コード例 #1
0
void ParametricAd::addUserTag ( const std::string& attr_name,  const std::string& attr_value){
	ExprTree* tree = Lookup ( JDL::USERTAGS  ) ;
	if ( tree ==NULL){
		// UserTags attribute has still to be created
		ClassAd ad ;
		ad.InsertAttr ( attr_name , attr_value ) ;
		ExprTree* tmp_expr = ad.Copy();
		Insert ( JDL::USERTAGS  , tmp_expr ) ;
	}else{
		// Already Existing UserTags attribute
		if (  tree->GetKind () == classad::ExprTree::CLASSAD_NODE  )
			((ClassAd*)tree)->InsertAttr ( attr_name , attr_value  ) ;
	}
}
コード例 #2
0
ファイル: compress.cpp プロジェクト: blueskyll/condor
bool
MakeSignature( const ClassAd *ad, const References &refs, string &sig )
{
    References::iterator    itr;
    ExprTree                *expr;
    Value                   val;
    ClassAdUnParser         unp;

    sig = "";
    for( itr=refs.begin( ); itr!= refs.end( ); itr++ ) {
        if((expr=ad->Lookup(*itr))&&expr->GetKind()==ExprTree::LITERAL_NODE) {
            unp.Unparse( sig, expr );
        } else {
            return( false );
        }
        sig += ":";
    }

    return( true );
}
コード例 #3
0
void find_attribute_if(std::vector<std::string>* v, ExprTree* e, Predicate predicate, bool deep_find = false)
{
  expression_trace_type exprTrace, exprStack;

  if (!e) return;
  else exprStack.push_back(e);

  while (!exprStack.empty()) {

    exprTrace.push_front( (e = exprStack.front()) );
    exprStack.pop_front();
    
    switch( e->GetKind() ) {
    case ExprTree::LITERAL_NODE: break;
    case ExprTree::OP_NODE: 
      {
	ExprTree* e1 = 0, *e2 = 0, *e3 = 0;
	Operation::OpKind ok;
	dynamic_cast<Operation*>(e)->GetComponents(ok, e1, e2, e3);
	if ( e3 ) exprStack.push_front(e3);
	if ( e2 ) exprStack.push_front(e2);
	if ( e1 ) exprStack.push_front(e1);
      }
      break;
    case ExprTree::FN_CALL_NODE: 
      {
	std::vector<ExprTree*> args;
	std::string fn;
	dynamic_cast<FunctionCall*>(e)->GetComponents(fn, args);
	for( int i = args.size(); i; i--) exprStack.push_front( args[i-1] );
      }
      break;
    case ExprTree::EXPR_LIST_NODE: 
      {
	std::vector<ExprTree*> args;
	dynamic_cast<ExprList*>(e)->GetComponents(args);
	for( int i = args.size(); i; i--) exprStack.push_front( args[i-1] );
      }	
      break;
    case ExprTree::ATTRREF_NODE: 
      {
	AttributeReference* a = dynamic_cast<AttributeReference*>(e);
	ExprTree* reference_expr = 0;
	std::string name;
	bool absolute;
	bool continue_find = false;
	a->GetComponents(reference_expr, name, absolute);

	const ClassAd*  parent_scope   = 0;
	parent_scope=a->GetParentScope();

	if (!reference_expr) { // simple reference "attr" and ".attr"...
	  // ...look-up the parent scope to solve the reference...
	  reference_expr = parent_scope->Lookup(name);
	  if(reference_expr) continue_find = true;
	  else if(predicate(std::make_pair(&exprTrace,a)) &&
			  find(v->begin(), v->end(), name) == v->end()) {
		          
		  v->push_back(name);
	  }
	  
	}
 	else if (parent_scope && deep_find) {
	  
	  // ...reference_expr is not a simple reference "expr.attr" 
 	  // and the deep resolution is requested.
	  std::string    reference_name;
	  Value          reference_value;
	  const ClassAd* reference_ad;
	  ExprTree*      expr;
	  dynamic_cast<AttributeReference*>(reference_expr)->
	    GetComponents(expr, reference_name, absolute);
	  
	  if (parent_scope->EvaluateAttr(reference_name, reference_value) &&
	      reference_value.IsClassAdValue(reference_ad)) {
	    
	    reference_expr=reference_ad->Lookup(name);
	    continue_find = expr && !(expr->GetKind()==ExprTree::LITERAL_NODE);
	    if(!continue_find && predicate(std::make_pair(&exprTrace,a)) &&
			                              find(v->begin(), v->end(), name) == v->end()) {

		                      v->push_back(name);
		}			      
	  }
	}
	
 	// ...if the referenced expression has not been evaluated yet...
	if (reference_expr &&
	    find(exprTrace.begin(), exprTrace.end(), reference_expr) == exprTrace.end()) {
	  
	  if (continue_find) exprStack.push_front(reference_expr); // ...further search needed.
	  else if (predicate(std::make_pair(&exprTrace,a)) &&
		   find(v->begin(), v->end(), name) == v->end()) {
	    v->push_back(name);
	  } 
	}
      }
      break;
    default:
      assert( false );
    }
  }
}
コード例 #4
0
ファイル: classad_c_helper.C プロジェクト: brianhlin/BLAH
  int
  unwind_attributes(classad_context cad, char *attribute_name, char ***results) 
   {
    if (cad == NULL) return C_CLASSAD_INVALID_CONTEXT;
    if ((results == NULL) || (attribute_name == NULL))
      return C_CLASSAD_INVALID_ARG;

    ClassAd *ad = (ClassAd *)cad;

    ExprTree *et;
    bool need_to_delete_et = false;

    et = ad->Lookup(attribute_name);
    if (et == NULL)
     {
      return C_CLASSAD_VALUE_NOT_FOUND;
     }

    if (et->GetKind() == ExprTree::LITERAL_NODE)
     {
      // The attribute was probably stringified. Try to parse it.
      Value v;
      EvalState state;
      state.SetScopes( ad );

      et->Evaluate(state,v);
      std::string strres;

      if (v.IsStringValue( strres ))
       {
        ClassAdParser parser;
        et=NULL;
        parser.ParseExpression(strres,et);
        need_to_delete_et = true;
       }
     }

    BinaryOpUnwind res_unp; 
    std::string result;
    res_unp.Unparse(result, et);
    int n_results;
    if (*results == NULL)
     {
      n_results = 0;
      (*results) = (char **)malloc(sizeof(char **));
      if ((*results) == NULL) return C_CLASSAD_OUT_OF_MEMORY;
      (*results)[0] = NULL;
     }
    else
     {
      for (n_results = 0; (*results)[n_results] != NULL; n_results++) /*NOP*/ ;
     }

    std::vector<std::string>::const_iterator it;
    for (it = res_unp.m_unwind_output.begin(); 
         it != res_unp.m_unwind_output.end(); ++it)
     {
      n_results++;
      char **new_results;
      new_results = (char **)realloc(*results, (n_results+1)*sizeof(char *));
      if (new_results == NULL)
       {
        if (need_to_delete_et) delete et;
        return C_CLASSAD_OUT_OF_MEMORY;
       }
      (*results) = new_results;
      (*results)[n_results] = NULL;
      (*results)[n_results-1] = strdup(it->c_str());
      if (((*results)[n_results-1]) == NULL)
       {
        if (need_to_delete_et) delete et;
        return C_CLASSAD_OUT_OF_MEMORY;
       }
     }

    if (need_to_delete_et) delete et;
    return C_CLASSAD_NO_ERROR;
   }
コード例 #5
0
ファイル: attrrefs.cpp プロジェクト: AlainRoy/htcondor
bool AttributeReference::
_Flatten( EvalState &state, Value &val, ExprTree*&ntree, int*) const
{
	ExprTree	*tree;
	ExprTree	*dummy;
	const ClassAd *curAd;
	bool		rval;

	ntree = NULL; // Just to be safe...  wenger 2003-12-11.

		// find the expression and the evalstate
	curAd = state.curAd;
	switch( FindExpr( state, tree, dummy, false ) ) {
		case EVAL_FAIL:
			return false;

		case EVAL_ERROR:
			val.SetErrorValue();
			state.curAd = curAd;
			return true;

		case EVAL_UNDEF:
			if( expr && state.flattenAndInline ) {
				ExprTree *expr_ntree = NULL;
				Value expr_val;
				if( state.depth_remaining <= 0 ) {
					val.SetErrorValue();
					state.curAd = curAd;
					return false;
				}
				state.depth_remaining--;

				rval = expr->Flatten(state,expr_val,expr_ntree);

				state.depth_remaining++;

				if( rval && expr_ntree ) {
					ntree = MakeAttributeReference(expr_ntree,attributeStr);
					if( ntree ) {
						state.curAd = curAd;
						return true;
					}
				}
				delete expr_ntree;
			}
			if( !(ntree = Copy( ) ) ) {
				CondorErrno = ERR_MEM_ALLOC_FAILED;
				CondorErrMsg = "";
				state.curAd = curAd;
				return( false );
			}
			state.curAd = curAd;
			return true;

		case EVAL_OK:
		{
			// Don't flatten or inline a classad that's referred to
			// by an attribute.
			if ( tree->GetKind() == CLASSAD_NODE ) {
				ntree = Copy( );
				val.SetUndefinedValue( );
				return true;
			}

			if( state.depth_remaining <= 0 ) {
				val.SetErrorValue();
				state.curAd = curAd;
				return false;
			}
			state.depth_remaining--;

			rval = tree->Flatten( state, val, ntree );

			state.depth_remaining++;

			// don't inline if it didn't flatten to a value, and clear cache
			// do inline if FlattenAndInline was called
			if( ntree ) {
				if( state.flattenAndInline ) {	// NAC
					return true;   				// NAC
				}								// NAC
				delete ntree;
				ntree = Copy( );
				val.SetUndefinedValue( );
			}

			state.curAd = curAd;
			return rval;
		}
		default:  CLASSAD_EXCEPT( "ClassAd:  Should not reach here" );
	}
	return false;
}