// Copyright (C) 2007-2014 CEA/DEN, EDF R&D, OPEN CASCADE // // Copyright (C) 2003-2007 OPEN CASCADE, EADS/CCR, LIP6, CEA/DEN, // CEDRAT, EDF R&D, LEG, PRINCIPIA R&D, BUREAU VERITAS // // This library is free software; you can redistribute it and/or // modify it under the terms of the GNU Lesser General Public // License as published by the Free Software Foundation; either // version 2.1 of the License, or (at your option) any later version. // // This library is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU // Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public // License along with this library; if not, write to the Free Software // Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA // // See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com // // File : SMESH_Gen_i.hxx // Author : Paul RASCLE, EDF // Module : SMESH #ifndef _SMESH_GEN_I_HXX_ #define _SMESH_GEN_I_HXX_ #include "SMESH.hxx" #include #include CORBA_SERVER_HEADER(SMESH_Gen) #include CORBA_SERVER_HEADER(SMESH_Mesh) #include CORBA_SERVER_HEADER(SMESH_Hypothesis) #include CORBA_CLIENT_HEADER(GEOM_Gen) #include CORBA_CLIENT_HEADER(SALOMEDS) #include CORBA_CLIENT_HEADER(SALOMEDS_Attributes) #include "SMESH_Gen.hxx" #include "SMESH_Mesh_i.hxx" #include "SMESH_Hypothesis_i.hxx" #include #include #include #include #include #include #include #include #include class SMESH_Mesh_i; class SALOME_LifeCycleCORBA; // =========================================================== // Study context - stores study-connected objects references // ========================================================== class SMESH_I_EXPORT StudyContext { public: // constructor StudyContext() {} // destructor ~StudyContext() { mapIdToIOR.clear(); mapIdToId.clear(); } // register object in the internal map and return its id int addObject( string theIOR ) { int nextId = getNextId(); mapIdToIOR[ nextId ] = theIOR; return nextId; } // find the object id in the internal map by the IOR int findId( string theIOR ) { map::iterator imap; for ( imap = mapIdToIOR.begin(); imap != mapIdToIOR.end(); ++imap ) { if ( imap->second == theIOR ) return imap->first; } return 0; } // get object's IOR by id string getIORbyId( const int theId ) { if ( mapIdToIOR.find( theId ) != mapIdToIOR.end() ) return mapIdToIOR[ theId ]; return string( "" ); } // get object's IOR by old id string getIORbyOldId( const int theOldId ) { if ( mapIdToId.find( theOldId ) != mapIdToId.end() ) return getIORbyId( mapIdToId[ theOldId ] ); return string( "" ); } // maps old object id to the new one (used when restoring data) void mapOldToNew( const int oldId, const int newId ) { mapIdToId[ oldId ] = newId; } // get old id by a new one int getOldId( const int newId ) { map::iterator imap; for ( imap = mapIdToId.begin(); imap != mapIdToId.end(); ++imap ) { if ( imap->second == newId ) return imap->first; } return 0; } private: // get next free object identifier int getNextId() { int id = 1; while( mapIdToIOR.find( id ) != mapIdToIOR.end() ) id++; return id; } map mapIdToIOR; // persistent-to-transient map map mapIdToId; // used to translate object from persistent to transient form }; // =========================================================== // SMESH module's engine // ========================================================== class SMESH_I_EXPORT SMESH_Gen_i: public virtual POA_SMESH::SMESH_Gen, public virtual Engines_Component_i { public: // Get last created instance of the class static SMESH_Gen_i* GetSMESHGen() { return mySMESHGen;} // Get ORB object static CORBA::ORB_var GetORB() { return myOrb;} // Get SMESH module's POA object static PortableServer::POA_var GetPOA() { return myPoa;} // Get Naming Service object static SALOME_NamingService* GetNS(); // Get SALOME_LifeCycleCORBA object static SALOME_LifeCycleCORBA* GetLCC(); // Retrieve and get GEOM engine reference static GEOM::GEOM_Gen_var GetGeomEngine(); // Get object of the CORBA reference static PortableServer::ServantBase_var GetServant( CORBA::Object_ptr theObject ); // Get CORBA object corresponding to the SALOMEDS::SObject static CORBA::Object_var SObjectToObject( SALOMEDS::SObject_ptr theSObject ); // Get the SALOMEDS::SObject corresponding to a CORBA object static SALOMEDS::SObject_ptr ObjectToSObject(SALOMEDS::Study_ptr theStudy, CORBA::Object_ptr theObject); // Get GEOM Object correspoding to TopoDS_Shape GEOM::GEOM_Object_ptr ShapeToGeomObject (const TopoDS_Shape& theShape ); // Get TopoDS_Shape correspoding to GEOM_Object TopoDS_Shape GeomObjectToShape(GEOM::GEOM_Object_ptr theGeomObject); // Default constructor SMESH_Gen_i(); // Standard constructor SMESH_Gen_i( CORBA::ORB_ptr orb, PortableServer::POA_ptr poa, PortableServer::ObjectId* contId, const char* instanceName, const char* interfaceName ); // Destructor virtual ~SMESH_Gen_i(); // ***************************************** // Interface methods // ***************************************** // Set a new Mesh object name void SetName(const char* theIOR, const char* theName); //GEOM::GEOM_Gen_ptr SetGeomEngine( const char* containerLoc ); void SetGeomEngine( GEOM::GEOM_Gen_ptr geomcompo ); // Set current study void SetEmbeddedMode( CORBA::Boolean theMode ); // Get current study CORBA::Boolean IsEmbeddedMode(); // Set current study void SetCurrentStudy( SALOMEDS::Study_ptr theStudy ); // Get current study SALOMEDS::Study_ptr GetCurrentStudy(); // Create hypothesis/algorothm of given type SMESH::SMESH_Hypothesis_ptr CreateHypothesis (const char* theHypType, const char* theLibName) throw ( SALOME::SALOME_Exception ); // Return hypothesis of given type holding parameter values of the existing mesh SMESH::SMESH_Hypothesis_ptr GetHypothesisParameterValues (const char* theHypType, const char* theLibName, SMESH::SMESH_Mesh_ptr theMesh, GEOM::GEOM_Object_ptr theGeom, CORBA::Boolean byMesh) throw ( SALOME::SALOME_Exception ); /* * Returns True if a hypothesis is assigned to a sole sub-mesh in a current Study */ CORBA::Boolean GetSoleSubMeshUsingHyp( SMESH::SMESH_Hypothesis_ptr theHyp, SMESH::SMESH_Mesh_out theMesh, GEOM::GEOM_Object_out theShape); // Preferences // ------------ /*! * Sets number of segments per diagonal of boundary box of geometry by which * default segment length of appropriate 1D hypotheses is defined */ void SetBoundaryBoxSegmentation( CORBA::Long theNbSegments ) throw ( SALOME::SALOME_Exception ); /*! * \brief Sets default number of segments per edge */ void SetDefaultNbSegments(CORBA::Long theNbSegments) throw ( SALOME::SALOME_Exception ); /*! Set an option value */ virtual void SetOption(const char*, const char*); /*! Return an option value */ virtual char* GetOption(const char*); /*! * To load full mesh data from study at hyp modification or not */ bool ToForgetMeshDataOnHypModif() const { return myToForgetMeshDataOnHypModif; } // Create empty mesh on a shape SMESH::SMESH_Mesh_ptr CreateMesh( GEOM::GEOM_Object_ptr theShapeObject ) throw ( SALOME::SALOME_Exception ); // Create empty mesh SMESH::SMESH_Mesh_ptr CreateEmptyMesh() throw ( SALOME::SALOME_Exception ); // Create a mesh and import data from an UNV file SMESH::SMESH_Mesh_ptr CreateMeshesFromUNV( const char* theFileName ) throw ( SALOME::SALOME_Exception ); // Create mesh(es) and import data from MED file SMESH::mesh_array* CreateMeshesFromMED( const char* theFileName, SMESH::DriverMED_ReadStatus& theStatus ) throw ( SALOME::SALOME_Exception ); // Create mesh(es) and import data from MED file SMESH::mesh_array* CreateMeshesFromSAUV( const char* theFileName, SMESH::DriverMED_ReadStatus& theStatus ) throw ( SALOME::SALOME_Exception ); // Create a mesh and import data from a STL file SMESH::SMESH_Mesh_ptr CreateMeshesFromSTL( const char* theFileName ) throw ( SALOME::SALOME_Exception ); // Create mesh(es) and import data from CGNS file SMESH::mesh_array* CreateMeshesFromCGNS( const char* theFileName, SMESH::DriverMED_ReadStatus& theStatus ) throw ( SALOME::SALOME_Exception ); // Create a mesh and import data from a GMF file SMESH::SMESH_Mesh_ptr CreateMeshesFromGMF( const char* theFileName, CORBA::Boolean theMakeRequiredGroups, SMESH::ComputeError_out theError) throw ( SALOME::SALOME_Exception ); // Copy a part of mesh SMESH::SMESH_Mesh_ptr CopyMesh(SMESH::SMESH_IDSource_ptr meshPart, const char* meshName, CORBA::Boolean toCopyGroups, CORBA::Boolean toKeepIDs); // Compute mesh on a shape CORBA::Boolean Compute( SMESH::SMESH_Mesh_ptr theMesh, GEOM::GEOM_Object_ptr theShapeObject ) throw ( SALOME::SALOME_Exception ); // Cancel Compute mesh on a shape void CancelCompute( SMESH::SMESH_Mesh_ptr theMesh, GEOM::GEOM_Object_ptr theShapeObject ); /*! * \brief Return errors of mesh computation */ SMESH::compute_error_array* GetComputeErrors(SMESH::SMESH_Mesh_ptr theMesh, GEOM::GEOM_Object_ptr theShapeObject ) throw ( SALOME::SALOME_Exception ); /*! * Evaluate mesh on a shape and * returns statistic of mesh elements * Result array of number enityties */ SMESH::long_array* Evaluate(SMESH::SMESH_Mesh_ptr theMesh, GEOM::GEOM_Object_ptr theShapeObject) throw ( SALOME::SALOME_Exception ); // Returns true if mesh contains enough data to be computed CORBA::Boolean IsReadyToCompute( SMESH::SMESH_Mesh_ptr theMesh, GEOM::GEOM_Object_ptr theShapeObject ) throw ( SALOME::SALOME_Exception ); /*! * Calculate Mesh as preview till indicated dimension on shape * First, verify list of hypothesis associated with the subShape. * Return mesh preview structure */ SMESH::MeshPreviewStruct* Precompute( SMESH::SMESH_Mesh_ptr theMesh, GEOM::GEOM_Object_ptr theSubObject, SMESH::Dimension theDimension, SMESH::long_array& theShapesId ) throw ( SALOME::SALOME_Exception ); // Returns errors of hypotheses definintion SMESH::algo_error_array* GetAlgoState( SMESH::SMESH_Mesh_ptr theMesh, GEOM::GEOM_Object_ptr theSubObject ) throw ( SALOME::SALOME_Exception ); // Return mesh elements preventing computation of a subshape SMESH::MeshPreviewStruct* GetBadInputElements( SMESH::SMESH_Mesh_ptr theMesh, CORBA::Short theSubShapeID ) throw ( SALOME::SALOME_Exception ); // Create groups of elements preventing computation of a sub-shape SMESH::ListOfGroups* MakeGroupsOfBadInputElements( SMESH::SMESH_Mesh_ptr theMesh, CORBA::Short theSubShapeID, const char* theGroupName) throw ( SALOME::SALOME_Exception ); // Get sub-shapes unique ID's list SMESH::long_array* GetSubShapesId( GEOM::GEOM_Object_ptr theMainShapeObject, const SMESH::object_array& theListOfSubShape ) throw ( SALOME::SALOME_Exception ); // Return geometrical object the given element is built on. Publish it in study. GEOM::GEOM_Object_ptr GetGeometryByMeshElement( SMESH::SMESH_Mesh_ptr theMesh, CORBA::Long theElementID, const char* theGeomName) throw ( SALOME::SALOME_Exception ); // Return geometrical object the given element is built on. Don't publish it in study. GEOM::GEOM_Object_ptr FindGeometryByMeshElement( SMESH::SMESH_Mesh_ptr theMesh, CORBA::Long theElementID) throw ( SALOME::SALOME_Exception ); // Concatenate the given meshes into one mesh SMESH::SMESH_Mesh_ptr ConcatenateCommon(const SMESH::mesh_array& theMeshesArray, CORBA::Boolean theUniteIdenticalGroups, CORBA::Boolean theMergeNodesAndElements, CORBA::Double theMergeTolerance, CORBA::Boolean theCommonGroups) throw ( SALOME::SALOME_Exception ); // Concatenate the given meshes into one mesh SMESH::SMESH_Mesh_ptr Concatenate(const SMESH::mesh_array& theMeshesArray, CORBA::Boolean theUniteIdenticalGroups, CORBA::Boolean theMergeNodesAndElements, CORBA::Double theMergeTolerance) throw ( SALOME::SALOME_Exception ); // Concatenate the given meshes into one mesh // Create the groups of all elements from initial meshes SMESH::SMESH_Mesh_ptr ConcatenateWithGroups(const SMESH::mesh_array& theMeshesArray, CORBA::Boolean theUniteIdenticalGroups, CORBA::Boolean theMergeNodesAndElements, CORBA::Double theMergeTolerance) throw ( SALOME::SALOME_Exception ); // Get MED version of the file by its name CORBA::Boolean GetMEDVersion(const char* theFileName, SMESH::MED_VERSION& theVersion); // Get names of meshes defined in file with the specified name SMESH::string_array* GetMeshNames(const char* theFileName); // **************************************************** // Interface inherited methods (from SALOMEDS::Driver) // **************************************************** // Save SMESH data SALOMEDS::TMPFile* Save( SALOMEDS::SComponent_ptr theComponent, const char* theURL, bool isMultiFile ); // Load SMESH data bool Load( SALOMEDS::SComponent_ptr theComponent, const SALOMEDS::TMPFile& theStream, const char* theURL, bool isMultiFile ); // Save SMESH data in ASCII format SALOMEDS::TMPFile* SaveASCII( SALOMEDS::SComponent_ptr theComponent, const char* theURL, bool isMultiFile ); // Load SMESH data in ASCII format bool LoadASCII( SALOMEDS::SComponent_ptr theComponent, const SALOMEDS::TMPFile& theStream, const char* theURL, bool isMultiFile ); // Create filter manager SMESH::FilterManager_ptr CreateFilterManager(); // Return a pattern mesher SMESH::SMESH_Pattern_ptr GetPattern(); // Create measurement instance SMESH::Measurements_ptr CreateMeasurements(); // Clears study-connected data when it is closed void Close( SALOMEDS::SComponent_ptr theComponent ); // Get component data type char* ComponentDataType(); // Transform data from transient form to persistent char* IORToLocalPersistentID( SALOMEDS::SObject_ptr theSObject, const char* IORString, CORBA::Boolean isMultiFile, CORBA::Boolean isASCII ); // Transform data from persistent form to transient char* LocalPersistentIDToIOR( SALOMEDS::SObject_ptr theSObject, const char* aLocalPersistentID, CORBA::Boolean isMultiFile, CORBA::Boolean isASCII ); // Returns true if object can be published in the study bool CanPublishInStudy( CORBA::Object_ptr theIOR ); // Publish object in the study SALOMEDS::SObject_ptr PublishInStudy( SALOMEDS::Study_ptr theStudy, SALOMEDS::SObject_ptr theSObject, CORBA::Object_ptr theObject, const char* theName ) throw ( SALOME::SALOME_Exception ); // Copy-paste methods - returns true if object can be copied to the clipboard CORBA::Boolean CanCopy( SALOMEDS::SObject_ptr theObject ) { return false; } // Copy-paste methods - copy object to the clipboard SALOMEDS::TMPFile* CopyFrom( SALOMEDS::SObject_ptr theObject, CORBA::Long& theObjectID ) { return NULL; } // Copy-paste methods - returns true if object can be pasted from the clipboard CORBA::Boolean CanPaste( const char* theComponentName, CORBA::Long theObjectID ) { return false; } // Copy-paste methods - paste object from the clipboard SALOMEDS::SObject_ptr PasteInto( const SALOMEDS::TMPFile& theStream, CORBA::Long theObjectID, SALOMEDS::SObject_ptr theObject ) { SALOMEDS::SObject_var aResultSO; return aResultSO._retn(); } // ============ // Version information // ============ virtual char* getVersion(); // ============ // Dump python // ============ virtual Engines::TMPFile* DumpPython(CORBA::Object_ptr theStudy, CORBA::Boolean isPublished, CORBA::Boolean isMultiFile, CORBA::Boolean& isValidScript); void AddToPythonScript (int theStudyID, const TCollection_AsciiString& theString); void RemoveLastFromPythonScript (int theStudyID); void SavePython (SALOMEDS::Study_ptr theStudy); TCollection_AsciiString DumpPython_impl (SALOMEDS::Study_ptr theStudy, Resource_DataMapOfAsciiStringAsciiString& theObjectNames, Resource_DataMapOfAsciiStringAsciiString& theNames, bool isPublished, bool isMultiFile, bool isHistoricalDump, bool& aValidScript, TCollection_AsciiString& theSavedTrace); TCollection_AsciiString GetNewPythonLines (int theStudyID); void CleanPythonTrace (int theStudyID); // SIMAN-related functions (check out/check in) : import data to study virtual Engines::ListOfIdentifiers* importData(CORBA::Long studyId, Engines::DataContainer_ptr data, const Engines::ListOfOptions& options); // SIMAN-related functions (check out/check in) : get modified data virtual Engines::ListOfData* getModifiedData(CORBA::Long studyId); // ***************************************** // Internal methods // ***************************************** public: // Get shape reader GEOM_Client* GetShapeReader(); // Tags definition static long GetHypothesisRootTag(); static long GetAlgorithmsRootTag(); static long GetRefOnShapeTag(); static long GetRefOnAppliedHypothesisTag(); static long GetRefOnAppliedAlgorithmsTag(); static long GetSubMeshOnVertexTag(); static long GetSubMeshOnEdgeTag(); static long GetSubMeshOnFaceTag(); static long GetSubMeshOnSolidTag(); static long GetSubMeshOnCompoundTag(); static long GetSubMeshOnWireTag(); static long GetSubMeshOnShellTag(); static long GetNodeGroupsTag(); static long GetEdgeGroupsTag(); static long GetFaceGroupsTag(); static long GetVolumeGroupsTag(); static long Get0DElementsGroupsTag(); static long GetBallElementsGroupsTag(); // publishing methods SALOMEDS::SComponent_ptr PublishComponent(SALOMEDS::Study_ptr theStudy); SALOMEDS::SObject_ptr PublishMesh (SALOMEDS::Study_ptr theStudy, SMESH::SMESH_Mesh_ptr theMesh, const char* theName = 0); SALOMEDS::SObject_ptr PublishHypothesis (SALOMEDS::Study_ptr theStudy, SMESH::SMESH_Hypothesis_ptr theHyp, const char* theName = 0); SALOMEDS::SObject_ptr PublishSubMesh (SALOMEDS::Study_ptr theStudy, SMESH::SMESH_Mesh_ptr theMesh, SMESH::SMESH_subMesh_ptr theSubMesh, GEOM::GEOM_Object_ptr theShapeObject, const char* theName = 0); SALOMEDS::SObject_ptr PublishGroup (SALOMEDS::Study_ptr theStudy, SMESH::SMESH_Mesh_ptr theMesh, SMESH::SMESH_GroupBase_ptr theGroup, GEOM::GEOM_Object_ptr theShapeObject, const char* theName = 0); bool AddHypothesisToShape(SALOMEDS::Study_ptr theStudy, SMESH::SMESH_Mesh_ptr theMesh, GEOM::GEOM_Object_ptr theShapeObject, SMESH::SMESH_Hypothesis_ptr theHyp); bool RemoveHypothesisFromShape(SALOMEDS::Study_ptr theStudy, SMESH::SMESH_Mesh_ptr theMesh, GEOM::GEOM_Object_ptr theShapeObject, SMESH::SMESH_Hypothesis_ptr theHyp); SALOMEDS::SObject_ptr GetMeshOrSubmeshByShape (SALOMEDS::Study_ptr theStudy, SMESH::SMESH_Mesh_ptr theMesh, GEOM::GEOM_Object_ptr theShape); static void SetName(SALOMEDS::SObject_ptr theSObject, const char* theName, const char* theDefaultName = 0); static void SetPixMap(SALOMEDS::SObject_ptr theSObject, const char* thePixMap); // Get study context StudyContext* GetCurrentStudyContext(); // Register an object in a StudyContext; return object id int RegisterObject(CORBA::Object_ptr theObject); // Return id of registered object CORBA::Long GetObjectId(CORBA::Object_ptr theObject); // Return an object that previously had an oldID template typename TInterface::_var_type GetObjectByOldId( const int oldID ) { if ( StudyContext* myStudyContext = GetCurrentStudyContext() ) { string ior = myStudyContext->getIORbyOldId( oldID ); if ( !ior.empty() ) return TInterface::_narrow(GetORB()->string_to_object( ior.c_str() )); } return TInterface::_nil(); } // Get current study ID int GetCurrentStudyID(); /*! * \brief Find SObject for an algo */ SALOMEDS::SObject_ptr GetAlgoSO(const ::SMESH_Algo* algo); void UpdateParameters(CORBA::Object_ptr theObject, const char* theParameters); char* GetParameters(CORBA::Object_ptr theObject); //char* ParseParameters(const char* theParameters); const std::vector< int >& GetLastParamIndices() const { return myLastParamIndex; } const std::vector< std::string >& GetLastParameters() const { return myLastParameters; } const std::string & GetLastObjEntry() const { return myLastObj; } std::vector< std::string > GetAllParameters(const std::string& theObjectEntry) const; // Move objects to the specified position void Move( const SMESH::sobject_list& what, SALOMEDS::SObject_ptr where, CORBA::Long row ); CORBA::Boolean IsApplicable ( const char* theAlgoType, const char* theLibName, GEOM::GEOM_Object_ptr theShapeObject, CORBA::Boolean toCheckAll); private: // Get hypothesis creator GenericHypothesisCreator_i* getHypothesisCreator( const char* theHypName, const char* theLibName, std::string& thePlatformLibName) throw ( SALOME::SALOME_Exception ); // Create hypothesis of given type SMESH::SMESH_Hypothesis_ptr createHypothesis( const char* theHypName, const char* theLibName); // Create empty mesh on shape SMESH::SMESH_Mesh_ptr createMesh() throw ( SALOME::SALOME_Exception ); static void loadGeomData( SALOMEDS::SComponent_ptr theCompRoot ); SMESH::mesh_array* CreateMeshesFromMEDorSAUV( const char* theFileName, SMESH::DriverMED_ReadStatus& theStatus, const char* theCommandNameForPython, const char* theFileNameForPython); void setCurrentStudy( SALOMEDS::Study_ptr theStudy, bool theStudyIsBeingClosed=false); private: static GEOM::GEOM_Gen_var myGeomGen; static CORBA::ORB_var myOrb; // ORB reference static PortableServer::POA_var myPoa; // POA reference static SALOME_NamingService* myNS; // Naming Service static SALOME_LifeCycleCORBA* myLCC; // Life Cycle CORBA static SMESH_Gen_i* mySMESHGen; // Point to last created instance of the class ::SMESH_Gen myGen; // SMESH_Gen local implementation // hypotheses managing map myHypCreatorMap; map myStudyContextMap; // Map of study context objects GEOM_Client* myShapeReader; // Shape reader SALOMEDS::Study_var myCurrentStudy; // Current study CORBA::Boolean myIsEmbeddedMode; // Current mode // To load full mesh data from study at hyp modification or not bool myToForgetMeshDataOnHypModif; // Dump Python: trace of API methods calls std::map < int, Handle(TColStd_HSequenceOfAsciiString) > myPythonScripts; bool myIsHistoricalPythonDump; std::vector< int > myLastParamIndex; std::vector< std::string > myLastParameters; std::string myLastObj; int myImportedStudyId; // SIMAN: identifier of the imported in importData study to keep no-modifiection flag for getModifiedData method int myImportedStudyChanged; // SIMAN: flag that indicates that the imported study has been changed (by creation of the additional mesh) }; namespace SMESH { template T DownCast(CORBA::Object_ptr theArg) { return dynamic_cast(SMESH_Gen_i::GetServant(theArg).in()); } /*! * \brief Function used in SMESH_CATCH to convert a caught exception to * SALOME::SALOME_Exception */ inline void throwCorbaException(const char* excText) { THROW_SALOME_CORBA_EXCEPTION( excText, SALOME::INTERNAL_ERROR ); } } #endif