// Quand les 2 fonctions Setxxx et Getxxx sont presentes, Setxxx est decrit en premier
//
#include "HOMARD_Boundary_i.hxx"
-#include "HOMARD_Gen_i.hxx"
+#include "ADAPT_Gen_i.hxx"
#include "HOMARD_Boundary.hxx"
#include "HOMARD_DriverTools.hxx"
*/
//=============================================================================
HOMARD_Boundary_i::HOMARD_Boundary_i( CORBA::ORB_ptr orb,
- HOMARD::HOMARD_Gen_var engine )
+ ADAPT::ADAPT_Gen_var engine )
{
MESSAGE( "HOMARD_Boundary_i" );
_gen_i = engine;
//=============================================================================
std::string HOMARD_Boundary_i::Dump() const
{
- return HOMARD::Dump( *myHomardBoundary );
+ return ADAPT::Dump( *myHomardBoundary );
}
//=============================================================================
bool HOMARD_Boundary_i::Restore( const std::string& stream )
{
- return HOMARD::Restore( *myHomardBoundary, stream );
+ return ADAPT::Restore( *myHomardBoundary, stream );
}
//=============================================================================
//=============================================================================
myHomardBoundary->SetTorus( X0, X1, X2, X3, X4, X5, X6, X7 );
}
//=============================================================================
-HOMARD::double_array* HOMARD_Boundary_i::GetCoords()
+ADAPT::double_array* HOMARD_Boundary_i::GetCoords()
{
ASSERT( myHomardBoundary );
- HOMARD::double_array_var aResult = new HOMARD::double_array();
+ ADAPT::double_array_var aResult = new ADAPT::double_array();
std::vector<double> mesCoor = myHomardBoundary->GetCoords();
aResult->length( mesCoor .size() );
std::vector<double>::const_iterator it;
myHomardBoundary->SetLimit( Xincr, Yincr, Zincr );
}
//=============================================================================
-HOMARD::double_array* HOMARD_Boundary_i::GetLimit()
+ADAPT::double_array* HOMARD_Boundary_i::GetLimit()
{
ASSERT( myHomardBoundary );
- HOMARD::double_array_var aResult = new HOMARD::double_array();
+ ADAPT::double_array_var aResult = new ADAPT::double_array();
std::vector<double> mesCoor = myHomardBoundary->GetLimit();
aResult->length( mesCoor .size() );
std::vector<double>::const_iterator it;
myHomardBoundary->AddGroup( Group );
}
//=============================================================================
-void HOMARD_Boundary_i::SetGroups(const HOMARD::ListGroupType& ListGroup)
+void HOMARD_Boundary_i::SetGroups(const ADAPT::ListGroupType& ListGroup)
{
ASSERT( myHomardBoundary );
std::list<std::string> ListString;
myHomardBoundary->SetGroups( ListString );
}
//=============================================================================
-HOMARD::ListGroupType* HOMARD_Boundary_i::GetGroups()
+ADAPT::ListGroupType* HOMARD_Boundary_i::GetGroups()
{
ASSERT( myHomardBoundary );
const std::list<std::string>& ListString = myHomardBoundary->GetGroups();
- HOMARD::ListGroupType_var aResult = new HOMARD::ListGroupType;
+ ADAPT::ListGroupType_var aResult = new ADAPT::ListGroupType;
aResult->length( ListString.size() );
std::list<std::string>::const_iterator it;
int i = 0;