType(buildPointerType(buildIntType()))); 

  // top down for others; set implicit target scope info. in scope stack.
  pushScopeStack (isSgScopeStatement (globalScope));

  // extern int i;
  SgVariableDeclaration *varDecl = buildVariableDeclaration
    (SgName ("i"), buildIntType());
  ((varDecl->get_declarationModifier()).get_storageModifier()).setExtern();
  appendStatement (varDecl);
// two ways to build a same declaration
  // int i;
#if 1
  SgVariableDeclaration *varDecl2 = buildVariableDeclaration
    (SgName ("i"), buildIntType());
#else
 // this one does not yet working,maybe related to copy mechanism
  SgVariableDeclaration *varDecl2 = isSgVariableDeclaration(deepCopy(varDecl));
  ((varDecl->get_declarationModifier()).get_storageModifier()).setDefault();
#endif 

  appendStatement (varDecl2);
  insertStatementAfter(varDecl2,varDecl0);
  prependStatement(varDecl0c);
  prependStatement(varDecl0p);

  popScopeStack ();

  AstTests::runAllTests(project);
  return backend (project);
}
Ejemplo n.º 9
0
static
bool hasPrivateDataMembers(SgClassDeclaration* cd_copy)
{
   const SgNodePtrList&          variables = NodeQuery::querySubTree(cd_copy, V_SgVariableDeclaration);
   SgNodePtrList::const_iterator varIt = variables.begin();
   for (; varIt != variables.end(); ++varIt) {
      SgVariableDeclaration* node = isSgVariableDeclaration(*varIt);
      SgAccessModifier am =  node->get_declarationModifier().get_accessModifier();
      if (am.isPrivate())
         return true;
   }
   return false;
}
Ejemplo n.º 10
0
void
CompassAnalyses::StaticConstructorInitialization::Traversal::
visit(SgNode* node)
   { 
  // Test for static initialization of variables of type class, such initializations where they are 
  // static or appear in global scope can be called in an order dependent upon the compiler and this 
  // can lead to subtle bugs in large scale applications.

     SgVariableDeclaration* variableDeclaration = isSgVariableDeclaration(node);

     if (variableDeclaration != NULL)
        {
          SgInitializedNamePtrList::iterator i = variableDeclaration->get_variables().begin();
          while (i != variableDeclaration->get_variables().end())
             {
               SgInitializedName* initializedName = *i;

            // Check the type and see if it is a class (check for typedefs too)
               SgType* variableType = initializedName->get_type();

               SgClassType *classType = isSgClassType(variableType);
               if (classType != NULL)
                  {
                 // Now check if this is a global or namespace variable or an static class member
                 // This might also have to be a test for other scopes as well.
                    SgScopeStatement* scope = variableDeclaration->get_scope();
                    if (isSgGlobal(scope) != NULL || isSgNamespaceDefinitionStatement(scope) != NULL)
                       {
                      // printf ("Found a global variable defining a class = %p \n",initializedName);
                      // variableDeclaration->get_file_info()->display("global variable defining a class");
                         output->addOutput(new CheckerOutput(initializedName));
                       }

                    if (isSgClassDefinition(scope) != NULL)
                       {
                      // Now check if it is a static data member
                         if (variableDeclaration->get_declarationModifier().get_storageModifier().isStatic() == true)
                            {
                           // printf ("Found a static data member defining a class = %p \n",initializedName);
                           // variableDeclaration->get_file_info()->display("static data member defining a class");
                              output->addOutput(new CheckerOutput(initializedName));
                            }
                       }
                  }

            // increment though the variables in the declaration (typically just one)
               i++;
             }
        }

   } //End of the visit function.
Ejemplo n.º 11
0
// ******************************************
//              MAIN PROGRAM
// ******************************************
int
main( int argc, char * argv[] )
   {
  // Initialize and check compatibility. See rose::initialize
     ROSE_INITIALIZE;

  // Build the AST used by ROSE
     SgProject* project = frontend(argc,argv);
     assert(project != NULL);

     vector<SgType*> memberTypes;
     vector<string>  memberNames;

     string name = "a";
     for (int i = 0; i < 10; i++)
        {
          memberTypes.push_back(SgTypeInt::createType());
          name = "_" + name;
          memberNames.push_back(name);
        }

  // Build the initializer
     SgExprListExp* initializerList = new SgExprListExp(SOURCE_POSITION);
     initializerList->set_endOfConstruct(SOURCE_POSITION);
     SgAggregateInitializer* structureInitializer = new SgAggregateInitializer(SOURCE_POSITION,initializerList);
     structureInitializer->set_endOfConstruct(SOURCE_POSITION);

  // Build the data member initializers for the structure (one SgAssignInitializer for each data member)
     for (unsigned int i = 0; i < memberNames.size(); i++)
        {
       // Set initial value to "i"
          SgIntVal* value = new SgIntVal(SOURCE_POSITION,i);
          value->set_endOfConstruct(SOURCE_POSITION);
          SgAssignInitializer* memberInitializer = new SgAssignInitializer(SOURCE_POSITION,value);
          memberInitializer->set_endOfConstruct(SOURCE_POSITION);
          structureInitializer->append_initializer(memberInitializer);
          memberInitializer->set_parent(structureInitializer);
        }

  // Access the first file and add a struct with data members specified
     SgSourceFile* file = isSgSourceFile((*project)[0]);
     ROSE_ASSERT(file != NULL);
     SgVariableDeclaration* variableDeclaration = buildStructVariable(file->get_globalScope(),memberTypes,memberNames,"X","x",structureInitializer);
     file->get_globalScope()->prepend_declaration(variableDeclaration);
     variableDeclaration->set_parent(file->get_globalScope());

    AstTests::runAllTests(project);
  // Code generation phase (write out new application "rose_<input file name>")
     return backend(project);
   }
SgVariableDeclaration *
RoseStatementsAndExpressionsBuilder::appendVariableDeclarationAsFormalParameter (
    std::string const & variableName, SgType * type, SgScopeStatement * scope,
    SgFunctionParameterList * formalParameters)
{
  using namespace SageBuilder;
  using namespace SageInterface;

  SgVariableDeclaration * variableDeclaration = buildVariableDeclaration (
      variableName, type, NULL, scope);

  formalParameters->append_arg (
      *(variableDeclaration->get_variables ().begin ()));

  return variableDeclaration;
}
Ejemplo n.º 13
0
void
Traversal::visit(SgNode* node)
   {
     SgVariableDeclaration* variableDeclaration = isSgVariableDeclaration(node);

  // Look for variable declarations appearing in global scope!
  // if (variableDeclaration != NULL && isSgGlobal(variableDeclaration->get_parent()) != NULL)
     if (variableDeclaration != NULL)
        {
          SgInitializedNamePtrList::iterator i = variableDeclaration->get_variables().begin();
          while (i != variableDeclaration->get_variables().end())
             {
               SgInitializedName* initializedName = *i;

            // Check the type and see if it is a class (check for typedefs too)
               SgType* variableType = initializedName->get_type();

               SgClassType *classType = isSgClassType(variableType);
               if (classType != NULL)
                  {
                 // Now check if this is a global variable or an static class member
                    SgScopeStatement* scope = variableDeclaration->get_scope();
                    if (isSgGlobal(scope) != NULL)
                       {
                         printf ("Found a global variable defining a class \n");
                      // variableDeclaration->get_file_info()->display("global variable defining a class");
                         outputPositionInformation(variableDeclaration);
                       }

                    if (isSgClassDefinition(scope) != NULL)
                       {
                      // Now check if it is a static data member
                         if (variableDeclaration->get_declarationModifier().get_storageModifier().isStatic() == true)
                            {
                              printf ("Found a static data member defining a class \n");
                           // variableDeclaration->get_file_info()->display("static data member defining a class");
                              outputPositionInformation(variableDeclaration);
                            }
                       }
                  }

            // increment though the variables in the declaration (typically just one)
               i++;
             }
        }
   }
void BasicProgmemTransform::transformCharArrayInitialization(SgFunctionDeclaration *func) {
	/* *
	 * Translates statements of the form:
	 * char arr[n] = "some string"; to:
	 * char arr[n];
	 * strcpy_P(arr, <progmem placeholder>);
	 * */
	Rose_STL_Container<SgNode *> initNames = NodeQuery::querySubTree(func, V_SgInitializedName);
	for(auto &item: initNames) {
		SgInitializedName *initName = isSgInitializedName(item);
		if(initName->get_initializer() == NULL) {
			continue;
		}
		SgVariableDeclaration * varDecl = isSgVariableDeclaration(initName->get_declaration());
		if(varDecl == NULL) {
			continue;
		}
		SgAssignInitializer *assignInit = isSgAssignInitializer(initName->get_initializer());
		if(assignInit == NULL) {
			continue;
		}
		SgType *type = initName->get_type();
		SgType *eleType = SageInterface::getElementType(type);
		if(isSgArrayType(type) && eleType != NULL && isSgTypeChar(eleType)) {
			SgStringVal* strVal = isSgStringVal(assignInit->get_operand());
			std::string str = strVal->get_value();
			int arrSize = getDeclaredArraySize(isSgArrayType(type));
			if(arrSize == 0) {
				//char arr[] = "something";
				int size = str.length() + 1;
				SgArrayType *type = SageBuilder::buildArrayType(SageBuilder::buildCharType(), SageBuilder::buildIntVal(size));
				initName->set_type(type);
			}
			varDecl->reset_initializer(NULL);
			SgVariableDeclaration *placeholder = getVariableDeclPlaceholderForString(str);
			SgVarRefExp *ref = SageBuilder::buildVarRefExp(placeholder);
			std::stringstream instr;
			instr << "\n strcpy_P(" << initName->get_name().getString();
			instr <<  ", " << ref->get_symbol()->get_name().getString() << ");\n";
			SageInterface::attachComment(varDecl, instr.str(), PreprocessingInfo::after);
			printf("transformed %s\n", initName->unparseToString().c_str());
		}

	}
}
Ejemplo n.º 15
0
bool
TaintAnalysis::magic_tainted(SgNode *node, FiniteVarsExprsProductLattice *prodLat) {
    if (isSgInitializedName(node)) {
        SgInitializedName *iname = isSgInitializedName(node);
        std::string vname = iname->get_name().getString();
        TaintLattice *tlat = dynamic_cast<TaintLattice*>(prodLat->getVarLattice(varID(iname)));
        if (tlat && 0==vname.compare(0, 7, "TAINTED")) {
            bool modified = tlat->set_vertex(TaintLattice::VERTEX_TAINTED);
            if (debug) {
                *debug <<"TaintAnalysis::magic_tainted: lattice is magically " <<tlat->to_string()
                       <<(modified?" (modified)":" (not modified)") <<"\n";
            }
            return modified;
        }
    } else if (isSgVarRefExp(node)) {
        SgVarRefExp *vref = isSgVarRefExp(node);
        std::string vname = vref->get_symbol()->get_name().getString();
        TaintLattice *tlat = dynamic_cast<TaintLattice*>(prodLat->getVarLattice(varID(vref)));
        if (tlat && 0==vname.compare(0, 7, "TAINTED")) {
            bool modified = tlat->set_vertex(TaintLattice::VERTEX_TAINTED);
            if (debug) {
                *debug <<"TaintAnalysis::magic_tainted: lattice is magically " <<tlat->to_string()
                       <<(modified?" (modified)":" (not modified)") <<"\n";
            }
            return modified;
        }
    } else if (isSgVariableDeclaration(node)) {
        SgVariableDeclaration *vdecl = isSgVariableDeclaration(node);
        const SgInitializedNamePtrList &inames = vdecl->get_variables();
        for (size_t i=0; i<inames.size(); ++i) {
            std::string vname = inames[i]->get_name().getString();
            TaintLattice *tlat = dynamic_cast<TaintLattice*>(prodLat->getVarLattice(varID(inames[i])));
            if (tlat && 0==vname.compare(0, 7, "TAINTED")) {
                bool modified = tlat->set_vertex(TaintLattice::VERTEX_TAINTED);
                if (debug) {
                    *debug <<"TaintAnalysis::magic_tainted: lattice is magically " <<tlat->to_string()
                           <<(modified?" (modified)":" (not modified)") <<"\n";
                }
                return modified;
            }
        }
    }

    return false;
}
void
FindVariableDeclarations::visit ( SgNode* astNode )
   {
     SgBasicBlock* block = isSgBasicBlock(astNode);
     if (block != NULL)
        {
          SgStatementPtrList & listOfStatements = block->get_statements();
          for (size_t i = 0; i < listOfStatements.size(); i++)
             {
               SgVariableDeclaration* variableDeclaration = isSgVariableDeclaration(listOfStatements[i]);
               if (variableDeclaration != NULL)
                  {
                    printf ("Found a variable decaration in a SgBasicBlock at: \n");
                    variableDeclaration->get_file_info()->display("Found a variable decaration in a SgBasicBlock");
                  }
             }
        }
   }
Ejemplo n.º 17
0
    bool findPublicVarMembers (SgNode *node, string &str) {
	SgVariableDeclaration *decl;
	if (decl = isSgVariableDeclaration(node)) {
	    SgDeclarationModifier &dfm = decl->get_declarationModifier();
	    if (dfm.get_accessModifier().isPublic()) {
		// check if it belongs to a class
		SgStatement *block = ((SgVariableDeclaration *) node)->get_scope();
		SgClassDefinition *classDef;
		if (classDef = isSgClassDefinition(block)) {
		    if (classDef->get_declaration()->get_class_type() == SgClassDeclaration::e_class) {
                        str = classDef->get_qualified_name().getString();		   
                        return true;
                    }
		}
	    } 
	}
	return false;
    }    
Ejemplo n.º 18
0
void
Unparse_Jovial::unparseVarDecl(SgStatement* stmt, SgInitializedName* initializedName, SgUnparse_Info& info)
   {
     SgName name         = initializedName->get_name();
     SgType* type        = initializedName->get_type();
     SgInitializer* init = initializedName->get_initializer();
     ROSE_ASSERT(type);

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

#if 0
     if (variableDeclaration->get_declarationModifier().get_typeModifier().isStatic() == true)
        {
           curprint("STATIC ");
        }
#endif

     switch (type->variantT())
        {
          case V_SgArrayType:
             curprint("TABLE ");
             curprint(name.str());
             break;
          default:
             curprint("ITEM ");
             curprint(name.str());
             curprint(" ");
        }

     unparseType(type, info);

     if (init != NULL)
        {
           curprint(" = ");
           SgInitializer* initializer = isSgInitializer(init);
           ROSE_ASSERT(initializer != NULL);
           // TODO
           // unparseExpression(initializer, info);
        }

     curprint(" ;\n");
   }
Ejemplo n.º 19
0
// Remove the declaration of a given variable.
void removeVariableDeclaration(SgInitializedName* initname) {
    SgVariableDeclaration* parent =
        isSgVariableDeclaration(initname->get_parent());
    assert (parent);
    SgInitializedNamePtrList& vars = parent->get_variables();
    SgInitializedNamePtrList::iterator i = vars.begin();
    for (; i != vars.end(); ++i)
        if (*i == initname)
            break;
    assert (i != vars.end());
#if 0
    vars.erase(i);
    if (vars.empty()) {
        myRemoveStatement(parent);
    }
#endif
    ROSE_ASSERT (vars.size() == 1);
    SageInterface::myRemoveStatement(parent);
}
Ejemplo n.º 20
0
    virtual void visit(SgNode* n)
    {
        if (isSgFunctionDefinition(n)) {
            renameLabels(isSgFunctionDefinition(n), isSgFunctionDefinition(n));
        } else if (isSgInitializedName(n))
        {
            SgInitializedName* n2 = isSgInitializedName(n);

            ROSE_ASSERT(n2->get_file_info() != NULL);

            if (isMemberVariable(*n2)) return;

            // JW (7/16/2004): Added patch
            if (isSgVariableDeclaration(n2->get_parent()))
            {
                SgVariableDeclaration* decl = isSgVariableDeclaration(n2->get_parent());
                if (isSgGlobal(decl->get_parent())) return;
                if (isSgNamespaceDefinitionStatement(decl->get_parent())) return;
            }

            if (isSgCtorInitializerList(n2->get_parent())) return;
            if (n2->get_name().getString() == "") return;
            SgName name(n2->get_name());
            SgSymbolTable* symtab = n2->get_scope()->get_symbol_table();
            SgSymbol* sym = symtab->find(n2);
            if (sym) {
                symtab->remove(sym);
            }
            name << "__" << counter++;

            n2->set_name(name);
            SgVariableSymbol* n2symbol = new SgVariableSymbol(n2);
            n2symbol->set_parent(symtab);
            symtab->insert(name, n2symbol);

            // printf ("RenameVariablesVisitor(): name = %s scope = %p = %s \n",name.str(),savedScope,savedScope->class_name().c_str());
            ROSE_ASSERT(n2->get_parent() != NULL);
            ROSE_ASSERT(n2->get_file_info() != NULL);
        }
    }
Ejemplo n.º 21
0
Rose_STL_Container<SgNode*> NodeQuery::queryNodeVariableDeclarationFromName(SgNode* astNode, SgNode* nameNode){
  ROSE_ASSERT( nameNode != NULL );
  ROSE_ASSERT( astNode  != NULL );


  Rose_STL_Container<SgNode*> returnList;

  if(astNode->variantT() == V_SgVariableDeclaration){

    SgName* sageName = isSgName(nameNode);
    ROSE_ASSERT( sageName != NULL );
    std::string nameToMatch = sageName->str();
    ROSE_ASSERT( nameToMatch.length() > 0 );

    SgVariableDeclaration* sageVariableDeclaration = isSgVariableDeclaration(astNode);
    ROSE_ASSERT(sageVariableDeclaration != NULL);
    ROSE_ASSERT( sageVariableDeclaration->get_definition() != NULL );

    SgInitializedNamePtrList sageInitializedNameList = sageVariableDeclaration->get_variables ();

    //see if this variable declaration fits the criteria
    typedef SgInitializedNamePtrList::iterator variableIterator;

    for (variableIterator k = sageInitializedNameList.begin ();
        k != sageInitializedNameList.end(); ++k)
    {
      SgInitializedName* elmVar = *k;
      std::string name = elmVar->get_name().str();
      if(name == nameToMatch)
        returnList.push_back(astNode);

    }

  }

  return returnList;

}; /* End function: queryNodeVariableDeclarationFromName */
Ejemplo n.º 22
0
Archivo: mlm.cpp Proyecto: 8l/rose
void mlmFrontend::attachAttribute(SgPragmaDeclaration* pragma, AstAttribute* attr)
{
// attribute to specify memory level
  if(isSgVariableDeclaration(getNextStatement(pragma)))
  {
    SgVariableDeclaration* decl = isSgVariableDeclaration(getNextStatement(pragma));  
    ROSE_ASSERT(decl);
    SgInitializedNamePtrList nameList = decl->get_variables();
    if(nameList.size() == 1)
    {
      SgInitializedName* initName = nameList[0];
      SgSymbol* symbol = initName->get_symbol_from_symbol_table();
      symbol->setAttribute("mlmAttribute", attr);
    } 
  }
// attribute to specify tiling level
  else if(isSgForStatement(getNextStatement(pragma)))
  {
    SgForStatement* forStmt = isSgForStatement(getNextStatement(pragma));
    ROSE_ASSERT(forStmt);
    forStmt->setAttribute("mlmAttribute", attr);
  }
}
Ejemplo n.º 23
0
void
SimpleInstrumentation::visit ( SgNode* astNode )
   {
     SgBasicBlock* block = isSgBasicBlock(astNode);
     if (block != NULL)
        {
       // Mark this as a transformation (required)
          Sg_File_Info* sourceLocation = Sg_File_Info::generateDefaultFileInfoForTransformationNode();
          ROSE_ASSERT(sourceLocation != NULL);

          SgType* type = new SgTypeInt();
          ROSE_ASSERT(type != NULL);

          SgName name = "newVariable";

          SgVariableDeclaration* variableDeclaration = new SgVariableDeclaration(sourceLocation,name,type);
          ROSE_ASSERT(variableDeclaration != NULL);

          SgInitializedName* initializedName = *(variableDeclaration->get_variables().begin());
          initializedName->set_file_info(Sg_File_Info::generateDefaultFileInfoForTransformationNode());

       // DQ (6/18/2007): The unparser requires that the scope be set (for name qualification to work).
          initializedName->set_scope(block);

       // Liao (2/13/2008): AstTests requires this to be set
          variableDeclaration->set_firstNondefiningDeclaration(variableDeclaration);

          ROSE_ASSERT(block->get_statements().size() > 0);

          block->get_statements().insert(block->get_statements().begin(),variableDeclaration);
          variableDeclaration->set_parent(block);

       // Add a symbol to the sybol table for the new variable
          SgVariableSymbol* variableSymbol = new SgVariableSymbol(initializedName);
          block->insert_symbol(name,variableSymbol);
        }
   }
Ejemplo n.º 24
0
DeterminismState getExpectation(SgNode *ast, const char *varName)
{
  SgName name(varName);

  Rose_STL_Container<SgNode*> sdNodes = NodeQuery::querySubTree(ast, &name, NodeQuery::VariableDeclarationFromName);
  if (sdNodes.size() != 1) {
    cerr << "Didn't find target variable " << varName << " in list of size " << sdNodes.size() << endl;

    for (Rose_STL_Container<SgNode*>::iterator i = sdNodes.begin(); i != sdNodes.end(); ++i)
      cerr << "\t" << (*(isSgVariableDeclaration(*i)->get_variables().begin()))->get_name().str() << endl;

    return QUESTIONABLE;
  }

  SgNode *nSd = *(sdNodes.begin());
  SgVariableDeclaration *vdSd = dynamic_cast<SgVariableDeclaration *>(nSd);
  if (!vdSd) {
    cerr << "Node wasn't a variable declaration" << endl;
    return QUESTIONABLE;
  }

  SgInitializedName *inSd = vdSd->get_decl_item(name);
  SgAssignInitializer *aiSd = dynamic_cast<SgAssignInitializer*>(inSd->get_initializer());
  if (!aiSd) {
    cerr << "Couldn't pull an assignment initializer out" << endl;
    return QUESTIONABLE;
  }

  SgIntVal *ivSd = dynamic_cast<SgIntVal*>(aiSd->get_operand());
  if (!ivSd) {
    cerr << "Assignment wasn't an intval" << endl;
    return QUESTIONABLE;
  }

  int value = ivSd->get_value();
  return value ? DETERMINISTIC : NONDETERMINISTIC;
}
void
FortranOpenMPModuleDeclarationsIndirectLoop::createFirstTimeExecutionDeclaration ()
{
  using namespace SageBuilder;
  using namespace SageInterface;
  using namespace BooleanVariableNames;

  Debug::getInstance ()->debugMessage (
      "Creating first time execution boolean at module scope",
      Debug::FUNCTION_LEVEL, __FILE__, __LINE__);

  SgVariableDeclaration * variableDeclaration =
      buildVariableDeclaration (getFirstTimeExecutionVariableName (
          parallelLoop->getUserSubroutineName ()), buildBoolType (),
          buildAssignInitializer (buildBoolValExp (true), buildBoolType ()),
          moduleScope);

  variableDeclaration->get_declarationModifier ().get_accessModifier ().setUndefined ();

  variableDeclarations->add (getFirstTimeExecutionVariableName (
      parallelLoop->getUserSubroutineName ()), variableDeclaration);

  appendStatement (variableDeclaration, moduleScope);
}
Ejemplo n.º 26
0
DoxygenFile::DoxygenFile(SgProject *prj, string filename)
{
    Sg_File_Info *info = new Sg_File_Info(filename, 0, 0);

    SgInitializedName *iname = new SgInitializedName;
    stringstream sname;
    sname << "SAGE_Doxygen_Dummy_" << rand();
    iname->set_name(sname.str());
    iname->set_type(new SgTypeInt);
    iname->set_file_info(info);
    iname->get_storageModifier().setExtern();

    SgVariableDeclaration *decl = new SgVariableDeclaration;
    decl->get_variables().push_back(iname);
    decl->set_startOfConstruct(info);
    decl->set_endOfConstruct(info);
    decl->get_declarationModifier().get_storageModifier().setExtern();
    iname->set_parent(decl);
    iname->set_prev_decl_item(iname);

    // SgGlobal *glob = prj->get_file(0).get_globalScope();
    SgSourceFile* sourceFile = isSgSourceFile(prj->get_fileList()[0]);
    ROSE_ASSERT(sourceFile != NULL);
    SgGlobal *glob = sourceFile->get_globalScope();

    // glob->insertStatementInScope(decl, true);
    glob->get_declarations().insert(glob->get_declarations().begin(),decl);
    decl->set_parent(glob);
    SgVariableSymbol* variableSymbol = new SgVariableSymbol(iname);
    glob->insert_symbol(sname.str(),variableSymbol);


    decl->set_parent(glob);
    std::cout << "Before complete string." << std::endl;
    //glob->append_declaration(decl);
    iname->set_scope(glob);

    decl->unparseToCompleteString();

    std::cout << "After complete string." << std::endl;

    commentParent = decl;
    printf("commentParent = %p\n", commentParent);
}
Ejemplo n.º 27
0
SgClassDeclaration* RtedTransformation::instrumentClassDeclarationIntoTopOfAllSourceFiles(
      SgProject* project, SgClassDeclaration* classDecl) {
   // **********************
   if (RTEDDEBUG) cerr <<"@@@ instrumenting into top "<< endl;
   // deep copy the classdecl and make it unparseable
   SgClassDeclaration* cd_copy = SageInterface::deepCopy(classDecl);
   // cout << ">>>>>> Original ClassType :::: " << classDecl->get_type() << endl;
   // cout << ">>>>>> Copied ClassType :::: " << cd_copy->get_type() << endl;
   // SgClassType* type_copy = new SgClassType(cd_copy);
   //cd_copy->set_type(type_copy);
   ROSE_ASSERT(cd_copy);
   const SgNodePtrList&          nodes2 = NodeQuery::querySubTree(cd_copy, V_SgLocatedNode);
   SgNodePtrList::const_iterator nodesIT2 = nodes2.begin();
   for (; nodesIT2 != nodes2.end(); ++nodesIT2) {
      SgLocatedNode* node = isSgLocatedNode(*nodesIT2);
      ROSE_ASSERT(node);
      Sg_File_Info* file_info = node->get_file_info();
      file_info->setOutputInCodeGeneration();
      //cerr << "copying node : " << node->class_name() << endl;
   }
   if (RTEDDEBUG) cerr << "deep copy of firstnondefining" << endl;

   SgClassDeclaration* nondefDecl = isSgClassDeclaration(classDecl->get_firstNondefiningDeclaration());
   SgClassDeclaration* cdn_copy = SageInterface::deepCopy(nondefDecl);
   ROSE_ASSERT(cdn_copy);

   const SgNodePtrList&          nodes = NodeQuery::querySubTree(cdn_copy, V_SgLocatedNode);
   SgNodePtrList::const_iterator nodesIT = nodes.begin();
   for (; nodesIT != nodes.end(); ++nodesIT) {
      SgLocatedNode* node = isSgLocatedNode(*nodesIT);
      ROSE_ASSERT(node);
      Sg_File_Info* file_info = node->get_file_info();
      file_info->setOutputInCodeGeneration();
   }
   cd_copy->set_firstNondefiningDeclaration(cdn_copy);
   SgClassType* cls_type = SgClassType::createType(cdn_copy);
   cls_type->set_declaration(cdn_copy);
   ROSE_ASSERT(cls_type != NULL);
   ROSE_ASSERT (cls_type->get_declaration() == cdn_copy);
   cdn_copy->set_type(cls_type);
   cdn_copy->set_definingDeclaration(cd_copy);
   cd_copy->set_type(cdn_copy->get_type());

   if (RTEDDEBUG) {
      cerr << "@@@@@@@@@@@@@@ Original Class classDecl : " << classDecl << " :: " << cd_copy << endl;
      cerr << "@@@@@@@@@@@@@@ Original Class nondefining : " << classDecl->get_firstNondefiningDeclaration()<< " :: " << cdn_copy << endl;
      cerr << "@@@@@@@@@@@@@@@@@@ TYPE OF cd_copy->get_type() : " << cd_copy->get_type() << endl;
      cerr << "@@@@@@@@@@@@@@@@@@ TYPE OF cdn_copy->get_type() : " <<  cdn_copy->get_type() << endl;

      cerr << "@@@@@@@@@@@@@@@@@@ TYPE OF cd_copy->get_type()->declaration : " <<cd_copy->get_type()->get_declaration() << endl;
      cerr << "@@@@@@@@@@@@@@@@@@ TYPE OF cd_copy->definingDeclaration : " <<   cd_copy->get_definingDeclaration() << endl;
      cerr << "@@@@@@@@@@@@@@@@@@ TYPE OF cd_copy->set_firstNondefiningDeclaration : " <<   cd_copy->get_firstNondefiningDeclaration() << endl;
   }
   // **********************
   // add to top of each source file

   // insert at top of all source files in reverse order
   // only if the class has private members and if it is declared in a header file
   std::vector<SgSourceFile*>::const_iterator aa = srcfiles.begin();
   std::vector<SgSourceFile*>::const_iterator zz = srcfiles.end();
   for (; aa != zz; ++aa)
   {
      SgSourceFile* sf = *aa;
      assert( isInInstrumentedFile(sf) );

      if (RTEDDEBUG) cerr << "Looking through sourcefile: " << sf -> get_file_info() -> get_filename() << endl;
      // once we have the new class_decl inserted, we remove all functions and the constructor and destructor
      const SgNodePtrList&          remNodes = NodeQuery::querySubTree(cd_copy, V_SgFunctionDeclaration);
      SgNodePtrList::const_iterator remNodesIt = remNodes.begin();
      for (; remNodesIt != remNodes.end(); ++remNodesIt) {
        SgFunctionDeclaration* node = isSgFunctionDeclaration(*remNodesIt);
        ROSE_ASSERT(node);
        SageInterface::removeStatement(node);
      }

      if (RTEDDEBUG) cerr << "  changing privates to public" << endl;
      // change each private: to public:
      SgClassDefinition* cd_def = cd_copy->get_definition();
      ROSE_ASSERT(cd_def);
      SgDeclarationStatementPtrList decls = cd_def->get_members();
      SgDeclarationStatementPtrList::const_iterator itDecls = decls.begin();
      for (;itDecls!=decls.end();++itDecls) {
        SgVariableDeclaration* node = isSgVariableDeclaration(*itDecls);
        if (node) {
           SgDeclarationModifier& mod = node->get_declarationModifier();
           SgAccessModifier& am = mod.get_accessModifier();
           if (am.isPrivate() || am.isProtected())
              am.setPublic();
        }
      }

      // get the namespace RTED to put new class into
      if (RTEDDEBUG) cerr << "Finding Namespace RTED  "  <<  endl;

      SourceFileRoseNMType::const_iterator pit = sourceFileRoseNamespaceMap.find(sf);
      ROSE_ASSERT(pit!=sourceFileRoseNamespaceMap.end());

      SgNamespaceDeclarationStatement* firstNamespace = pit->second;

      // insert at top of file - after includes
      if (RTEDDEBUG)
      {
         cerr << " Prepending to source file: " << sf -> get_file_info() -> get_filename()
              << "   class : " << cd_copy->get_name().str()
              << endl;
      }

      // we prepend it to the top of the file and later move the include back up
      SageInterface::prependStatement(cdn_copy,firstNamespace->get_definition());
      SageInterface::appendStatement(cd_copy, firstNamespace->get_definition() );

      ROSE_ASSERT(cdn_copy->get_symbol_from_symbol_table() != NULL);
      classesInRTEDNamespace[classDecl->get_definition()] = cd_def;
   }

   return cd_copy;
}
void
FortranCUDAUserSubroutine::createStatements ()
{
  using namespace SageInterface;
  using boost::iequals;
  using std::string;
  using std::vector;
  
  class TreeVisitor: public AstSimpleProcessing
  {
    private:
    /*
     * ======================================================
     * The recursive visit of a user subroutine populates
     * this vector with successive function calls which are
     * then appended after the visit
     * ======================================================
     */            
    vector < SgProcedureHeaderStatement * > calledRoutines;

    public:

      vector < SgProcedureHeaderStatement * > getCalledRoutinesInStatement()
      {
        return calledRoutines;
      }
      
      TreeVisitor ()
      {
      }

      virtual void
      visit (SgNode * node)
      {
        SgExprStatement * isExprStatement = isSgExprStatement ( node );
        if ( isExprStatement != NULL )
        {      
          SgFunctionCallExp * functionCallExp = isSgFunctionCallExp ( isExprStatement->get_expression() );
        
          if ( functionCallExp != NULL )
          {
            string const
                calleeName =
                    functionCallExp->getAssociatedFunctionSymbol ()->get_name ().getString ();

            Debug::getInstance ()->debugMessage ("Found function call in user subroutine "
                + calleeName + "'", Debug::OUTER_LOOP_LEVEL, __FILE__, __LINE__);

            /*
             * ======================================================
             * As we are in fortran, all user subroutines must be
             * SgProcedureHeaderStatements = subroutines and not
             * functions. This might be extended to cover also 
             * functions in the future (?). Probably not in OP2
             * ======================================================
             */
            SgProcedureHeaderStatement * isProcedureHeaderStatement = isSgProcedureHeaderStatement ( 
              functionCallExp->getAssociatedFunctionDeclaration() );

            calledRoutines.push_back ( isProcedureHeaderStatement );
          }
        }
      }
  };
  
  Debug::getInstance ()->debugMessage ("User subroutine: outputting and modifying statements",
      Debug::FUNCTION_LEVEL, __FILE__, __LINE__);

  SgFunctionParameterList * originalParameters =
      originalSubroutine->get_parameterList ();

  vector <SgStatement *> originalStatements =
      originalSubroutine->get_definition ()->get_body ()->get_statements ();

  for (vector <SgStatement *>::iterator it = originalStatements.begin (); it
      != originalStatements.end (); ++it)
  {      
 
    SgExprStatement * isExprStatement = isSgExprStatement ( *it );
    if ( isExprStatement != NULL )
    {      
      SgFunctionCallExp * functionCallExp = isSgFunctionCallExp ( isExprStatement->get_expression() );
    
      if ( functionCallExp != NULL )
      {
        string const
            calleeName =
                functionCallExp->getAssociatedFunctionSymbol ()->get_name ().getString ();

        Debug::getInstance ()->debugMessage ("Found function call in user subroutine "
            + calleeName + "'", Debug::OUTER_LOOP_LEVEL, __FILE__, __LINE__);

        /*
         * ======================================================
         * As we are in fortran, all user subroutines must be
         * SgProcedureHeaderStatements = subroutines and not
         * functions. This might be extended to cover also 
         * functions in the future (probably not in OP2)
         * ======================================================
         */            
        SgProcedureHeaderStatement * isProcedureHeaderStatement = isSgProcedureHeaderStatement ( 
          functionCallExp->getAssociatedFunctionDeclaration() );
            
        calledRoutines.push_back ( isProcedureHeaderStatement );
      }
    }

    SgVariableDeclaration * isVariableDeclaration = isSgVariableDeclaration (
        *it);

    if (isVariableDeclaration == NULL)
    { 
      /*
       * ======================================================
       * Do not append use statement, because other subroutines
       * are directly appended to the CUDA module
       * ======================================================
       */                  
      SgUseStatement * isUseStmt = isSgUseStatement ( *it );
      if (isUseStmt != NULL)
        {
          Debug::getInstance ()->debugMessage (
                "Not appending use statement",
                Debug::HIGHEST_DEBUG_LEVEL, __FILE__, __LINE__);
        }
      else
      {
        Debug::getInstance ()->debugMessage (
              "Appending (non-variable-declaration) statement",
              Debug::HIGHEST_DEBUG_LEVEL, __FILE__, __LINE__);

        appendStatement (*it, subroutineScope);

        /*
         * ======================================================
         * Recursively look for subroutine calls inside shallow
         * nodes in the routines (e.g. when a call is inside an 
         * if). After the visit get the generated vector of names
         * and append it to the userSubroutine vector
         * ======================================================
         */                  
        TreeVisitor * visitor = new TreeVisitor ();
	  
        visitor->traverse (*it, preorder);
          
        Debug::getInstance ()->debugMessage ("Appending deep subroutine calls", Debug::OUTER_LOOP_LEVEL, __FILE__, __LINE__);

          
        vector < SgProcedureHeaderStatement * > deepStatementCalls = visitor->getCalledRoutinesInStatement ();
        vector < SgProcedureHeaderStatement * >::iterator itDeepCalls;
        for (itDeepCalls = deepStatementCalls.begin(); itDeepCalls != deepStatementCalls.end(); ++itDeepCalls)
          calledRoutines.push_back (*itDeepCalls);
      
        Debug::getInstance ()->debugMessage ("Appending deep subroutine calls", Debug::OUTER_LOOP_LEVEL, __FILE__, __LINE__);
      }
    }
    else
    {
      Debug::getInstance ()->debugMessage ("Appending variable declaration",
          Debug::HIGHEST_DEBUG_LEVEL, __FILE__, __LINE__);

      unsigned int OP_DAT_ArgumentGroup = 1;

      for (SgInitializedNamePtrList::iterator variableIt =
          isVariableDeclaration->get_variables ().begin (); variableIt
          != isVariableDeclaration->get_variables ().end (); ++variableIt)
      {
        string const variableName = (*variableIt)->get_name ().getString ();

        SgType * type = (*variableIt)->get_typeptr ();

        /*
         * ======================================================
         * Specification of "value" attribute is only
         * for user kernels. Our call convention is that
         * in all deeper level calls we always pass parameters
         * by reference (see else branch below)
         * ======================================================
         */                  
        
        bool isFormalParamater = false;
	
        for (SgInitializedNamePtrList::iterator paramIt =
            originalParameters->get_args ().begin (); paramIt
            != originalParameters->get_args ().end (); ++paramIt, ++OP_DAT_ArgumentGroup)
        {
          string const formalParamterName = (*paramIt)->get_name ().getString ();

          if (iequals (variableName, formalParamterName))
          {
            isFormalParamater = true;

            if (parallelLoop->isIndirect (OP_DAT_ArgumentGroup)
                && parallelLoop->isRead (OP_DAT_ArgumentGroup))
            {
              Debug::getInstance ()->debugMessage ("'" + variableName
                  + "' is an INDIRECT formal parameter which is READ",
                  Debug::HIGHEST_DEBUG_LEVEL, __FILE__, __LINE__);

              SgVariableDeclaration * variableDeclaration;
              if ( isUserKernel == true )
                variableDeclaration =
                      FortranStatementsAndExpressionsBuilder::appendVariableDeclarationAsFormalParameter (
                          variableName, type, subroutineScope,
                          formalParameters, 0);
              else
                  variableDeclaration =
                      FortranStatementsAndExpressionsBuilder::appendVariableDeclarationAsFormalParameter (
                          variableName, type, subroutineScope,
                          formalParameters, 0);

                ROSE_ASSERT ( variableDeclaration != NULL );
            }
            else if (parallelLoop->isGlobal (OP_DAT_ArgumentGroup)                     
                     && parallelLoop->isRead (OP_DAT_ArgumentGroup))
            {
              Debug::getInstance ()->debugMessage ("'" + variableName
                + "' is a GLOBAL formal parameter which is READ",
                Debug::HIGHEST_DEBUG_LEVEL, __FILE__, __LINE__);

                SgVariableDeclaration * variableDeclaration =
                  FortranStatementsAndExpressionsBuilder::appendVariableDeclarationAsFormalParameter (
                    variableName, type, subroutineScope, formalParameters, 0);
            }
            else
            {
              Debug::getInstance ()->debugMessage ("'" + variableName
                  + "' is a formal parameter "
                  + parallelLoop->getOpDatInformation (OP_DAT_ArgumentGroup),
                  Debug::HIGHEST_DEBUG_LEVEL, __FILE__, __LINE__);

              if ( isUserKernel == true )
                SgVariableDeclaration * variableDeclaration =
                  FortranStatementsAndExpressionsBuilder::appendVariableDeclarationAsFormalParameter (
                    variableName, type, subroutineScope, formalParameters, 0);
              else
                SgVariableDeclaration * variableDeclaration =
                  FortranStatementsAndExpressionsBuilder::appendVariableDeclarationAsFormalParameter (
                    variableName, type, subroutineScope, formalParameters, 0);
            }
          }
        }
          
        if (isFormalParamater == false)
        {
          Debug::getInstance ()->debugMessage ("'" + variableName
            + "' is NOT a formal parameter", Debug::HIGHEST_DEBUG_LEVEL,
            __FILE__, __LINE__);

          SgVariableDeclaration * variableDeclaration =
            FortranStatementsAndExpressionsBuilder::appendVariableDeclaration (
            variableName, type, subroutineScope);
        }
      }
    }
  }
}
Ejemplo n.º 29
0
  NodeQuerySynthesizedAttributeType
NodeQuery::querySolverVariableTypes (SgNode * astNode)
{
  ROSE_ASSERT (astNode != NULL);
  NodeQuerySynthesizedAttributeType returnNodeList;
  /*
     SgVariableDeclaration* sageVariableDeclaration = isSgVariableDeclaration(astNode);

     if(sageVariableDeclaration != NULL)
     {
     SgInitializedNamePtrList sageInitializedNameList = sageVariableDeclaration->get_variables();


     printf ("\nHere is a function declaration :Line = %d Columns = %d \n", ROSE:: getLineNumber (isSgLocatedNode(astNode) ), ROSE:: getColumnNumber ( isSgLocatedNode(astNode) ));
     cout << "The filename is:" << ROSE::getFileName(isSgLocatedNode(astNode)) << endl;


     typedef SgInitializedNamePtrList::iterator LI;

     for ( LI i = sageInitializedNameList.begin(); i != sageInitializedNameList.end(); ++i) {
     SgType* sageElementType = i->get_type();
     ROSE_ASSERT( sageElementType != NULL);

     cout << "The class name is: " << sageElementType->sage_class_name() << endl;
     returnNodeList.push_back( sageElementType );

     }
     cout << endl << "End printout of this Initialized Name list" << endl;


     }

   */
  // SgVarRefExp *sageVarRefExp = isSgVarRefExp (astNode);

  switch (astNode->variantT ())
  {

    case V_SgVariableDeclaration:
      {
        SgVariableDeclaration *sageVariableDeclaration =
          isSgVariableDeclaration (astNode);
        ROSE_ASSERT (sageVariableDeclaration != NULL);

        SgInitializedNamePtrList sageInitializedNameList =
          sageVariableDeclaration->get_variables ();

#if DEBUG_NODEQUERY
        printf ("\nIn filename: %s ",
            ROSE::getFileName (isSgLocatedNode (astNode)));
        printf ("\nHere is a variable :Line = %d Columns = %d \n",
            ROSE::getLineNumber (isSgLocatedNode (astNode)),
            ROSE::getColumnNumber (isSgLocatedNode (astNode)));
        //cout << "The typename of the variable is: " << typeName << endl;
#endif

        typedef SgInitializedNamePtrList::iterator variableIterator;
        SgType *typeNode;

        for (variableIterator variableListElement =
            sageInitializedNameList.begin ();
            variableListElement != sageInitializedNameList.end ();
            ++variableListElement)
        {
          SgInitializedName* elmVar = *variableListElement;

          ROSE_ASSERT (elmVar != NULL);
          typeNode = elmVar->get_type ();
          ROSE_ASSERT (typeNode != NULL);
          returnNodeList.push_back (typeNode);
        }
        break;
      }                         /* End case V_SgVariableDeclaration */

    case V_SgFunctionDeclaration:
    case V_SgMemberFunctionDeclaration:
      {
        SgFunctionDeclaration * sageFunctionDeclaration =
          isSgFunctionDeclaration (astNode);
        ROSE_ASSERT (sageFunctionDeclaration != NULL);

        SgInitializedNamePtrList sageInitializedNameList =
          sageFunctionDeclaration->get_args ();
        SgType *typeNode;

        typedef SgInitializedNamePtrList::iterator variableIterator;

        for (variableIterator variableListElement =
            sageInitializedNameList.begin ();
            variableListElement != sageInitializedNameList.end ();
            ++variableListElement)
        {
          SgInitializedName* elmVar = *variableListElement;

          ROSE_ASSERT (elmVar != NULL);
          typeNode = elmVar->get_type ();
          ROSE_ASSERT (typeNode != NULL);
          returnNodeList.push_back (typeNode);

        }

        break;
      }

    default:
      {
        // DQ (8/20/2005): Added default to avoid compiler warnings about unrepresented cases
      }
  }                             /* End switch case astNode */



  return returnNodeList;
}                               /* End function querySolverType() */
Ejemplo n.º 30
0
StructLayoutInfo NonpackedTypeLayoutGenerator::layoutType(SgType* t) const {
  switch (t->variantT()) {
    case V_SgClassType: { // Also covers structs and unions
      SgClassDeclaration* decl = isSgClassDeclaration(isSgClassType(t)->get_declaration());
      ROSE_ASSERT (decl);
      decl = isSgClassDeclaration(decl->get_definingDeclaration());
      ROSE_ASSERT (decl);
      SgClassDefinition* def = decl->get_definition();
      ROSE_ASSERT (def);
      StructLayoutInfo layout;
      size_t currentOffset = 0;
      const SgBaseClassPtrList& bases = def->get_inheritances();
      for (SgBaseClassPtrList::const_iterator i = bases.begin();
           i != bases.end(); ++i) {
        SgBaseClass* base = *i;
        SgClassDeclaration* basecls = base->get_base_class();
        layoutOneField(basecls->get_type(), base, false, currentOffset, layout);
      }
      const SgDeclarationStatementPtrList& body = def->get_members();
      bool isUnion = (decl->get_class_type() == SgClassDeclaration::e_union);
      for (SgDeclarationStatementPtrList::const_iterator i = body.begin();
           i != body.end(); ++i) {
        SgDeclarationStatement* mem = *i;
        SgVariableDeclaration* vardecl = isSgVariableDeclaration(mem);
        SgClassDeclaration* classdecl = isSgClassDeclaration(mem);
        bool isUnnamedUnion = classdecl ? classdecl->get_isUnNamed() : false;
        if (vardecl) {
          if (!vardecl->get_declarationModifier().isDefault()) continue; // Static fields and friends
          ROSE_ASSERT (!vardecl->get_bitfield());
          const SgInitializedNamePtrList& vars = isSgVariableDeclaration(mem)->get_variables();
          for (SgInitializedNamePtrList::const_iterator j = vars.begin();
               j != vars.end(); ++j) {
            SgInitializedName* var = *j;
            layoutOneField(var->get_type(), var, isUnion, currentOffset, layout);
          }
        } else if (isUnnamedUnion) {
          layoutOneField(classdecl->get_type(), classdecl, isUnion, currentOffset, layout);
        } // else continue;
      }
      if (layout.alignment != 0 && layout.size % layout.alignment != 0) {
        size_t paddingNeeded = layout.alignment - (layout.size % layout.alignment);
        if (!isUnion) {
          layout.fields.push_back(StructLayoutEntry(NULL, layout.size, paddingNeeded));
        }
        layout.size += paddingNeeded;
      }
      return layout;
    }
    case V_SgArrayType: {
      StructLayoutInfo layout = this->beginning->layoutType(isSgArrayType(t)->get_base_type());
      layout.fields.clear();
      SgExpression* numElements = isSgArrayType(t)->get_index();

      //Adjustment for UPC array like a[100*THREADS],treat it as a[100]
      // Liao, 8/7/2008
      if (isUpcArrayWithThreads(isSgArrayType(t)))
      {
        SgMultiplyOp* multiply = isSgMultiplyOp(isSgArrayType(t)->get_index());
        ROSE_ASSERT(multiply);

     // DQ (9/26/2011): Do constant folding if required.
     // SageInterface::constantFolding(multiply);

        numElements = multiply->get_lhs_operand();
      }  
      if (!isSgValueExp(numElements)) {
        cerr << "Error: trying to compute static size of an array with non-constant size" << endl;
        abort();
      }
      layout.size *= SageInterface::getIntegerConstantValue(isSgValueExp(numElements));
      return layout;
    }
    case V_SgTypeComplex: {
    //"Each complex type has the same representation and alignment requirements as 
    //an array type containing exactly two elements of the corresponding real type"
      StructLayoutInfo layout = this->beginning->layoutType(isSgTypeComplex(t)->get_base_type());
      layout.size *= 2;
      return layout;
    }
    case V_SgTypeImaginary: {
      StructLayoutInfo layout = this->beginning->layoutType(isSgTypeImaginary(t)->get_base_type());
      return layout;
    }

    default: return ChainableTypeLayoutGenerator::layoutType(t);
  }
}