// 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_MeshEditor_i.cxx // Author : Nicolas REJNERI // Module : SMESH #ifdef WIN32 #define NOMINMAX #endif // A macro used in SMESH_TryCatch.hxx, // it re-raises a CORBA SALOME exception thrown by SMESH_MeshEditor_i and caught by SMESH_CATCH #define SMY_OWN_CATCH \ catch ( SALOME::SALOME_Exception & e ) { throw e; } #include "SMESH_MeshEditor_i.hxx" #include "SMDS_EdgePosition.hxx" #include "SMDS_ElemIterator.hxx" #include "SMDS_FacePosition.hxx" #include "SMDS_IteratorOnIterators.hxx" #include "SMDS_LinearEdge.hxx" #include "SMDS_Mesh0DElement.hxx" #include "SMDS_MeshFace.hxx" #include "SMDS_MeshVolume.hxx" #include "SMDS_PolyhedralVolumeOfNodes.hxx" #include "SMDS_SetIterator.hxx" #include "SMDS_VolumeTool.hxx" #include "SMESHDS_Group.hxx" #include "SMESHDS_GroupOnGeom.hxx" #include "SMESH_ControlsDef.hxx" #include "SMESH_Filter_i.hxx" #include "SMESH_Gen_i.hxx" #include "SMESH_Group.hxx" #include "SMESH_Group_i.hxx" #include "SMESH_MeshAlgos.hxx" #include "SMESH_MeshPartDS.hxx" #include "SMESH_MesherHelper.hxx" #include "SMESH_PythonDump.hxx" #include "SMESH_subMeshEventListener.hxx" #include "SMESH_subMesh_i.hxx" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #if (OCC_VERSION_MAJOR << 16 | OCC_VERSION_MINOR << 8 | OCC_VERSION_MAINTENANCE) > 0x060100 #define NO_CAS_CATCH #endif #include #ifdef NO_CAS_CATCH #include #endif #include #include #include "SMESH_TryCatch.hxx" // include after OCCT headers! #define cast2Node(elem) static_cast( elem ) using namespace std; using SMESH::TPythonDump; using SMESH::TVar; namespace MeshEditor_I { //============================================================================= /*! * \brief Mesh to apply modifications for preview purposes */ //============================================================================= struct TPreviewMesh: public SMESH_Mesh { SMDSAbs_ElementType myPreviewType; // type to show //!< Constructor TPreviewMesh(SMDSAbs_ElementType previewElements = SMDSAbs_All) { _isShapeToMesh = (_id =_studyId = 0); _myMeshDS = new SMESHDS_Mesh( _id, true ); myPreviewType = previewElements; } //!< Destructor virtual ~TPreviewMesh() { delete _myMeshDS; _myMeshDS = 0; } //!< Copy a set of elements void Copy(const TIDSortedElemSet & theElements, TIDSortedElemSet& theCopyElements, SMDSAbs_ElementType theSelectType = SMDSAbs_All, SMDSAbs_ElementType theAvoidType = SMDSAbs_All) { // loop on theIDsOfElements TIDSortedElemSet::const_iterator eIt = theElements.begin(); for ( ; eIt != theElements.end(); ++eIt ) { const SMDS_MeshElement* anElem = *eIt; if ( !anElem ) continue; SMDSAbs_ElementType type = anElem->GetType(); if ( type == theAvoidType || ( theSelectType != SMDSAbs_All && type != theSelectType )) continue; const SMDS_MeshElement* anElemCopy; if ( type == SMDSAbs_Node) anElemCopy = Copy( cast2Node(anElem) ); else anElemCopy = Copy( anElem ); if ( anElemCopy ) theCopyElements.insert( theCopyElements.end(), anElemCopy ); } } //!< Copy an element SMDS_MeshElement* Copy( const SMDS_MeshElement* anElem ) { // copy element nodes int anElemNbNodes = anElem->NbNodes(); vector< int > anElemNodesID( anElemNbNodes ) ; SMDS_ElemIteratorPtr itElemNodes = anElem->nodesIterator(); for ( int i = 0; itElemNodes->more(); i++) { const SMDS_MeshNode* anElemNode = cast2Node( itElemNodes->next() ); Copy( anElemNode ); anElemNodesID[i] = anElemNode->GetID(); } // creates a corresponding element on copied nodes SMDS_MeshElement* anElemCopy = 0; if ( anElem->IsPoly() && anElem->GetType() == SMDSAbs_Volume ) { const SMDS_VtkVolume* ph = dynamic_cast (anElem); if ( ph ) anElemCopy = _myMeshDS->AddPolyhedralVolumeWithID (anElemNodesID, ph->GetQuantities(),anElem->GetID()); } else { anElemCopy = ::SMESH_MeshEditor(this).AddElement( anElemNodesID, anElem->GetType(), anElem->IsPoly() ); } return anElemCopy; } //!< Copy a node SMDS_MeshNode* Copy( const SMDS_MeshNode* anElemNode ) { return _myMeshDS->AddNodeWithID(anElemNode->X(), anElemNode->Y(), anElemNode->Z(), anElemNode->GetID()); } void RemoveAll() { GetMeshDS()->ClearMesh(); } };// struct TPreviewMesh static SMESH_NodeSearcher * theNodeSearcher = 0; static SMESH_ElementSearcher * theElementSearcher = 0; //============================================================================= /*! * \brief Deleter of theNodeSearcher at any compute event occured */ //============================================================================= struct TSearchersDeleter : public SMESH_subMeshEventListener { SMESH_Mesh* myMesh; string myMeshPartIOR; //!< Constructor TSearchersDeleter(): SMESH_subMeshEventListener( false, // won't be deleted by submesh "SMESH_MeshEditor_i::TSearchersDeleter"), myMesh(0) {} //!< Delete theNodeSearcher static void Delete() { if ( theNodeSearcher ) delete theNodeSearcher; theNodeSearcher = 0; if ( theElementSearcher ) delete theElementSearcher; theElementSearcher = 0; } typedef map < int, SMESH_subMesh * > TDependsOnMap; //!< The meshod called by submesh: do my main job void ProcessEvent(const int, const int eventType, SMESH_subMesh* sm, SMESH_subMeshEventListenerData*,const SMESH_Hypothesis*) { if ( eventType == SMESH_subMesh::COMPUTE_EVENT ) { Delete(); Unset( sm->GetFather() ); } } //!< set self on all submeshes and delete theNodeSearcher if other mesh is set void Set(SMESH_Mesh* mesh, const string& meshPartIOR = string()) { if ( myMesh != mesh || myMeshPartIOR != meshPartIOR) { if ( myMesh ) { Delete(); Unset( myMesh ); } myMesh = mesh; myMeshPartIOR = meshPartIOR; SMESH_subMesh* sm = mesh->GetSubMesh( mesh->GetShapeToMesh() ); SMESH_subMeshIteratorPtr smIt = sm->getDependsOnIterator( /*includeSelf=*/true ); while ( smIt->more() ) { sm = smIt->next(); sm->SetEventListener( this, 0, sm ); } } } //!< delete self from all submeshes void Unset(SMESH_Mesh* mesh) { if ( SMESH_subMesh* sm = mesh->GetSubMeshContaining(1) ) { SMESH_subMeshIteratorPtr smIt = sm->getDependsOnIterator( /*includeSelf=*/true ); while ( smIt->more() ) smIt->next()->DeleteEventListener( this ); } myMesh = 0; } } theSearchersDeleter; TCollection_AsciiString mirrorTypeName( SMESH::SMESH_MeshEditor::MirrorType theMirrorType ) { TCollection_AsciiString typeStr; switch ( theMirrorType ) { case SMESH::SMESH_MeshEditor::POINT: typeStr = "SMESH.SMESH_MeshEditor.POINT"; break; case SMESH::SMESH_MeshEditor::AXIS: typeStr = "SMESH.SMESH_MeshEditor.AXIS"; break; default: typeStr = "SMESH.SMESH_MeshEditor.PLANE"; } return typeStr; } //================================================================================ /*! * \brief function for conversion of long_array to TIDSortedElemSet * \param IDs - array of IDs * \param aMesh - mesh * \param aMap - collection to fill * \param aType - element type */ //================================================================================ void arrayToSet(const SMESH::long_array & IDs, const SMESHDS_Mesh* aMesh, TIDSortedElemSet& aMap, const SMDSAbs_ElementType aType = SMDSAbs_All, SMDS_MeshElement::Filter* aFilter = NULL) { SMDS_MeshElement::NonNullFilter filter1; SMDS_MeshElement::TypeFilter filter2( aType ); if ( aFilter == NULL ) aFilter = ( aType == SMDSAbs_All ) ? (SMDS_MeshElement::Filter*) &filter1 : (SMDS_MeshElement::Filter*) &filter2; SMDS_MeshElement::Filter & filter = *aFilter; if ( aType == SMDSAbs_Node ) for (int i=0; iFindNode( IDs[i] ); if ( filter( elem )) aMap.insert( aMap.end(), elem ); } else for (int i=0; iFindElement( IDs[i] ); if ( filter( elem )) aMap.insert( aMap.end(), elem ); } } //================================================================================ /*! * \brief Retrieve elements of given type from SMESH_IDSource */ //================================================================================ enum IDSource_Error { IDSource_OK, IDSource_INVALID, IDSource_EMPTY }; bool idSourceToSet(SMESH::SMESH_IDSource_ptr theIDSource, const SMESHDS_Mesh* theMeshDS, TIDSortedElemSet& theElemSet, const SMDSAbs_ElementType theType, const bool emptyIfIsMesh = false, IDSource_Error* error = 0) { if ( error ) *error = IDSource_OK; if ( CORBA::is_nil( theIDSource ) ) { if ( error ) *error = IDSource_INVALID; return false; } if ( emptyIfIsMesh && SMESH::DownCast( theIDSource )) { if ( error && theMeshDS->GetMeshInfo().NbElements( theType ) == 0 ) *error = IDSource_EMPTY; return true; } SMESH::long_array_var anIDs = theIDSource->GetIDs(); if ( anIDs->length() == 0 ) { if ( error ) *error = IDSource_EMPTY; return false; } SMESH::array_of_ElementType_var types = theIDSource->GetTypes(); if ( types->length() == 1 && types[0] == SMESH::NODE ) // group of nodes { if ( theType == SMDSAbs_All || theType == SMDSAbs_Node ) { arrayToSet( anIDs, theMeshDS, theElemSet, SMDSAbs_Node ); } else { if ( error ) *error = IDSource_INVALID; return false; } } else { arrayToSet( anIDs, theMeshDS, theElemSet, theType); if ( bool(anIDs->length()) != bool(theElemSet.size())) { if ( error ) *error = IDSource_INVALID; return false; } } return true; } //================================================================================ /*! * \brief Retrieve nodes from SMESH_IDSource */ //================================================================================ void idSourceToNodeSet(SMESH::SMESH_IDSource_ptr theObject, const SMESHDS_Mesh* theMeshDS, TIDSortedNodeSet& theNodeSet) { if ( CORBA::is_nil( theObject ) ) return; SMESH::array_of_ElementType_var types = theObject->GetTypes(); SMESH::long_array_var aElementsId = theObject->GetIDs(); if ( types->length() == 1 && types[0] == SMESH::NODE) { for(int i = 0; i < aElementsId->length(); i++) if ( const SMDS_MeshNode * n = theMeshDS->FindNode( aElementsId[i] )) theNodeSet.insert( theNodeSet.end(), n); } else if ( SMESH::DownCast( theObject )) { SMDS_NodeIteratorPtr nIt = theMeshDS->nodesIterator(); while ( nIt->more( )) if( const SMDS_MeshElement * elem = nIt->next() ) theNodeSet.insert( elem->begin_nodes(), elem->end_nodes()); } else { for(int i = 0; i < aElementsId->length(); i++) if( const SMDS_MeshElement * elem = theMeshDS->FindElement( aElementsId[i] )) theNodeSet.insert( elem->begin_nodes(), elem->end_nodes()); } } //================================================================================ /*! * \brief Returns elements connected to the given elements */ //================================================================================ void getElementsAround(const TIDSortedElemSet& theElements, const SMESHDS_Mesh* theMeshDS, TIDSortedElemSet& theElementsAround) { if ( theElements.empty() ) return; SMDSAbs_ElementType elemType = (*theElements.begin())->GetType(); bool sameElemType = ( elemType == (*theElements.rbegin())->GetType() ); if ( sameElemType && theMeshDS->GetMeshInfo().NbElements( elemType ) == theElements.size() ) return; // all the elements are in theElements if ( !sameElemType ) elemType = SMDSAbs_All; vector isNodeChecked( theMeshDS->NbNodes(), false ); TIDSortedElemSet::const_iterator elemIt = theElements.begin(); for ( ; elemIt != theElements.end(); ++elemIt ) { const SMDS_MeshElement* e = *elemIt; int i = e->NbCornerNodes(); while ( --i != -1 ) { const SMDS_MeshNode* n = e->GetNode( i ); if ( !isNodeChecked[ n->GetID() ]) { isNodeChecked[ n->GetID() ] = true; SMDS_ElemIteratorPtr invIt = n->GetInverseElementIterator(elemType); while ( invIt->more() ) { const SMDS_MeshElement* elemAround = invIt->next(); if ( !theElements.count( elemAround )) theElementsAround.insert( elemAround ); } } } } } //================================================================================ /*! * \brief Return a string used to detect change of mesh part on which theElementSearcher * is going to be used */ //================================================================================ string getPartIOR( SMESH::SMESH_IDSource_ptr theMeshPart, SMESH::ElementType type) { string partIOR = SMESH_Gen_i::GetORB()->object_to_string( theMeshPart ); if ( SMESH_Group_i* group_i = SMESH::DownCast( theMeshPart )) // take into account passible group modification partIOR += SMESH_Comment( ((SMESHDS_Group*)group_i->GetGroupDS())->SMDSGroup().Tic() ); partIOR += SMESH_Comment( type ); return partIOR; } } // namespace MeshEditor_I using namespace MeshEditor_I; //============================================================================= /*! * */ //============================================================================= SMESH_MeshEditor_i::SMESH_MeshEditor_i(SMESH_Mesh_i* theMesh, bool isPreview): myMesh_i( theMesh ), myMesh( &theMesh->GetImpl() ), myEditor( myMesh ), myIsPreviewMode ( isPreview ), myPreviewMesh( 0 ), myPreviewEditor( 0 ) { } //================================================================================ /*! * \brief Destructor */ //================================================================================ SMESH_MeshEditor_i::~SMESH_MeshEditor_i() { PortableServer::POA_var poa = SMESH_Gen_i::GetPOA(); PortableServer::ObjectId_var anObjectId = poa->servant_to_id(this); poa->deactivate_object(anObjectId.in()); //deleteAuxIDSources(); delete myPreviewMesh; myPreviewMesh = 0; delete myPreviewEditor; myPreviewEditor = 0; } //================================================================================ /*! * \brief Clear members */ //================================================================================ void SMESH_MeshEditor_i::initData(bool deleteSearchers) { if ( myIsPreviewMode ) { if ( myPreviewMesh ) myPreviewMesh->RemoveAll(); } else { if ( deleteSearchers ) TSearchersDeleter::Delete(); } getEditor().GetError().reset(); getEditor().CrearLastCreated(); } //================================================================================ /*! * \brief Increment mesh modif time and optionally record that the performed * modification may influence futher mesh re-compute. * \param [in] isReComputeSafe - true if the modification does not infulence * futher mesh re-compute */ //================================================================================ void SMESH_MeshEditor_i::declareMeshModified( bool isReComputeSafe ) { myMesh->GetMeshDS()->Modified(); if ( !isReComputeSafe ) myMesh->SetIsModified( true ); } //================================================================================ /*! * \brief Return either myEditor or myPreviewEditor depending on myIsPreviewMode. * WARNING: in preview mode call getPreviewMesh() before getEditor()! */ //================================================================================ ::SMESH_MeshEditor& SMESH_MeshEditor_i::getEditor() { if ( myIsPreviewMode && !myPreviewEditor ) { if ( !myPreviewMesh ) getPreviewMesh(); myPreviewEditor = new ::SMESH_MeshEditor( myPreviewMesh ); } return myIsPreviewMode ? *myPreviewEditor : myEditor; } //================================================================================ /*! * \brief Initialize and return myPreviewMesh * \param previewElements - type of elements to show in preview * * WARNING: call it once par a method! */ //================================================================================ TPreviewMesh * SMESH_MeshEditor_i::getPreviewMesh(SMDSAbs_ElementType previewElements) { if ( !myPreviewMesh || myPreviewMesh->myPreviewType != previewElements ) { delete myPreviewEditor; myPreviewEditor = 0; delete myPreviewMesh; myPreviewMesh = new TPreviewMesh( previewElements ); } myPreviewMesh->Clear(); return myPreviewMesh; } //================================================================================ /*! * Return data of mesh edition preview */ //================================================================================ SMESH::MeshPreviewStruct* SMESH_MeshEditor_i::GetPreviewData() throw (SALOME::SALOME_Exception) { SMESH_TRY; const bool hasBadElems = ( getEditor().GetError() && getEditor().GetError()->HasBadElems() ); if ( myIsPreviewMode || hasBadElems ) { // --- MeshPreviewStruct filling --- list aNodesConnectivity; typedef map TNodesMap; TNodesMap nodesMap; SMESHDS_Mesh* aMeshDS; std::auto_ptr< SMESH_MeshPartDS > aMeshPartDS; if ( hasBadElems ) { aMeshPartDS.reset( new SMESH_MeshPartDS( getEditor().GetError()->myBadElements )); aMeshDS = aMeshPartDS.get(); } else { aMeshDS = getEditor().GetMeshDS(); } myPreviewData = new SMESH::MeshPreviewStruct(); myPreviewData->nodesXYZ.length(aMeshDS->NbNodes()); SMDSAbs_ElementType previewType = SMDSAbs_All; if ( !hasBadElems ) if (TPreviewMesh * aPreviewMesh = dynamic_cast< TPreviewMesh* >( getEditor().GetMesh() )) { previewType = aPreviewMesh->myPreviewType; switch ( previewType ) { case SMDSAbs_Edge : break; case SMDSAbs_Face : break; case SMDSAbs_Volume: break; default:; if ( aMeshDS->GetMeshInfo().NbElements() == 0 ) previewType = SMDSAbs_Node; } } myPreviewData->elementTypes.length( aMeshDS->GetMeshInfo().NbElements( previewType )); int i = 0, j = 0; SMDS_ElemIteratorPtr itMeshElems = aMeshDS->elementsIterator(previewType); while ( itMeshElems->more() ) { const SMDS_MeshElement* aMeshElem = itMeshElems->next(); SMDS_NodeIteratorPtr itElemNodes = aMeshElem->nodeIterator(); while ( itElemNodes->more() ) { const SMDS_MeshNode* aMeshNode = itElemNodes->next(); int aNodeID = aMeshNode->GetID(); TNodesMap::iterator anIter = nodesMap.find(aNodeID); if ( anIter == nodesMap.end() ) { // filling the nodes coordinates myPreviewData->nodesXYZ[j].x = aMeshNode->X(); myPreviewData->nodesXYZ[j].y = aMeshNode->Y(); myPreviewData->nodesXYZ[j].z = aMeshNode->Z(); anIter = nodesMap.insert( make_pair(aNodeID, j) ).first; j++; } aNodesConnectivity.push_back(anIter->second); } // filling the elements types SMDSAbs_ElementType aType = aMeshElem->GetType(); bool isPoly = aMeshElem->IsPoly(); myPreviewData->elementTypes[i].SMDS_ElementType = (SMESH::ElementType) aType; myPreviewData->elementTypes[i].isPoly = isPoly; myPreviewData->elementTypes[i].nbNodesInElement = aMeshElem->NbNodes(); i++; } myPreviewData->nodesXYZ.length( j ); // filling the elements connectivities list::iterator aConnIter = aNodesConnectivity.begin(); myPreviewData->elementConnectivities.length(aNodesConnectivity.size()); for( int i = 0; aConnIter != aNodesConnectivity.end(); aConnIter++, i++ ) myPreviewData->elementConnectivities[i] = *aConnIter; } return myPreviewData._retn(); SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //================================================================================ /*! * \brief Returns list of it's IDs of created nodes * \retval SMESH::long_array* - list of node ID */ //================================================================================ SMESH::long_array* SMESH_MeshEditor_i::GetLastCreatedNodes() throw (SALOME::SALOME_Exception) { SMESH_TRY; SMESH::long_array_var myLastCreatedNodes = new SMESH::long_array(); const SMESH_SequenceOfElemPtr& aSeq = getEditor().GetLastCreatedNodes(); myLastCreatedNodes->length( aSeq.Length() ); for (int i = 1; i <= aSeq.Length(); i++) myLastCreatedNodes[i-1] = aSeq.Value(i)->GetID(); return myLastCreatedNodes._retn(); SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //================================================================================ /*! * \brief Returns list of it's IDs of created elements * \retval SMESH::long_array* - list of elements' ID */ //================================================================================ SMESH::long_array* SMESH_MeshEditor_i::GetLastCreatedElems() throw (SALOME::SALOME_Exception) { SMESH_TRY; SMESH::long_array_var myLastCreatedElems = new SMESH::long_array(); const SMESH_SequenceOfElemPtr& aSeq = getEditor().GetLastCreatedElems(); myLastCreatedElems->length( aSeq.Length() ); for ( int i = 1; i <= aSeq.Length(); i++ ) myLastCreatedElems[i-1] = aSeq.Value(i)->GetID(); return myLastCreatedElems._retn(); SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //======================================================================= //function : ClearLastCreated //purpose : Clears sequences of last created elements and nodes //======================================================================= void SMESH_MeshEditor_i::ClearLastCreated() throw (SALOME::SALOME_Exception) { SMESH_TRY; getEditor().CrearLastCreated(); SMESH_CATCH( SMESH::throwCorbaException ); } //======================================================================= /* * Returns description of an error/warning occured during the last operation * WARNING: ComputeError.code >= 100 and no corresponding enum in IDL API */ //======================================================================= SMESH::ComputeError* SMESH_MeshEditor_i::GetLastError() throw (SALOME::SALOME_Exception) { SMESH_TRY; SMESH::ComputeError_var errOut = new SMESH::ComputeError; SMESH_ComputeErrorPtr& errIn = getEditor().GetError(); if ( errIn && !errIn->IsOK() ) { errOut->code = -( errIn->myName < 0 ? errIn->myName + 1: errIn->myName ); // -1 -> 0 errOut->comment = errIn->myComment.c_str(); errOut->subShapeID = -1; errOut->hasBadMesh = !errIn->myBadElements.empty(); } else { errOut->code = 0; errOut->subShapeID = -1; errOut->hasBadMesh = false; } return errOut._retn(); SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //======================================================================= //function : MakeIDSource //purpose : Wrap a sequence of ids in a SMESH_IDSource. // Call UnRegister() as you fininsh using it!! //======================================================================= struct SMESH_MeshEditor_i::_IDSource : public virtual POA_SMESH::SMESH_IDSource, public virtual SALOME::GenericObj_i { SMESH::long_array _ids; SMESH::ElementType _type; SMESH::SMESH_Mesh_ptr _mesh; SMESH::long_array* GetIDs() { return new SMESH::long_array( _ids ); } SMESH::long_array* GetMeshInfo() { return 0; } SMESH::long_array* GetNbElementsByType() { SMESH::long_array_var aRes = new SMESH::long_array(); aRes->length(SMESH::NB_ELEMENT_TYPES); for (int i = 0; i < SMESH::NB_ELEMENT_TYPES; i++) aRes[ i ] = ( i == _type ) ? _ids.length() : 0; return aRes._retn(); } SMESH::SMESH_Mesh_ptr GetMesh() { return SMESH::SMESH_Mesh::_duplicate( _mesh ); } bool IsMeshInfoCorrect() { return true; } SMESH::array_of_ElementType* GetTypes() { SMESH::array_of_ElementType_var types = new SMESH::array_of_ElementType; if ( _ids.length() > 0 ) { types->length( 1 ); types[0] = _type; } return types._retn(); } SALOMEDS::TMPFile* GetVtkUgStream() { SALOMEDS::TMPFile_var SeqFile; return SeqFile._retn(); } }; SMESH::SMESH_IDSource_ptr SMESH_MeshEditor_i::MakeIDSource(const SMESH::long_array& ids, SMESH::ElementType type) { _IDSource* idSrc = new _IDSource; idSrc->_mesh = myMesh_i->_this(); idSrc->_ids = ids; idSrc->_type = type; if ( type == SMESH::ALL && ids.length() > 0 ) idSrc->_type = myMesh_i->GetElementType( ids[0], true ); SMESH::SMESH_IDSource_var anIDSourceVar = idSrc->_this(); return anIDSourceVar._retn(); } bool SMESH_MeshEditor_i::IsTemporaryIDSource( SMESH::SMESH_IDSource_ptr& idSource ) { return SMESH::DownCast( idSource ); } CORBA::Long* SMESH_MeshEditor_i::GetTemporaryIDs( SMESH::SMESH_IDSource_ptr& idSource, int& nbIds) { if ( _IDSource* tmpIdSource = SMESH::DownCast( idSource )) { nbIds = (int) tmpIdSource->_ids.length(); return & tmpIdSource->_ids[0]; } nbIds = 0; return 0; } // void SMESH_MeshEditor_i::deleteAuxIDSources() // { // std::list< _IDSource* >::iterator idSrcIt = myAuxIDSources.begin(); // for ( ; idSrcIt != myAuxIDSources.end(); ++idSrcIt ) // delete *idSrcIt; // myAuxIDSources.clear(); // } //============================================================================= /*! * */ //============================================================================= CORBA::Boolean SMESH_MeshEditor_i::RemoveElements(const SMESH::long_array & IDsOfElements) throw (SALOME::SALOME_Exception) { SMESH_TRY; initData(); list< int > IdList; for (int i = 0; i < IDsOfElements.length(); i++) IdList.push_back( IDsOfElements[i] ); // Update Python script TPythonDump() << "isDone = " << this << ".RemoveElements( " << IDsOfElements << " )"; // Remove Elements bool ret = getEditor().Remove( IdList, false ); declareMeshModified( /*isReComputeSafe=*/ IDsOfElements.length() == 0 ); // issue 0020693 return ret; SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //============================================================================= /*! * */ //============================================================================= CORBA::Boolean SMESH_MeshEditor_i::RemoveNodes(const SMESH::long_array & IDsOfNodes) throw (SALOME::SALOME_Exception) { SMESH_TRY; initData(); list< int > IdList; for (int i = 0; i < IDsOfNodes.length(); i++) IdList.push_back( IDsOfNodes[i] ); // Update Python script TPythonDump() << "isDone = " << this << ".RemoveNodes( " << IDsOfNodes << " )"; bool ret = getEditor().Remove( IdList, true ); declareMeshModified( /*isReComputeSafe=*/ !ret ); // issue 0020693 return ret; SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //============================================================================= /*! * */ //============================================================================= CORBA::Long SMESH_MeshEditor_i::RemoveOrphanNodes() throw (SALOME::SALOME_Exception) { SMESH_TRY; initData(); // Update Python script TPythonDump() << "nbRemoved = " << this << ".RemoveOrphanNodes()"; // Create filter to find all orphan nodes SMESH::Controls::Filter::TIdSequence seq; SMESH::Controls::PredicatePtr predicate( new SMESH::Controls::FreeNodes() ); SMESH::Controls::Filter::GetElementsId( getMeshDS(), predicate, seq ); // remove orphan nodes (if there are any) list< int > IdList; for ( int i = 0; i < seq.size(); i++ ) IdList.push_back( seq[i] ); int nbNodesBefore = myMesh->NbNodes(); getEditor().Remove( IdList, true ); int nbNodesAfter = myMesh->NbNodes(); declareMeshModified( /*isReComputeSafe=*/ IdList.size() == 0 ); // issue 0020693 return nbNodesBefore - nbNodesAfter; SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //============================================================================= /*! * Add a new node. */ //============================================================================= CORBA::Long SMESH_MeshEditor_i::AddNode(CORBA::Double x,CORBA::Double y, CORBA::Double z) throw (SALOME::SALOME_Exception) { SMESH_TRY; initData(); const SMDS_MeshNode* N = getMeshDS()->AddNode(x, y, z); // Update Python script TPythonDump() << "nodeID = " << this << ".AddNode( " << TVar( x ) << ", " << TVar( y ) << ", " << TVar( z )<< " )"; declareMeshModified( /*isReComputeSafe=*/false ); return N->GetID(); SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //============================================================================= /*! * Create 0D element on the given node. */ //============================================================================= CORBA::Long SMESH_MeshEditor_i::Add0DElement(CORBA::Long IDOfNode) throw (SALOME::SALOME_Exception) { SMESH_TRY; initData(); const SMDS_MeshNode* aNode = getMeshDS()->FindNode(IDOfNode); SMDS_MeshElement* elem = getMeshDS()->Add0DElement(aNode); // Update Python script TPythonDump() << "elem0d = " << this << ".Add0DElement( " << IDOfNode <<" )"; declareMeshModified( /*isReComputeSafe=*/false ); return elem ? elem->GetID() : 0; SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //============================================================================= /*! * Create a ball element on the given node. */ //============================================================================= CORBA::Long SMESH_MeshEditor_i::AddBall(CORBA::Long IDOfNode, CORBA::Double diameter) throw (SALOME::SALOME_Exception) { SMESH_TRY; initData(); if ( diameter < std::numeric_limits::min() ) THROW_SALOME_CORBA_EXCEPTION("Invalid diameter", SALOME::BAD_PARAM); const SMDS_MeshNode* aNode = getMeshDS()->FindNode(IDOfNode); SMDS_MeshElement* elem = getMeshDS()->AddBall(aNode, diameter); // Update Python script TPythonDump() << "ballElem = " << this << ".AddBall( " << IDOfNode << ", " << diameter <<" )"; declareMeshModified( /*isReComputeSafe=*/false ); return elem ? elem->GetID() : 0; SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //============================================================================= /*! * Create an edge, either linear and quadratic (this is determed * by number of given nodes, two or three) */ //============================================================================= CORBA::Long SMESH_MeshEditor_i::AddEdge(const SMESH::long_array & IDsOfNodes) throw (SALOME::SALOME_Exception) { SMESH_TRY; initData(); int NbNodes = IDsOfNodes.length(); SMDS_MeshElement* elem = 0; if (NbNodes == 2) { CORBA::Long index1 = IDsOfNodes[0]; CORBA::Long index2 = IDsOfNodes[1]; elem = getMeshDS()->AddEdge( getMeshDS()->FindNode(index1), getMeshDS()->FindNode(index2)); // Update Python script TPythonDump() << "edge = " << this << ".AddEdge([ " << index1 << ", " << index2 <<" ])"; } if (NbNodes == 3) { CORBA::Long n1 = IDsOfNodes[0]; CORBA::Long n2 = IDsOfNodes[1]; CORBA::Long n12 = IDsOfNodes[2]; elem = getMeshDS()->AddEdge( getMeshDS()->FindNode(n1), getMeshDS()->FindNode(n2), getMeshDS()->FindNode(n12)); // Update Python script TPythonDump() << "edgeID = " << this << ".AddEdge([ " <GetID() : 0; SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //============================================================================= /*! * AddFace */ //============================================================================= CORBA::Long SMESH_MeshEditor_i::AddFace(const SMESH::long_array & IDsOfNodes) throw (SALOME::SALOME_Exception) { SMESH_TRY; initData(); int NbNodes = IDsOfNodes.length(); if (NbNodes < 3) { return 0; } std::vector nodes (NbNodes); for (int i = 0; i < NbNodes; i++) nodes[i] = getMeshDS()->FindNode(IDsOfNodes[i]); SMDS_MeshElement* elem = 0; switch (NbNodes) { case 3: elem = getMeshDS()->AddFace(nodes[0], nodes[1], nodes[2]); break; case 4: elem = getMeshDS()->AddFace(nodes[0], nodes[1], nodes[2], nodes[3]); break; case 6: elem = getMeshDS()->AddFace(nodes[0], nodes[1], nodes[2], nodes[3], nodes[4], nodes[5]); break; case 7: elem = getMeshDS()->AddFace(nodes[0], nodes[1], nodes[2], nodes[3], nodes[4], nodes[5], nodes[6]); break; case 8: elem = getMeshDS()->AddFace(nodes[0], nodes[1], nodes[2], nodes[3], nodes[4], nodes[5], nodes[6], nodes[7]); break; case 9: elem = getMeshDS()->AddFace(nodes[0], nodes[1], nodes[2], nodes[3], nodes[4], nodes[5], nodes[6], nodes[7], nodes[8] ); break; default: elem = getMeshDS()->AddPolygonalFace(nodes); } // Update Python script TPythonDump() << "faceID = " << this << ".AddFace( " << IDsOfNodes << " )"; declareMeshModified( /*isReComputeSafe=*/false ); return elem ? elem->GetID() : 0; SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //============================================================================= /*! * AddPolygonalFace */ //============================================================================= CORBA::Long SMESH_MeshEditor_i::AddPolygonalFace (const SMESH::long_array & IDsOfNodes) throw (SALOME::SALOME_Exception) { SMESH_TRY; initData(); int NbNodes = IDsOfNodes.length(); std::vector nodes (NbNodes); for (int i = 0; i < NbNodes; i++) nodes[i] = getMeshDS()->FindNode(IDsOfNodes[i]); const SMDS_MeshElement* elem = getMeshDS()->AddPolygonalFace(nodes); // Update Python script TPythonDump() <<"faceID = "<GetID() : 0; SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //============================================================================= /*! * Create volume, either linear and quadratic (this is determed * by number of given nodes) */ //============================================================================= CORBA::Long SMESH_MeshEditor_i::AddVolume(const SMESH::long_array & IDsOfNodes) throw (SALOME::SALOME_Exception) { SMESH_TRY; initData(); int NbNodes = IDsOfNodes.length(); vector< const SMDS_MeshNode*> n(NbNodes); for(int i=0;iFindNode(IDsOfNodes[i]); SMDS_MeshElement* elem = 0; switch(NbNodes) { case 4 :elem = getMeshDS()->AddVolume(n[0],n[1],n[2],n[3]); break; case 5 :elem = getMeshDS()->AddVolume(n[0],n[1],n[2],n[3],n[4]); break; case 6 :elem = getMeshDS()->AddVolume(n[0],n[1],n[2],n[3],n[4],n[5]); break; case 8 :elem = getMeshDS()->AddVolume(n[0],n[1],n[2],n[3],n[4],n[5],n[6],n[7]); break; case 10:elem = getMeshDS()->AddVolume(n[0],n[1],n[2],n[3],n[4],n[5], n[6],n[7],n[8],n[9]); break; case 12:elem = getMeshDS()->AddVolume(n[0],n[1],n[2],n[3],n[4],n[5], n[6],n[7],n[8],n[9],n[10],n[11]); break; case 13:elem = getMeshDS()->AddVolume(n[0],n[1],n[2],n[3],n[4],n[5],n[6], n[7],n[8],n[9],n[10],n[11],n[12]); break; case 15:elem = getMeshDS()->AddVolume(n[0],n[1],n[2],n[3],n[4],n[5],n[6],n[7],n[8], n[9],n[10],n[11],n[12],n[13],n[14]); break; case 20:elem = getMeshDS()->AddVolume(n[0],n[1],n[2],n[3],n[4],n[5],n[6],n[7], n[8],n[9],n[10],n[11],n[12],n[13],n[14], n[15],n[16],n[17],n[18],n[19]); break; case 27:elem = getMeshDS()->AddVolume(n[0],n[1],n[2],n[3],n[4],n[5],n[6],n[7], n[8],n[9],n[10],n[11],n[12],n[13],n[14], n[15],n[16],n[17],n[18],n[19], n[20],n[21],n[22],n[23],n[24],n[25],n[26]); break; } // Update Python script TPythonDump() << "volID = " << this << ".AddVolume( " << IDsOfNodes << " )"; declareMeshModified( /*isReComputeSafe=*/false ); return elem ? elem->GetID() : 0; SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //============================================================================= /*! * AddPolyhedralVolume */ //============================================================================= CORBA::Long SMESH_MeshEditor_i::AddPolyhedralVolume (const SMESH::long_array & IDsOfNodes, const SMESH::long_array & Quantities) throw (SALOME::SALOME_Exception) { SMESH_TRY; initData(); int NbNodes = IDsOfNodes.length(); std::vector n (NbNodes); for (int i = 0; i < NbNodes; i++) { const SMDS_MeshNode* aNode = getMeshDS()->FindNode(IDsOfNodes[i]); if (!aNode) return 0; n[i] = aNode; } int NbFaces = Quantities.length(); std::vector q (NbFaces); for (int j = 0; j < NbFaces; j++) q[j] = Quantities[j]; const SMDS_MeshElement* elem = getMeshDS()->AddPolyhedralVolume(n, q); // Update Python script TPythonDump() << "volID = " << this << ".AddPolyhedralVolume( " << IDsOfNodes << ", " << Quantities << " )"; declareMeshModified( /*isReComputeSafe=*/false ); return elem ? elem->GetID() : 0; SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //============================================================================= /*! * AddPolyhedralVolumeByFaces */ //============================================================================= CORBA::Long SMESH_MeshEditor_i::AddPolyhedralVolumeByFaces (const SMESH::long_array & IdsOfFaces) throw (SALOME::SALOME_Exception) { SMESH_TRY; initData(); int NbFaces = IdsOfFaces.length(); std::vector poly_nodes; std::vector quantities (NbFaces); for (int i = 0; i < NbFaces; i++) { const SMDS_MeshElement* aFace = getMeshDS()->FindElement(IdsOfFaces[i]); quantities[i] = aFace->NbNodes(); SMDS_ElemIteratorPtr It = aFace->nodesIterator(); while (It->more()) { poly_nodes.push_back(static_cast(It->next())); } } const SMDS_MeshElement* elem = getMeshDS()->AddPolyhedralVolume(poly_nodes, quantities); // Update Python script TPythonDump() << "volID = " << this << ".AddPolyhedralVolumeByFaces( " << IdsOfFaces << " )"; declareMeshModified( /*isReComputeSafe=*/false ); return elem ? elem->GetID() : 0; SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //============================================================================= // // \brief Create 0D elements on all nodes of the given object except those // nodes on which a 0D element already exists. // \param theObject object on whose nodes 0D elements will be created. // \param theGroupName optional name of a group to add 0D elements created // and/or found on nodes of \a theObject. // \return an object (a new group or a temporary SMESH_IDSource) holding // ids of new and/or found 0D elements. // //============================================================================= SMESH::SMESH_IDSource_ptr SMESH_MeshEditor_i::Create0DElementsOnAllNodes(SMESH::SMESH_IDSource_ptr theObject, const char* theGroupName) throw (SALOME::SALOME_Exception) { SMESH_TRY; initData(); SMESH::SMESH_IDSource_var result; TPythonDump pyDump; TIDSortedElemSet elements, elems0D; prepareIdSource( theObject ); if ( idSourceToSet( theObject, getMeshDS(), elements, SMDSAbs_All, /*emptyIfIsMesh=*/1)) getEditor().Create0DElementsOnAllNodes( elements, elems0D ); SMESH::long_array_var newElems = new SMESH::long_array; newElems->length( elems0D.size() ); TIDSortedElemSet::iterator eIt = elems0D.begin(); for ( size_t i = 0; i < elems0D.size(); ++i, ++eIt ) newElems[ i ] = (*eIt)->GetID(); SMESH::SMESH_GroupBase_var groupToFill; if ( theGroupName && strlen( theGroupName )) { // Get existing group named theGroupName SMESH::ListOfGroups_var groups = myMesh_i->GetGroups(); for (int i = 0, nbGroups = groups->length(); i < nbGroups; i++ ) { SMESH::SMESH_GroupBase_var group = groups[i]; if ( !group->_is_nil() ) { CORBA::String_var name = group->GetName(); if ( strcmp( name.in(), theGroupName ) == 0 && group->GetType() == SMESH::ELEM0D ) { groupToFill = group; break; } } } if ( groupToFill->_is_nil() ) groupToFill = myMesh_i->CreateGroup( SMESH::ELEM0D, theGroupName ); else if ( !SMESH::DownCast< SMESH_Group_i* > ( groupToFill )) groupToFill = myMesh_i->ConvertToStandalone( groupToFill ); } if ( SMESH_Group_i* group_i = SMESH::DownCast< SMESH_Group_i* > ( groupToFill )) { group_i->Add( newElems ); result = SMESH::SMESH_IDSource::_narrow( groupToFill ); pyDump << groupToFill; } else { result = MakeIDSource( newElems, SMESH::ELEM0D ); pyDump << "elem0DIDs"; } pyDump << " = " << this << ".Create0DElementsOnAllNodes( " << theObject << ", '" << theGroupName << "' )"; return result._retn(); SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //============================================================================= /*! * \brief Bind a node to a vertex * \param NodeID - node ID * \param VertexID - vertex ID available through GEOM_Object.GetSubShapeIndices()[0] * \retval boolean - false if NodeID or VertexID is invalid */ //============================================================================= void SMESH_MeshEditor_i::SetNodeOnVertex(CORBA::Long NodeID, CORBA::Long VertexID) throw (SALOME::SALOME_Exception) { SMESH_TRY; SMESHDS_Mesh * mesh = getMeshDS(); SMDS_MeshNode* node = const_cast( mesh->FindNode(NodeID) ); if ( !node ) THROW_SALOME_CORBA_EXCEPTION("Invalid NodeID", SALOME::BAD_PARAM); if ( mesh->MaxShapeIndex() < VertexID ) THROW_SALOME_CORBA_EXCEPTION("Invalid VertexID", SALOME::BAD_PARAM); TopoDS_Shape shape = mesh->IndexToShape( VertexID ); if ( shape.ShapeType() != TopAbs_VERTEX ) THROW_SALOME_CORBA_EXCEPTION("Invalid VertexID", SALOME::BAD_PARAM); mesh->SetNodeOnVertex( node, VertexID ); myMesh->SetIsModified( true ); SMESH_CATCH( SMESH::throwCorbaException ); } //============================================================================= /*! * \brief Store node position on an edge * \param NodeID - node ID * \param EdgeID - edge ID available through GEOM_Object.GetSubShapeIndices()[0] * \param paramOnEdge - parameter on edge where the node is located * \retval boolean - false if any parameter is invalid */ //============================================================================= void SMESH_MeshEditor_i::SetNodeOnEdge(CORBA::Long NodeID, CORBA::Long EdgeID, CORBA::Double paramOnEdge) throw (SALOME::SALOME_Exception) { SMESH_TRY; SMESHDS_Mesh * mesh = getMeshDS(); SMDS_MeshNode* node = const_cast( mesh->FindNode(NodeID) ); if ( !node ) THROW_SALOME_CORBA_EXCEPTION("Invalid NodeID", SALOME::BAD_PARAM); if ( mesh->MaxShapeIndex() < EdgeID ) THROW_SALOME_CORBA_EXCEPTION("Invalid EdgeID", SALOME::BAD_PARAM); TopoDS_Shape shape = mesh->IndexToShape( EdgeID ); if ( shape.ShapeType() != TopAbs_EDGE ) THROW_SALOME_CORBA_EXCEPTION("Invalid EdgeID", SALOME::BAD_PARAM); Standard_Real f,l; BRep_Tool::Range( TopoDS::Edge( shape ), f,l); if ( paramOnEdge < f || paramOnEdge > l ) THROW_SALOME_CORBA_EXCEPTION("Invalid paramOnEdge", SALOME::BAD_PARAM); mesh->SetNodeOnEdge( node, EdgeID, paramOnEdge ); myMesh->SetIsModified( true ); SMESH_CATCH( SMESH::throwCorbaException ); } //============================================================================= /*! * \brief Store node position on a face * \param NodeID - node ID * \param FaceID - face ID available through GEOM_Object.GetSubShapeIndices()[0] * \param u - U parameter on face where the node is located * \param v - V parameter on face where the node is located * \retval boolean - false if any parameter is invalid */ //============================================================================= void SMESH_MeshEditor_i::SetNodeOnFace(CORBA::Long NodeID, CORBA::Long FaceID, CORBA::Double u, CORBA::Double v) throw (SALOME::SALOME_Exception) { SMESH_TRY; SMESHDS_Mesh * mesh = getMeshDS(); SMDS_MeshNode* node = const_cast( mesh->FindNode(NodeID) ); if ( !node ) THROW_SALOME_CORBA_EXCEPTION("Invalid NodeID", SALOME::BAD_PARAM); if ( mesh->MaxShapeIndex() < FaceID ) THROW_SALOME_CORBA_EXCEPTION("Invalid FaceID", SALOME::BAD_PARAM); TopoDS_Shape shape = mesh->IndexToShape( FaceID ); if ( shape.ShapeType() != TopAbs_FACE ) THROW_SALOME_CORBA_EXCEPTION("Invalid FaceID", SALOME::BAD_PARAM); BRepAdaptor_Surface surf( TopoDS::Face( shape )); bool isOut = ( u < surf.FirstUParameter() || u > surf.LastUParameter() || v < surf.FirstVParameter() || v > surf.LastVParameter() ); if ( isOut ) { #ifdef _DEBUG_ MESSAGE ( "FACE " << FaceID << " (" << u << "," << v << ") out of " << " u( " << surf.FirstUParameter() << "," << surf.LastUParameter() << ") v( " << surf.FirstVParameter() << "," << surf.LastVParameter() << ")" ); #endif THROW_SALOME_CORBA_EXCEPTION("Invalid UV", SALOME::BAD_PARAM); } mesh->SetNodeOnFace( node, FaceID, u, v ); myMesh->SetIsModified( true ); SMESH_CATCH( SMESH::throwCorbaException ); } //============================================================================= /*! * \brief Bind a node to a solid * \param NodeID - node ID * \param SolidID - vertex ID available through GEOM_Object.GetSubShapeIndices()[0] * \retval boolean - false if NodeID or SolidID is invalid */ //============================================================================= void SMESH_MeshEditor_i::SetNodeInVolume(CORBA::Long NodeID, CORBA::Long SolidID) throw (SALOME::SALOME_Exception) { SMESH_TRY; SMESHDS_Mesh * mesh = getMeshDS(); SMDS_MeshNode* node = const_cast( mesh->FindNode(NodeID) ); if ( !node ) THROW_SALOME_CORBA_EXCEPTION("Invalid NodeID", SALOME::BAD_PARAM); if ( mesh->MaxShapeIndex() < SolidID ) THROW_SALOME_CORBA_EXCEPTION("Invalid SolidID", SALOME::BAD_PARAM); TopoDS_Shape shape = mesh->IndexToShape( SolidID ); if ( shape.ShapeType() != TopAbs_SOLID && shape.ShapeType() != TopAbs_SHELL) THROW_SALOME_CORBA_EXCEPTION("Invalid SolidID", SALOME::BAD_PARAM); mesh->SetNodeInVolume( node, SolidID ); SMESH_CATCH( SMESH::throwCorbaException ); } //============================================================================= /*! * \brief Bind an element to a shape * \param ElementID - element ID * \param ShapeID - shape ID available through GEOM_Object.GetSubShapeIndices()[0] */ //============================================================================= void SMESH_MeshEditor_i::SetMeshElementOnShape(CORBA::Long ElementID, CORBA::Long ShapeID) throw (SALOME::SALOME_Exception) { SMESH_TRY; SMESHDS_Mesh * mesh = getMeshDS(); SMDS_MeshElement* elem = const_cast(mesh->FindElement(ElementID)); if ( !elem ) THROW_SALOME_CORBA_EXCEPTION("Invalid ElementID", SALOME::BAD_PARAM); if ( mesh->MaxShapeIndex() < ShapeID || ShapeID < 1 ) THROW_SALOME_CORBA_EXCEPTION("Invalid ShapeID", SALOME::BAD_PARAM); TopoDS_Shape shape = mesh->IndexToShape( ShapeID ); if ( shape.ShapeType() != TopAbs_EDGE && shape.ShapeType() != TopAbs_FACE && shape.ShapeType() != TopAbs_SOLID && shape.ShapeType() != TopAbs_SHELL ) THROW_SALOME_CORBA_EXCEPTION("Invalid shape type", SALOME::BAD_PARAM); mesh->SetMeshElementOnShape( elem, ShapeID ); myMesh->SetIsModified( true ); SMESH_CATCH( SMESH::throwCorbaException ); } //============================================================================= /*! * */ //============================================================================= CORBA::Boolean SMESH_MeshEditor_i::InverseDiag(CORBA::Long NodeID1, CORBA::Long NodeID2) throw (SALOME::SALOME_Exception) { SMESH_TRY; initData(); const SMDS_MeshNode * n1 = getMeshDS()->FindNode( NodeID1 ); const SMDS_MeshNode * n2 = getMeshDS()->FindNode( NodeID2 ); if ( !n1 || !n2 ) return false; // Update Python script TPythonDump() << "isDone = " << this << ".InverseDiag( " << NodeID1 << ", " << NodeID2 << " )"; int ret = getEditor().InverseDiag ( n1, n2 ); declareMeshModified( /*isReComputeSafe=*/false ); return ret; SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //============================================================================= /*! * */ //============================================================================= CORBA::Boolean SMESH_MeshEditor_i::DeleteDiag(CORBA::Long NodeID1, CORBA::Long NodeID2) throw (SALOME::SALOME_Exception) { SMESH_TRY; initData(); const SMDS_MeshNode * n1 = getMeshDS()->FindNode( NodeID1 ); const SMDS_MeshNode * n2 = getMeshDS()->FindNode( NodeID2 ); if ( !n1 || !n2 ) return false; // Update Python script TPythonDump() << "isDone = " << this << ".DeleteDiag( " << NodeID1 << ", " << NodeID2 << " )"; bool stat = getEditor().DeleteDiag ( n1, n2 ); declareMeshModified( /*isReComputeSafe=*/!stat ); return stat; SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //============================================================================= /*! * */ //============================================================================= CORBA::Boolean SMESH_MeshEditor_i::Reorient(const SMESH::long_array & IDsOfElements) throw (SALOME::SALOME_Exception) { SMESH_TRY; initData(); for (int i = 0; i < IDsOfElements.length(); i++) { CORBA::Long index = IDsOfElements[i]; const SMDS_MeshElement * elem = getMeshDS()->FindElement(index); if ( elem ) getEditor().Reorient( elem ); } // Update Python script TPythonDump() << "isDone = " << this << ".Reorient( " << IDsOfElements << " )"; declareMeshModified( /*isReComputeSafe=*/ IDsOfElements.length() == 0 ); return true; SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //============================================================================= /*! * */ //============================================================================= CORBA::Boolean SMESH_MeshEditor_i::ReorientObject(SMESH::SMESH_IDSource_ptr theObject) throw (SALOME::SALOME_Exception) { SMESH_TRY; initData(); TPythonDump aTPythonDump; // suppress dump in Reorient() prepareIdSource( theObject ); SMESH::long_array_var anElementsId = theObject->GetIDs(); CORBA::Boolean isDone = Reorient(anElementsId); // Update Python script aTPythonDump << "isDone = " << this << ".ReorientObject( " << theObject << " )"; declareMeshModified( /*isReComputeSafe=*/ anElementsId->length() == 0 ); return isDone; SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //======================================================================= //function : Reorient2D //purpose : Reorient faces contained in \a the2Dgroup. // the2Dgroup - the mesh or its part to reorient // theDirection - desired direction of normal of \a theFace // theFace - ID of face whose orientation is checked. // It can be < 1 then \a thePoint is used to find a face. // thePoint - is used to find a face if \a theFace < 1. // return number of reoriented elements. //======================================================================= CORBA::Long SMESH_MeshEditor_i::Reorient2D(SMESH::SMESH_IDSource_ptr the2Dgroup, const SMESH::DirStruct& theDirection, CORBA::Long theFace, const SMESH::PointStruct& thePoint) throw (SALOME::SALOME_Exception) { SMESH_TRY; initData(/*deleteSearchers=*/false); TIDSortedElemSet elements; prepareIdSource( the2Dgroup ); IDSource_Error error; idSourceToSet( the2Dgroup, getMeshDS(), elements, SMDSAbs_Face, /*emptyIfIsMesh=*/1, &error ); if ( error == IDSource_EMPTY ) return 0; if ( error == IDSource_INVALID ) THROW_SALOME_CORBA_EXCEPTION("No faces in given group", SALOME::BAD_PARAM); const SMDS_MeshElement* face = 0; if ( theFace > 0 ) { face = getMeshDS()->FindElement( theFace ); if ( !face ) THROW_SALOME_CORBA_EXCEPTION("Inexistent face given", SALOME::BAD_PARAM); if ( face->GetType() != SMDSAbs_Face ) THROW_SALOME_CORBA_EXCEPTION("Wrong element type", SALOME::BAD_PARAM); } else { // create theElementSearcher if needed theSearchersDeleter.Set( myMesh, getPartIOR( the2Dgroup, SMESH::FACE )); if ( !theElementSearcher ) { if ( elements.empty() ) // search in the whole mesh { if ( myMesh->NbFaces() == 0 ) THROW_SALOME_CORBA_EXCEPTION("No faces in the mesh", SALOME::BAD_PARAM); theElementSearcher = SMESH_MeshAlgos::GetElementSearcher( *getMeshDS() ); } else { typedef SMDS_SetIterator TIter; SMDS_ElemIteratorPtr elemsIt( new TIter( elements.begin(), elements.end() )); theElementSearcher = SMESH_MeshAlgos::GetElementSearcher( *getMeshDS(), elemsIt); } } // find a face gp_Pnt p( thePoint.x, thePoint.y, thePoint.z ); face = theElementSearcher->FindClosestTo( p, SMDSAbs_Face ); if ( !face ) THROW_SALOME_CORBA_EXCEPTION("No face found by point", SALOME::INTERNAL_ERROR ); if ( !elements.empty() && !elements.count( face )) THROW_SALOME_CORBA_EXCEPTION("Found face is not in the group", SALOME::BAD_PARAM ); } const SMESH::PointStruct * P = &theDirection.PS; gp_Vec dirVec( P->x, P->y, P->z ); if ( dirVec.Magnitude() < std::numeric_limits< double >::min() ) THROW_SALOME_CORBA_EXCEPTION("Zero size vector", SALOME::BAD_PARAM); int nbReori = getEditor().Reorient2D( elements, dirVec, face ); if ( nbReori ) { declareMeshModified( /*isReComputeSafe=*/false ); } TPythonDump() << this << ".Reorient2D( " << the2Dgroup << ", " << theDirection << ", " << theFace << ", " << thePoint << " )"; return nbReori; SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //======================================================================= //function : Reorient2DBy3D //purpose : Reorient faces basing on orientation of adjacent volumes. //======================================================================= CORBA::Long SMESH_MeshEditor_i::Reorient2DBy3D(const SMESH::ListOfIDSources& faceGroups, SMESH::SMESH_IDSource_ptr volumeGroup, CORBA::Boolean outsideNormal) throw (SALOME::SALOME_Exception) { SMESH_TRY; initData(); TIDSortedElemSet volumes; prepareIdSource( volumeGroup ); IDSource_Error volsError; idSourceToSet( volumeGroup, getMeshDS(), volumes, SMDSAbs_Volume, /*emptyIfMesh=*/1, &volsError); int nbReori = 0; for ( size_t i = 0; i < faceGroups.length(); ++i ) { SMESH::SMESH_IDSource_ptr faceGrp = faceGroups[i].in(); prepareIdSource( faceGrp ); TIDSortedElemSet faces; IDSource_Error error; idSourceToSet( faceGrp, getMeshDS(), faces, SMDSAbs_Face, /*emptyIfIsMesh=*/1, &error ); if ( error == IDSource_INVALID && faceGroups.length() == 1 ) THROW_SALOME_CORBA_EXCEPTION("No faces in a given object", SALOME::BAD_PARAM); if ( error == IDSource_OK && volsError != IDSource_OK ) THROW_SALOME_CORBA_EXCEPTION("No volumes in a given object", SALOME::BAD_PARAM); nbReori += getEditor().Reorient2DBy3D( faces, volumes, outsideNormal ); if ( error != IDSource_EMPTY && faces.empty() ) // all faces in the mesh treated break; } if ( nbReori ) { declareMeshModified( /*isReComputeSafe=*/false ); } TPythonDump() << this << ".Reorient2DBy3D( " << faceGroups << ", " << volumeGroup << ", " << outsideNormal << " )"; return nbReori; SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //============================================================================= /*! * \brief Fuse neighbour triangles into quadrangles. */ //============================================================================= CORBA::Boolean SMESH_MeshEditor_i::TriToQuad (const SMESH::long_array & IDsOfElements, SMESH::NumericalFunctor_ptr Criterion, CORBA::Double MaxAngle) throw (SALOME::SALOME_Exception) { SMESH_TRY; initData(); SMESHDS_Mesh* aMesh = getMeshDS(); TIDSortedElemSet faces,copyFaces; SMDS_MeshElement::GeomFilter triaFilter(SMDSGeom_TRIANGLE); arrayToSet(IDsOfElements, aMesh, faces, SMDSAbs_Face, & triaFilter); TIDSortedElemSet* workElements = & faces; if ( myIsPreviewMode ) { SMDSAbs_ElementType select = SMDSAbs_Face; getPreviewMesh( SMDSAbs_Face )->Copy( faces, copyFaces, select ); workElements = & copyFaces; } SMESH::NumericalFunctor_i* aNumericalFunctor = dynamic_cast( SMESH_Gen_i::GetServant( Criterion ).in() ); SMESH::Controls::NumericalFunctorPtr aCrit; if ( !aNumericalFunctor ) aCrit.reset( new SMESH::Controls::MaxElementLength2D() ); else aCrit = aNumericalFunctor->GetNumericalFunctor(); if ( !myIsPreviewMode ) { // Update Python script TPythonDump() << "isDone = " << this << ".TriToQuad( " << IDsOfElements << ", " << aNumericalFunctor << ", " << TVar( MaxAngle ) << " )"; } bool stat = getEditor().TriToQuad( *workElements, aCrit, MaxAngle ); declareMeshModified( /*isReComputeSafe=*/!stat ); return stat; SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //============================================================================= /*! * \brief Fuse neighbour triangles into quadrangles. */ //============================================================================= CORBA::Boolean SMESH_MeshEditor_i::TriToQuadObject (SMESH::SMESH_IDSource_ptr theObject, SMESH::NumericalFunctor_ptr Criterion, CORBA::Double MaxAngle) throw (SALOME::SALOME_Exception) { SMESH_TRY; initData(); TPythonDump aTPythonDump; // suppress dump in TriToQuad() prepareIdSource( theObject ); SMESH::long_array_var anElementsId = theObject->GetIDs(); CORBA::Boolean isDone = TriToQuad(anElementsId, Criterion, MaxAngle); if ( !myIsPreviewMode ) { SMESH::NumericalFunctor_i* aNumericalFunctor = SMESH::DownCast( Criterion ); // Update Python script aTPythonDump << "isDone = " << this << ".TriToQuadObject(" << theObject << ", " << aNumericalFunctor << ", " << TVar( MaxAngle ) << " )"; } return isDone; SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //============================================================================= /*! * \brief Split quadrangles into triangles. */ //============================================================================= CORBA::Boolean SMESH_MeshEditor_i::QuadToTri (const SMESH::long_array & IDsOfElements, SMESH::NumericalFunctor_ptr Criterion) throw (SALOME::SALOME_Exception) { SMESH_TRY; initData(); SMESHDS_Mesh* aMesh = getMeshDS(); TIDSortedElemSet faces; arrayToSet(IDsOfElements, aMesh, faces, SMDSAbs_Face); SMESH::NumericalFunctor_i* aNumericalFunctor = dynamic_cast( SMESH_Gen_i::GetServant( Criterion ).in() ); SMESH::Controls::NumericalFunctorPtr aCrit; if ( !aNumericalFunctor ) aCrit.reset( new SMESH::Controls::AspectRatio() ); else aCrit = aNumericalFunctor->GetNumericalFunctor(); // Update Python script TPythonDump() << "isDone = " << this << ".QuadToTri( " << IDsOfElements << ", " << aNumericalFunctor << " )"; CORBA::Boolean stat = getEditor().QuadToTri( faces, aCrit ); declareMeshModified( /*isReComputeSafe=*/false ); return stat; SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //============================================================================= /*! * \brief Split quadrangles into triangles. */ //============================================================================= CORBA::Boolean SMESH_MeshEditor_i::QuadToTriObject (SMESH::SMESH_IDSource_ptr theObject, SMESH::NumericalFunctor_ptr Criterion) throw (SALOME::SALOME_Exception) { SMESH_TRY; initData(); TPythonDump aTPythonDump; // suppress dump in QuadToTri() prepareIdSource( theObject ); SMESH::long_array_var anElementsId = theObject->GetIDs(); CORBA::Boolean isDone = QuadToTri(anElementsId, Criterion); SMESH::NumericalFunctor_i* aNumericalFunctor = SMESH::DownCast( Criterion ); // Update Python script aTPythonDump << "isDone = " << this << ".QuadToTriObject( " << theObject << ", " << aNumericalFunctor << " )"; declareMeshModified( /*isReComputeSafe=*/false ); return isDone; SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //================================================================================ /*! * \brief Split each of quadrangles into 4 triangles. * \param [in] theObject - theQuads Container of quadrangles to split. */ //================================================================================ void SMESH_MeshEditor_i::QuadTo4Tri (SMESH::SMESH_IDSource_ptr theObject) throw (SALOME::SALOME_Exception) { SMESH_TRY; initData(); TIDSortedElemSet faces; prepareIdSource( theObject ); if ( !idSourceToSet( theObject, getMeshDS(), faces, SMDSAbs_Face, /*emptyIfIsMesh=*/true ) && faces.empty() ) THROW_SALOME_CORBA_EXCEPTION("No faces given", SALOME::BAD_PARAM); getEditor().QuadTo4Tri( faces ); TPythonDump() << this << ".QuadTo4Tri( " << theObject << " )"; SMESH_CATCH( SMESH::throwCorbaException ); } //============================================================================= /*! * \brief Split quadrangles into triangles. */ //============================================================================= CORBA::Boolean SMESH_MeshEditor_i::SplitQuad (const SMESH::long_array & IDsOfElements, CORBA::Boolean Diag13) throw (SALOME::SALOME_Exception) { SMESH_TRY; initData(); SMESHDS_Mesh* aMesh = getMeshDS(); TIDSortedElemSet faces; arrayToSet(IDsOfElements, aMesh, faces, SMDSAbs_Face); // Update Python script TPythonDump() << "isDone = " << this << ".SplitQuad( " << IDsOfElements << ", " << Diag13 << " )"; CORBA::Boolean stat = getEditor().QuadToTri( faces, Diag13 ); declareMeshModified( /*isReComputeSafe=*/ !stat ); return stat; SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //============================================================================= /*! * \brief Split quadrangles into triangles. */ //============================================================================= CORBA::Boolean SMESH_MeshEditor_i::SplitQuadObject (SMESH::SMESH_IDSource_ptr theObject, CORBA::Boolean Diag13) throw (SALOME::SALOME_Exception) { SMESH_TRY; initData(); TPythonDump aTPythonDump; // suppress dump in SplitQuad() prepareIdSource( theObject ); SMESH::long_array_var anElementsId = theObject->GetIDs(); CORBA::Boolean isDone = SplitQuad(anElementsId, Diag13); // Update Python script aTPythonDump << "isDone = " << this << ".SplitQuadObject( " << theObject << ", " << Diag13 << " )"; declareMeshModified( /*isReComputeSafe=*/!isDone ); return isDone; SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //============================================================================= /*! * Find better splitting of the given quadrangle. * \param IDOfQuad ID of the quadrangle to be splitted. * \param Criterion A criterion to choose a diagonal for splitting. * \return 1 if 1-3 diagonal is better, 2 if 2-4 * diagonal is better, 0 if error occurs. */ //============================================================================= CORBA::Long SMESH_MeshEditor_i::BestSplit (CORBA::Long IDOfQuad, SMESH::NumericalFunctor_ptr Criterion) throw (SALOME::SALOME_Exception) { SMESH_TRY; initData(); const SMDS_MeshElement* quad = getMeshDS()->FindElement(IDOfQuad); if (quad && quad->GetType() == SMDSAbs_Face && quad->NbNodes() == 4) { SMESH::NumericalFunctor_i* aNumericalFunctor = dynamic_cast(SMESH_Gen_i::GetServant(Criterion).in()); SMESH::Controls::NumericalFunctorPtr aCrit; if (aNumericalFunctor) aCrit = aNumericalFunctor->GetNumericalFunctor(); else aCrit.reset(new SMESH::Controls::AspectRatio()); int id = getEditor().BestSplit(quad, aCrit); declareMeshModified( /*isReComputeSafe=*/ id < 1 ); return id; } SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //================================================================================ /*! * \brief Split volumic elements into tetrahedrons */ //================================================================================ void SMESH_MeshEditor_i::SplitVolumesIntoTetra (SMESH::SMESH_IDSource_ptr elems, CORBA::Short methodFlags) throw (SALOME::SALOME_Exception) { SMESH_TRY; initData(); prepareIdSource( elems ); ::SMESH_MeshEditor::TFacetOfElem elemSet; const int noneFacet = -1; SMDS_ElemIteratorPtr volIt = myMesh_i->GetElements( elems, SMESH::VOLUME ); while( volIt->more() ) elemSet.insert( elemSet.end(), make_pair( volIt->next(), noneFacet )); getEditor().SplitVolumes( elemSet, int( methodFlags )); declareMeshModified( /*isReComputeSafe=*/true ); // it does not influence Compute() TPythonDump() << this << ".SplitVolumesIntoTetra( " << elems << ", " << methodFlags << " )"; SMESH_CATCH( SMESH::throwCorbaException ); } //================================================================================ /*! * \brief Split hexahedra into triangular prisms * \param elems - elements to split * \param facetToSplitNormal - normal used to find a facet of hexahedron * to split into triangles * \param methodFlags - flags passing splitting method: * 1 - split the hexahedron into 2 prisms * 2 - split the hexahedron into 4 prisms */ //================================================================================ void SMESH_MeshEditor_i::SplitHexahedraIntoPrisms (SMESH::SMESH_IDSource_ptr elems, const SMESH::PointStruct & startHexPoint, const SMESH::DirStruct& facetToSplitNormal, CORBA::Short methodFlags, CORBA::Boolean allDomains) throw (SALOME::SALOME_Exception) { SMESH_TRY; initData(); prepareIdSource( elems ); gp_Ax1 facetNorm( gp_Pnt( startHexPoint.x, startHexPoint.y, startHexPoint.z ), gp_Dir( facetToSplitNormal.PS.x, facetToSplitNormal.PS.y, facetToSplitNormal.PS.z )); TIDSortedElemSet elemSet; SMESH::long_array_var anElementsId = elems->GetIDs(); SMDS_MeshElement::GeomFilter filter( SMDSGeom_HEXA ); arrayToSet( anElementsId, getMeshDS(), elemSet, SMDSAbs_Volume, &filter ); ::SMESH_MeshEditor::TFacetOfElem elemFacets; while ( !elemSet.empty() ) { getEditor().GetHexaFacetsToSplit( elemSet, facetNorm, elemFacets ); if ( !allDomains ) break; ::SMESH_MeshEditor::TFacetOfElem::iterator ef = elemFacets.begin(); for ( ; ef != elemFacets.end(); ++ef ) elemSet.erase( ef->first ); } if ( methodFlags == 2 ) methodFlags = int( ::SMESH_MeshEditor::HEXA_TO_4_PRISMS ); else methodFlags = int( ::SMESH_MeshEditor::HEXA_TO_2_PRISMS ); getEditor().SplitVolumes( elemFacets, int( methodFlags )); declareMeshModified( /*isReComputeSafe=*/true ); // it does not influence Compute() TPythonDump() << this << ".SplitHexahedraIntoPrisms( " << elems << ", " << startHexPoint << ", " << facetToSplitNormal<< ", " << methodFlags<< ", " << allDomains << " )"; SMESH_CATCH( SMESH::throwCorbaException ); } //======================================================================= //function : Smooth //purpose : //======================================================================= CORBA::Boolean SMESH_MeshEditor_i::Smooth(const SMESH::long_array & IDsOfElements, const SMESH::long_array & IDsOfFixedNodes, CORBA::Long MaxNbOfIterations, CORBA::Double MaxAspectRatio, SMESH::SMESH_MeshEditor::Smooth_Method Method) throw (SALOME::SALOME_Exception) { return smooth( IDsOfElements, IDsOfFixedNodes, MaxNbOfIterations, MaxAspectRatio, Method, false ); } //======================================================================= //function : SmoothParametric //purpose : //======================================================================= CORBA::Boolean SMESH_MeshEditor_i::SmoothParametric(const SMESH::long_array & IDsOfElements, const SMESH::long_array & IDsOfFixedNodes, CORBA::Long MaxNbOfIterations, CORBA::Double MaxAspectRatio, SMESH::SMESH_MeshEditor::Smooth_Method Method) throw (SALOME::SALOME_Exception) { return smooth( IDsOfElements, IDsOfFixedNodes, MaxNbOfIterations, MaxAspectRatio, Method, true ); } //======================================================================= //function : SmoothObject //purpose : //======================================================================= CORBA::Boolean SMESH_MeshEditor_i::SmoothObject(SMESH::SMESH_IDSource_ptr theObject, const SMESH::long_array & IDsOfFixedNodes, CORBA::Long MaxNbOfIterations, CORBA::Double MaxAspectRatio, SMESH::SMESH_MeshEditor::Smooth_Method Method) throw (SALOME::SALOME_Exception) { return smoothObject (theObject, IDsOfFixedNodes, MaxNbOfIterations, MaxAspectRatio, Method, false); } //======================================================================= //function : SmoothParametricObject //purpose : //======================================================================= CORBA::Boolean SMESH_MeshEditor_i::SmoothParametricObject(SMESH::SMESH_IDSource_ptr theObject, const SMESH::long_array & IDsOfFixedNodes, CORBA::Long MaxNbOfIterations, CORBA::Double MaxAspectRatio, SMESH::SMESH_MeshEditor::Smooth_Method Method) throw (SALOME::SALOME_Exception) { return smoothObject (theObject, IDsOfFixedNodes, MaxNbOfIterations, MaxAspectRatio, Method, true); } //============================================================================= /*! * */ //============================================================================= CORBA::Boolean SMESH_MeshEditor_i::smooth(const SMESH::long_array & IDsOfElements, const SMESH::long_array & IDsOfFixedNodes, CORBA::Long MaxNbOfIterations, CORBA::Double MaxAspectRatio, SMESH::SMESH_MeshEditor::Smooth_Method Method, bool IsParametric) throw (SALOME::SALOME_Exception) { SMESH_TRY; initData(); SMESHDS_Mesh* aMesh = getMeshDS(); TIDSortedElemSet elements; arrayToSet(IDsOfElements, aMesh, elements, SMDSAbs_Face); set fixedNodes; for (int i = 0; i < IDsOfFixedNodes.length(); i++) { CORBA::Long index = IDsOfFixedNodes[i]; const SMDS_MeshNode * node = aMesh->FindNode(index); if ( node ) fixedNodes.insert( node ); } ::SMESH_MeshEditor::SmoothMethod method = ::SMESH_MeshEditor::LAPLACIAN; if ( Method != SMESH::SMESH_MeshEditor::LAPLACIAN_SMOOTH ) method = ::SMESH_MeshEditor::CENTROIDAL; getEditor().Smooth(elements, fixedNodes, method, MaxNbOfIterations, MaxAspectRatio, IsParametric ); declareMeshModified( /*isReComputeSafe=*/true ); // does not prevent re-compute // Update Python script TPythonDump() << "isDone = " << this << "." << (IsParametric ? "SmoothParametric( " : "Smooth( ") << IDsOfElements << ", " << IDsOfFixedNodes << ", " << TVar( MaxNbOfIterations ) << ", " << TVar( MaxAspectRatio ) << ", " << "SMESH.SMESH_MeshEditor." << ( Method == SMESH::SMESH_MeshEditor::CENTROIDAL_SMOOTH ? "CENTROIDAL_SMOOTH )" : "LAPLACIAN_SMOOTH )"); return true; SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //============================================================================= /*! * */ //============================================================================= CORBA::Boolean SMESH_MeshEditor_i::smoothObject(SMESH::SMESH_IDSource_ptr theObject, const SMESH::long_array & IDsOfFixedNodes, CORBA::Long MaxNbOfIterations, CORBA::Double MaxAspectRatio, SMESH::SMESH_MeshEditor::Smooth_Method Method, bool IsParametric) throw (SALOME::SALOME_Exception) { SMESH_TRY; initData(); TPythonDump aTPythonDump; // suppress dump in smooth() prepareIdSource( theObject ); SMESH::long_array_var anElementsId = theObject->GetIDs(); CORBA::Boolean isDone = smooth (anElementsId, IDsOfFixedNodes, MaxNbOfIterations, MaxAspectRatio, Method, IsParametric); // Update Python script aTPythonDump << "isDone = " << this << "." << (IsParametric ? "SmoothParametricObject( " : "SmoothObject( ") << theObject << ", " << IDsOfFixedNodes << ", " << TVar( MaxNbOfIterations ) << ", " << TVar( MaxAspectRatio ) << ", " << "SMESH.SMESH_MeshEditor." << ( Method == SMESH::SMESH_MeshEditor::CENTROIDAL_SMOOTH ? "CENTROIDAL_SMOOTH )" : "LAPLACIAN_SMOOTH )"); return isDone; SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //============================================================================= /*! * */ //============================================================================= void SMESH_MeshEditor_i::RenumberNodes() throw (SALOME::SALOME_Exception) { SMESH_TRY; // Update Python script TPythonDump() << this << ".RenumberNodes()"; getMeshDS()->Renumber( true ); SMESH_CATCH( SMESH::throwCorbaException ); } //============================================================================= /*! * */ //============================================================================= void SMESH_MeshEditor_i::RenumberElements() throw (SALOME::SALOME_Exception) { SMESH_TRY; // Update Python script TPythonDump() << this << ".RenumberElements()"; getMeshDS()->Renumber( false ); SMESH_CATCH( SMESH::throwCorbaException ); } //======================================================================= /*! * \brief Return groups by their IDs */ //======================================================================= SMESH::ListOfGroups* SMESH_MeshEditor_i::getGroups(const std::list* groupIDs) throw (SALOME::SALOME_Exception) { SMESH_TRY; if ( !groupIDs ) return 0; myMesh_i->CreateGroupServants(); return myMesh_i->GetGroups( *groupIDs ); SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //======================================================================= //function : rotationSweep //purpose : //======================================================================= SMESH::ListOfGroups* SMESH_MeshEditor_i::rotationSweep(const SMESH::long_array & theIDsOfElements, const SMESH::AxisStruct & theAxis, CORBA::Double theAngleInRadians, CORBA::Long theNbOfSteps, CORBA::Double theTolerance, const bool theMakeGroups, const SMDSAbs_ElementType theElementType) throw (SALOME::SALOME_Exception) { SMESH_TRY; initData(); TIDSortedElemSet inElements, copyElements; arrayToSet(theIDsOfElements, getMeshDS(), inElements, theElementType); TIDSortedElemSet* workElements = & inElements; bool makeWalls=true; if ( myIsPreviewMode ) { SMDSAbs_ElementType select = SMDSAbs_All, avoid = SMDSAbs_Volume; getPreviewMesh( SMDSAbs_Face )->Copy( inElements, copyElements, select, avoid ); workElements = & copyElements; //makeWalls = false; } gp_Ax1 Ax1 (gp_Pnt( theAxis.x, theAxis.y, theAxis.z ), gp_Vec( theAxis.vx, theAxis.vy, theAxis.vz )); ::SMESH_MeshEditor::PGroupIDs groupIds = getEditor().RotationSweep (*workElements, Ax1, theAngleInRadians, theNbOfSteps, theTolerance, theMakeGroups, makeWalls); declareMeshModified( /*isReComputeSafe=*/true ); // does not influence Compute() return theMakeGroups ? getGroups(groupIds.get()) : 0; SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //======================================================================= //function : RotationSweep //purpose : //======================================================================= void SMESH_MeshEditor_i::RotationSweep(const SMESH::long_array & theIDsOfElements, const SMESH::AxisStruct & theAxis, CORBA::Double theAngleInRadians, CORBA::Long theNbOfSteps, CORBA::Double theTolerance) throw (SALOME::SALOME_Exception) { if ( !myIsPreviewMode ) { TPythonDump() << this << ".RotationSweep( " << theIDsOfElements << ", " << theAxis << ", " << TVar( theAngleInRadians ) << ", " << TVar( theNbOfSteps ) << ", " << TVar( theTolerance ) << " )"; } rotationSweep(theIDsOfElements, theAxis, theAngleInRadians, theNbOfSteps, theTolerance, false); } //======================================================================= //function : RotationSweepMakeGroups //purpose : //======================================================================= SMESH::ListOfGroups* SMESH_MeshEditor_i::RotationSweepMakeGroups(const SMESH::long_array& theIDsOfElements, const SMESH::AxisStruct& theAxis, CORBA::Double theAngleInRadians, CORBA::Long theNbOfSteps, CORBA::Double theTolerance) throw (SALOME::SALOME_Exception) { TPythonDump aPythonDump; // it is here to prevent dump of GetGroups() SMESH::ListOfGroups *aGroups = rotationSweep(theIDsOfElements, theAxis, theAngleInRadians, theNbOfSteps, theTolerance, true); if (!myIsPreviewMode) { dumpGroupsList(aPythonDump, aGroups); aPythonDump << this << ".RotationSweepMakeGroups( " << theIDsOfElements << ", " << theAxis << ", " << TVar( theAngleInRadians ) << ", " << TVar( theNbOfSteps ) << ", " << TVar( theTolerance ) << " )"; } return aGroups; } //======================================================================= //function : RotationSweepObject //purpose : //======================================================================= void SMESH_MeshEditor_i::RotationSweepObject(SMESH::SMESH_IDSource_ptr theObject, const SMESH::AxisStruct & theAxis, CORBA::Double theAngleInRadians, CORBA::Long theNbOfSteps, CORBA::Double theTolerance) throw (SALOME::SALOME_Exception) { if ( !myIsPreviewMode ) { TPythonDump() << this << ".RotationSweepObject( " << theObject << ", " << theAxis << ", " << theAngleInRadians << ", " << theNbOfSteps << ", " << theTolerance << " )"; } prepareIdSource( theObject ); SMESH::long_array_var anElementsId = theObject->GetIDs(); rotationSweep(anElementsId, theAxis, theAngleInRadians, theNbOfSteps, theTolerance, false); } //======================================================================= //function : RotationSweepObject1D //purpose : //======================================================================= void SMESH_MeshEditor_i::RotationSweepObject1D(SMESH::SMESH_IDSource_ptr theObject, const SMESH::AxisStruct & theAxis, CORBA::Double theAngleInRadians, CORBA::Long theNbOfSteps, CORBA::Double theTolerance) throw (SALOME::SALOME_Exception) { if ( !myIsPreviewMode ) { TPythonDump() << this << ".RotationSweepObject1D( " << theObject << ", " << theAxis << ", " << TVar( theAngleInRadians ) << ", " << TVar( theNbOfSteps ) << ", " << TVar( theTolerance ) << " )"; } prepareIdSource( theObject ); SMESH::long_array_var anElementsId = theObject->GetIDs(); rotationSweep(anElementsId, theAxis, theAngleInRadians, theNbOfSteps, theTolerance, false, SMDSAbs_Edge); } //======================================================================= //function : RotationSweepObject2D //purpose : //======================================================================= void SMESH_MeshEditor_i::RotationSweepObject2D(SMESH::SMESH_IDSource_ptr theObject, const SMESH::AxisStruct & theAxis, CORBA::Double theAngleInRadians, CORBA::Long theNbOfSteps, CORBA::Double theTolerance) throw (SALOME::SALOME_Exception) { if ( !myIsPreviewMode ) { TPythonDump() << this << ".RotationSweepObject2D( " << theObject << ", " << theAxis << ", " << TVar( theAngleInRadians ) << ", " << TVar( theNbOfSteps ) << ", " << TVar( theTolerance ) << " )"; } prepareIdSource( theObject ); SMESH::long_array_var anElementsId = theObject->GetIDs(); rotationSweep(anElementsId, theAxis, theAngleInRadians, theNbOfSteps, theTolerance, false, SMDSAbs_Face); } //======================================================================= //function : RotationSweepObjectMakeGroups //purpose : //======================================================================= SMESH::ListOfGroups* SMESH_MeshEditor_i::RotationSweepObjectMakeGroups(SMESH::SMESH_IDSource_ptr theObject, const SMESH::AxisStruct& theAxis, CORBA::Double theAngleInRadians, CORBA::Long theNbOfSteps, CORBA::Double theTolerance) throw (SALOME::SALOME_Exception) { TPythonDump aPythonDump; // it is here to prevent dump of GetGroups() prepareIdSource( theObject ); SMESH::long_array_var anElementsId = theObject->GetIDs(); SMESH::ListOfGroups *aGroups = rotationSweep(anElementsId, theAxis, theAngleInRadians, theNbOfSteps, theTolerance, true); if (!myIsPreviewMode) { dumpGroupsList(aPythonDump, aGroups); aPythonDump << this << ".RotationSweepObjectMakeGroups( " << theObject << ", " << theAxis << ", " << theAngleInRadians << ", " << theNbOfSteps << ", " << theTolerance << " )"; } return aGroups; } //======================================================================= //function : RotationSweepObject1DMakeGroups //purpose : //======================================================================= SMESH::ListOfGroups* SMESH_MeshEditor_i::RotationSweepObject1DMakeGroups(SMESH::SMESH_IDSource_ptr theObject, const SMESH::AxisStruct& theAxis, CORBA::Double theAngleInRadians, CORBA::Long theNbOfSteps, CORBA::Double theTolerance) throw (SALOME::SALOME_Exception) { TPythonDump aPythonDump; // it is here to prevent dump of GetGroups() prepareIdSource( theObject ); SMESH::long_array_var anElementsId = theObject->GetIDs(); SMESH::ListOfGroups *aGroups = rotationSweep(anElementsId, theAxis, theAngleInRadians, theNbOfSteps, theTolerance, true, SMDSAbs_Edge); if (!myIsPreviewMode) { dumpGroupsList(aPythonDump, aGroups); aPythonDump << this << ".RotationSweepObject1DMakeGroups( " << theObject << ", " << theAxis << ", " << TVar( theAngleInRadians ) << ", " << TVar( theNbOfSteps ) << ", " << TVar( theTolerance ) << " )"; } return aGroups; } //======================================================================= //function : RotationSweepObject2DMakeGroups //purpose : //======================================================================= SMESH::ListOfGroups* SMESH_MeshEditor_i::RotationSweepObject2DMakeGroups(SMESH::SMESH_IDSource_ptr theObject, const SMESH::AxisStruct& theAxis, CORBA::Double theAngleInRadians, CORBA::Long theNbOfSteps, CORBA::Double theTolerance) throw (SALOME::SALOME_Exception) { TPythonDump aPythonDump; // it is here to prevent dump of GetGroups() prepareIdSource( theObject ); SMESH::long_array_var anElementsId = theObject->GetIDs(); SMESH::ListOfGroups *aGroups = rotationSweep(anElementsId, theAxis, theAngleInRadians, theNbOfSteps, theTolerance, true, SMDSAbs_Face); if (!myIsPreviewMode) { dumpGroupsList(aPythonDump, aGroups); aPythonDump << this << ".RotationSweepObject2DMakeGroups( " << theObject << ", " << theAxis << ", " << TVar( theAngleInRadians ) << ", " << TVar( theNbOfSteps ) << ", " << TVar( theTolerance ) << " )"; } return aGroups; } namespace MeshEditor_I { /*! * \brief Structure used to pass extrusion parameters to ::SMESH_MeshEditor */ struct ExtrusionParams : public ::SMESH_MeshEditor::ExtrusParam { bool myIsExtrusionByNormal; static int makeFlags( CORBA::Boolean MakeGroups, CORBA::Boolean ByAverageNormal = false, CORBA::Boolean UseInputElemsOnly = false, CORBA::Long Flags = 0, CORBA::Boolean MakeBoundary = true ) { if ( MakeGroups ) Flags |= ::SMESH_MeshEditor::EXTRUSION_FLAG_GROUPS; if ( ByAverageNormal ) Flags |= ::SMESH_MeshEditor::EXTRUSION_FLAG_BY_AVG_NORMAL; if ( UseInputElemsOnly) Flags |= ::SMESH_MeshEditor::EXTRUSION_FLAG_USE_INPUT_ELEMS_ONLY; if ( MakeBoundary ) Flags |= ::SMESH_MeshEditor::EXTRUSION_FLAG_BOUNDARY; return Flags; } // standard params ExtrusionParams(const SMESH::DirStruct & theDir, CORBA::Long theNbOfSteps, CORBA::Boolean theMakeGroups): ::SMESH_MeshEditor::ExtrusParam ( gp_Vec( theDir.PS.x, theDir.PS.y, theDir.PS.z ), theNbOfSteps, makeFlags( theMakeGroups )), myIsExtrusionByNormal( false ) { } // advanced params ExtrusionParams(const SMESH::DirStruct & theDir, CORBA::Long theNbOfSteps, CORBA::Boolean theMakeGroups, CORBA::Long theExtrFlags, CORBA::Double theSewTolerance): ::SMESH_MeshEditor::ExtrusParam ( gp_Vec( theDir.PS.x, theDir.PS.y, theDir.PS.z ), theNbOfSteps, makeFlags( theMakeGroups, false, false, theExtrFlags, false ), theSewTolerance ), myIsExtrusionByNormal( false ) { } // params for extrusion by normal ExtrusionParams(CORBA::Double theStepSize, CORBA::Long theNbOfSteps, CORBA::Short theDim, CORBA::Boolean theUseInputElemsOnly, CORBA::Boolean theByAverageNormal, CORBA::Boolean theMakeGroups ): ::SMESH_MeshEditor::ExtrusParam ( theStepSize, theNbOfSteps, makeFlags( theMakeGroups, theByAverageNormal, theUseInputElemsOnly ), theDim), myIsExtrusionByNormal( true ) { } void SetNoGroups() { Flags() &= ~(::SMESH_MeshEditor::EXTRUSION_FLAG_GROUPS); } }; } //======================================================================= //function : extrusionSweep //purpose : //======================================================================= SMESH::ListOfGroups* SMESH_MeshEditor_i::extrusionSweep(const SMESH::long_array & theIDsOfElements, MeshEditor_I::ExtrusionParams& theParams, const SMDSAbs_ElementType theElementType) throw (SALOME::SALOME_Exception) { SMESH_TRY; initData(); TIDSortedElemSet elements, copyElements; arrayToSet( theIDsOfElements, getMeshDS(), elements, theElementType ); TIDSortedElemSet* workElements = & elements; if ( myIsPreviewMode ) { SMDSAbs_ElementType previewType = SMDSAbs_Face; if (theElementType == SMDSAbs_Node) previewType = SMDSAbs_Edge; SMDSAbs_ElementType select = SMDSAbs_All, avoid = SMDSAbs_Volume; getPreviewMesh( previewType )->Copy( elements, copyElements, select, avoid ); workElements = & copyElements; theParams.SetNoGroups(); if ( theParams.myIsExtrusionByNormal && !theParams.ToUseInpElemsOnly() ) { TIDSortedElemSet elemsAround, elemsAroundCopy; getElementsAround( elements, getMeshDS(), elemsAround ); getPreviewMesh( previewType )->Copy( elemsAround, elemsAroundCopy, select, avoid ); } } ::SMESH_MeshEditor::TTElemOfElemListMap aHystory; ::SMESH_MeshEditor::PGroupIDs groupIds = getEditor().ExtrusionSweep (*workElements, theParams, aHystory ); declareMeshModified( /*isReComputeSafe=*/true ); // does not influence Compute() return theParams.ToMakeGroups() ? getGroups(groupIds.get()) : 0; SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //======================================================================= //function : ExtrusionSweep //purpose : //======================================================================= void SMESH_MeshEditor_i::ExtrusionSweep(const SMESH::long_array & theIDsOfElements, const SMESH::DirStruct & theStepVector, CORBA::Long theNbOfSteps) throw (SALOME::SALOME_Exception) { ExtrusionParams params( theStepVector, theNbOfSteps, false ); extrusionSweep( theIDsOfElements, params ); if (!myIsPreviewMode) { TPythonDump() << this << ".ExtrusionSweep( " << theIDsOfElements << ", " << theStepVector <<", " << TVar(theNbOfSteps) << " )"; } } //======================================================================= //function : ExtrusionSweep0D //purpose : //======================================================================= void SMESH_MeshEditor_i::ExtrusionSweep0D(const SMESH::long_array & theIDsOfElements, const SMESH::DirStruct & theStepVector, CORBA::Long theNbOfSteps) throw (SALOME::SALOME_Exception) { ExtrusionParams params( theStepVector, theNbOfSteps, false ); extrusionSweep( theIDsOfElements, params, SMDSAbs_Node ); if (!myIsPreviewMode) { TPythonDump() << this << ".ExtrusionSweep0D( " << theIDsOfElements << ", " << theStepVector <<", " << TVar(theNbOfSteps)<< " )"; } } //======================================================================= //function : ExtrusionSweepObject //purpose : //======================================================================= void SMESH_MeshEditor_i::ExtrusionSweepObject(SMESH::SMESH_IDSource_ptr theObject, const SMESH::DirStruct & theStepVector, CORBA::Long theNbOfSteps) throw (SALOME::SALOME_Exception) { prepareIdSource( theObject ); SMESH::long_array_var anElementsId = theObject->GetIDs(); ExtrusionParams params( theStepVector, theNbOfSteps, false ); extrusionSweep( anElementsId, params ); if (!myIsPreviewMode) { TPythonDump() << this << ".ExtrusionSweepObject( " << theObject << ", " << theStepVector << ", " << theNbOfSteps << " )"; } } //======================================================================= //function : ExtrusionSweepObject0D //purpose : //======================================================================= void SMESH_MeshEditor_i::ExtrusionSweepObject0D(SMESH::SMESH_IDSource_ptr theObject, const SMESH::DirStruct & theStepVector, CORBA::Long theNbOfSteps) throw (SALOME::SALOME_Exception) { prepareIdSource( theObject ); SMESH::long_array_var anElementsId = theObject->GetIDs(); if ( anElementsId->length() == 0 ) if ( SMESH_Mesh_i* mesh = SMESH::DownCast( theObject )) anElementsId = mesh->GetNodesId(); ExtrusionParams params( theStepVector, theNbOfSteps, false ); extrusionSweep( anElementsId, params, SMDSAbs_Node ); if ( !myIsPreviewMode ) { TPythonDump() << this << ".ExtrusionSweepObject0D( " << theObject << ", " << theStepVector << ", " << TVar( theNbOfSteps ) << " )"; } } //======================================================================= //function : ExtrusionSweepObject1D //purpose : //======================================================================= void SMESH_MeshEditor_i::ExtrusionSweepObject1D(SMESH::SMESH_IDSource_ptr theObject, const SMESH::DirStruct & theStepVector, CORBA::Long theNbOfSteps) throw (SALOME::SALOME_Exception) { prepareIdSource( theObject ); SMESH::long_array_var anElementsId = theObject->GetIDs(); ExtrusionParams params( theStepVector, theNbOfSteps, false ); extrusionSweep( anElementsId, params, SMDSAbs_Edge ); if ( !myIsPreviewMode ) { TPythonDump() << this << ".ExtrusionSweepObject1D( " << theObject << ", " << theStepVector << ", " << TVar( theNbOfSteps ) << " )"; } } //======================================================================= //function : ExtrusionSweepObject2D //purpose : //======================================================================= void SMESH_MeshEditor_i::ExtrusionSweepObject2D(SMESH::SMESH_IDSource_ptr theObject, const SMESH::DirStruct & theStepVector, CORBA::Long theNbOfSteps) throw (SALOME::SALOME_Exception) { prepareIdSource( theObject ); SMESH::long_array_var anElementsId = theObject->GetIDs(); ExtrusionParams params( theStepVector, theNbOfSteps, false ); extrusionSweep( anElementsId, params, SMDSAbs_Face ); if ( !myIsPreviewMode ) { TPythonDump() << this << ".ExtrusionSweepObject2D( " << theObject << ", " << theStepVector << ", " << TVar( theNbOfSteps ) << " )"; } } //======================================================================= //function : ExtrusionSweepMakeGroups //purpose : //======================================================================= SMESH::ListOfGroups* SMESH_MeshEditor_i::ExtrusionSweepMakeGroups(const SMESH::long_array& theIDsOfElements, const SMESH::DirStruct& theStepVector, CORBA::Long theNbOfSteps) throw (SALOME::SALOME_Exception) { TPythonDump aPythonDump; // it is here to prevent dump of GetGroups() ExtrusionParams params( theStepVector, theNbOfSteps, true ); SMESH::ListOfGroups* aGroups = extrusionSweep( theIDsOfElements, params ); if (!myIsPreviewMode) { dumpGroupsList(aPythonDump, aGroups); aPythonDump << this << ".ExtrusionSweepMakeGroups( " << theIDsOfElements << ", " << theStepVector <<", " << TVar( theNbOfSteps ) << " )"; } return aGroups; } //======================================================================= //function : ExtrusionSweepMakeGroups0D //purpose : //======================================================================= SMESH::ListOfGroups* SMESH_MeshEditor_i::ExtrusionSweepMakeGroups0D(const SMESH::long_array& theIDsOfElements, const SMESH::DirStruct& theStepVector, CORBA::Long theNbOfSteps) throw (SALOME::SALOME_Exception) { TPythonDump aPythonDump; // it is here to prevent dump of GetGroups() ExtrusionParams params( theStepVector, theNbOfSteps, true ); SMESH::ListOfGroups* aGroups = extrusionSweep( theIDsOfElements, params, SMDSAbs_Node ); if (!myIsPreviewMode) { dumpGroupsList(aPythonDump, aGroups); aPythonDump << this << ".ExtrusionSweepMakeGroups0D( " << theIDsOfElements << ", " << theStepVector <<", " << TVar( theNbOfSteps ) << " )"; } return aGroups; } //======================================================================= //function : ExtrusionSweepObjectMakeGroups //purpose : //======================================================================= SMESH::ListOfGroups* SMESH_MeshEditor_i::ExtrusionSweepObjectMakeGroups(SMESH::SMESH_IDSource_ptr theObject, const SMESH::DirStruct& theStepVector, CORBA::Long theNbOfSteps) throw (SALOME::SALOME_Exception) { TPythonDump aPythonDump; // it is here to prevent dump of GetGroups() prepareIdSource( theObject ); SMESH::long_array_var anElementsId = theObject->GetIDs(); ExtrusionParams params( theStepVector, theNbOfSteps, true ); SMESH::ListOfGroups* aGroups = extrusionSweep( anElementsId, params ); if (!myIsPreviewMode) { dumpGroupsList(aPythonDump, aGroups); aPythonDump << this << ".ExtrusionSweepObjectMakeGroups( " << theObject << ", " << theStepVector << ", " << theNbOfSteps << " )"; } return aGroups; } //======================================================================= //function : ExtrusionSweepObject0DMakeGroups //purpose : //======================================================================= SMESH::ListOfGroups* SMESH_MeshEditor_i::ExtrusionSweepObject0DMakeGroups(SMESH::SMESH_IDSource_ptr theObject, const SMESH::DirStruct& theStepVector, CORBA::Long theNbOfSteps) throw (SALOME::SALOME_Exception) { TPythonDump aPythonDump; // it is here to prevent dump of GetGroups() prepareIdSource( theObject ); SMESH::long_array_var anElementsId = theObject->GetIDs(); ExtrusionParams params( theStepVector, theNbOfSteps, true ); SMESH::ListOfGroups* aGroups = extrusionSweep( anElementsId, params, SMDSAbs_Node ); if (!myIsPreviewMode) { dumpGroupsList(aPythonDump, aGroups); aPythonDump << this << ".ExtrusionSweepObject0DMakeGroups( " << theObject << ", " << theStepVector << ", " << TVar( theNbOfSteps ) << " )"; } return aGroups; } //======================================================================= //function : ExtrusionSweepObject1DMakeGroups //purpose : //======================================================================= SMESH::ListOfGroups* SMESH_MeshEditor_i::ExtrusionSweepObject1DMakeGroups(SMESH::SMESH_IDSource_ptr theObject, const SMESH::DirStruct& theStepVector, CORBA::Long theNbOfSteps) throw (SALOME::SALOME_Exception) { TPythonDump aPythonDump; // it is here to prevent dump of GetGroups() prepareIdSource( theObject ); SMESH::long_array_var anElementsId = theObject->GetIDs(); ExtrusionParams params( theStepVector, theNbOfSteps, true ); SMESH::ListOfGroups* aGroups = extrusionSweep( anElementsId, params, SMDSAbs_Edge ); if (!myIsPreviewMode) { dumpGroupsList(aPythonDump, aGroups); aPythonDump << this << ".ExtrusionSweepObject1DMakeGroups( " << theObject << ", " << theStepVector << ", " << TVar( theNbOfSteps ) << " )"; } return aGroups; } //======================================================================= //function : ExtrusionSweepObject2DMakeGroups //purpose : //======================================================================= SMESH::ListOfGroups* SMESH_MeshEditor_i::ExtrusionSweepObject2DMakeGroups(SMESH::SMESH_IDSource_ptr theObject, const SMESH::DirStruct& theStepVector, CORBA::Long theNbOfSteps) throw (SALOME::SALOME_Exception) { TPythonDump aPythonDump; // it is here to prevent dump of GetGroups() prepareIdSource( theObject ); SMESH::long_array_var anElementsId = theObject->GetIDs(); ExtrusionParams params( theStepVector, theNbOfSteps, true ); SMESH::ListOfGroups* aGroups = extrusionSweep( anElementsId, params, SMDSAbs_Face ); if (!myIsPreviewMode) { dumpGroupsList(aPythonDump, aGroups); aPythonDump << this << ".ExtrusionSweepObject2DMakeGroups( " << theObject << ", " << theStepVector << ", " << TVar( theNbOfSteps ) << " )"; } return aGroups; } //======================================================================= //function : ExtrusionByNormal //purpose : //======================================================================= SMESH::ListOfGroups* SMESH_MeshEditor_i::ExtrusionByNormal(SMESH::SMESH_IDSource_ptr object, CORBA::Double stepSize, CORBA::Long nbOfSteps, CORBA::Boolean byAverageNormal, CORBA::Boolean useInputElemsOnly, CORBA::Boolean makeGroups, CORBA::Short dim) throw (SALOME::SALOME_Exception) { TPythonDump aPythonDump; // it is here to prevent dump of GetGroups() ExtrusionParams params( stepSize, nbOfSteps, dim, byAverageNormal, useInputElemsOnly, makeGroups ); SMDSAbs_ElementType elemType = ( dim == 1 ? SMDSAbs_Edge : SMDSAbs_Face ); if ( !SMESH::DownCast( object )) { SMESH::array_of_ElementType_var elemTypes = object->GetTypes(); if (( elemTypes->length() == 1 ) && ( elemTypes[0] == SMESH::EDGE || elemTypes[0] == SMESH::FACE )) elemType = ( SMDSAbs_ElementType ) elemTypes[0]; } prepareIdSource( object ); SMESH::long_array_var anElementsId = object->GetIDs(); SMESH::ListOfGroups* aGroups = extrusionSweep( anElementsId, params, elemType ); if (!myIsPreviewMode) { dumpGroupsList(aPythonDump, aGroups); aPythonDump << this << ".ExtrusionByNormal( " << object << ", " << TVar( stepSize ) << ", " << TVar( nbOfSteps ) << ", " << byAverageNormal << ", " << makeGroups << ", " << dim << " )"; } return aGroups ? aGroups : new SMESH::ListOfGroups; } //======================================================================= //function : AdvancedExtrusion //purpose : //======================================================================= void SMESH_MeshEditor_i::AdvancedExtrusion(const SMESH::long_array & theIDsOfElements, const SMESH::DirStruct & theStepVector, CORBA::Long theNbOfSteps, CORBA::Long theExtrFlags, CORBA::Double theSewTolerance) throw (SALOME::SALOME_Exception) { ExtrusionParams params( theStepVector, theNbOfSteps, false, theExtrFlags, theSewTolerance); extrusionSweep( theIDsOfElements, params ); if ( !myIsPreviewMode ) { TPythonDump() << "stepVector = " << theStepVector; TPythonDump() << this << ".AdvancedExtrusion(" << theIDsOfElements << ", stepVector, " << theNbOfSteps << "," << theExtrFlags << ", " << theSewTolerance << " )"; } } //======================================================================= //function : AdvancedExtrusionMakeGroups //purpose : //======================================================================= SMESH::ListOfGroups* SMESH_MeshEditor_i::AdvancedExtrusionMakeGroups(const SMESH::long_array& theIDsOfElements, const SMESH::DirStruct& theStepVector, CORBA::Long theNbOfSteps, CORBA::Long theExtrFlags, CORBA::Double theSewTolerance) throw (SALOME::SALOME_Exception) { if (!myIsPreviewMode) { TPythonDump() << "stepVector = " << theStepVector; } TPythonDump aPythonDump; // it is here to prevent dump of GetGroups() ExtrusionParams params( theStepVector, theNbOfSteps, true, theExtrFlags, theSewTolerance); SMESH::ListOfGroups * aGroups = extrusionSweep( theIDsOfElements, params ); if (!myIsPreviewMode) { dumpGroupsList(aPythonDump, aGroups); aPythonDump << this << ".AdvancedExtrusionMakeGroups(" << theIDsOfElements << ", stepVector, " << theNbOfSteps << "," << theExtrFlags << ", " << theSewTolerance << " )"; } return aGroups; } //================================================================================ /*! * \brief Convert extrusion error to IDL enum */ //================================================================================ #define RETCASE(enm) case ::SMESH_MeshEditor::enm: return SMESH::SMESH_MeshEditor::enm; static SMESH::SMESH_MeshEditor::Extrusion_Error convExtrError( const::SMESH_MeshEditor::Extrusion_Error e ) { switch ( e ) { RETCASE( EXTR_OK ); RETCASE( EXTR_NO_ELEMENTS ); RETCASE( EXTR_PATH_NOT_EDGE ); RETCASE( EXTR_BAD_PATH_SHAPE ); RETCASE( EXTR_BAD_STARTING_NODE ); RETCASE( EXTR_BAD_ANGLES_NUMBER ); RETCASE( EXTR_CANT_GET_TANGENT ); } return SMESH::SMESH_MeshEditor::EXTR_OK; } //======================================================================= //function : extrusionAlongPath //purpose : //======================================================================= SMESH::ListOfGroups* SMESH_MeshEditor_i::extrusionAlongPath(const SMESH::long_array & theIDsOfElements, SMESH::SMESH_Mesh_ptr thePathMesh, GEOM::GEOM_Object_ptr thePathShape, CORBA::Long theNodeStart, CORBA::Boolean theHasAngles, const SMESH::double_array & theAngles, CORBA::Boolean theHasRefPoint, const SMESH::PointStruct & theRefPoint, const bool theMakeGroups, SMESH::SMESH_MeshEditor::Extrusion_Error & theError, const SMDSAbs_ElementType theElementType) throw (SALOME::SALOME_Exception) { SMESH_TRY; MESSAGE("extrusionAlongPath"); initData(); if ( thePathMesh->_is_nil() || thePathShape->_is_nil() ) { theError = SMESH::SMESH_MeshEditor::EXTR_BAD_PATH_SHAPE; return 0; } SMESH_Mesh_i* aMeshImp = SMESH::DownCast( thePathMesh ); TopoDS_Shape aShape = SMESH_Gen_i::GetSMESHGen()->GeomObjectToShape( thePathShape ); SMESH_subMesh* aSubMesh = aMeshImp->GetImpl().GetSubMesh( aShape ); if ( !aSubMesh || !aSubMesh->GetSubMeshDS()) { theError = SMESH::SMESH_MeshEditor::EXTR_BAD_PATH_SHAPE; return 0; } SMDS_MeshNode* nodeStart = (SMDS_MeshNode*)aMeshImp->GetImpl().GetMeshDS()->FindNode(theNodeStart); if ( !nodeStart ) { theError = SMESH::SMESH_MeshEditor::EXTR_BAD_STARTING_NODE; return 0; } TIDSortedElemSet elements; arrayToSet(theIDsOfElements, getMeshDS(), elements, theElementType); list angles; for (int i = 0; i < theAngles.length(); i++) { angles.push_back( theAngles[i] ); } gp_Pnt refPnt( theRefPoint.x, theRefPoint.y, theRefPoint.z ); int nbOldGroups = myMesh->NbGroup(); ::SMESH_MeshEditor::Extrusion_Error error = getEditor().ExtrusionAlongTrack( elements, aSubMesh, nodeStart, theHasAngles, angles, false, theHasRefPoint, refPnt, theMakeGroups ); declareMeshModified( /*isReComputeSafe=*/true ); theError = convExtrError( error ); if ( theMakeGroups ) { list groupIDs = myMesh->GetGroupIds(); list::iterator newBegin = groupIDs.begin(); std::advance( newBegin, nbOldGroups ); // skip old groups groupIDs.erase( groupIDs.begin(), newBegin ); return getGroups( & groupIDs ); } return 0; SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //======================================================================= //function : extrusionAlongPathX //purpose : //======================================================================= SMESH::ListOfGroups* SMESH_MeshEditor_i::extrusionAlongPathX(const SMESH::long_array & IDsOfElements, SMESH::SMESH_IDSource_ptr Path, CORBA::Long NodeStart, CORBA::Boolean HasAngles, const SMESH::double_array& Angles, CORBA::Boolean LinearVariation, CORBA::Boolean HasRefPoint, const SMESH::PointStruct& RefPoint, bool MakeGroups, const SMDSAbs_ElementType ElementType, SMESH::SMESH_MeshEditor::Extrusion_Error & Error) throw (SALOME::SALOME_Exception) { SMESH_TRY; SMESH::ListOfGroups* EmptyGr = new SMESH::ListOfGroups; initData(); list angles; for (int i = 0; i < Angles.length(); i++) { angles.push_back( Angles[i] ); } gp_Pnt refPnt( RefPoint.x, RefPoint.y, RefPoint.z ); int nbOldGroups = myMesh->NbGroup(); if ( Path->_is_nil() ) { Error = SMESH::SMESH_MeshEditor::EXTR_BAD_PATH_SHAPE; return EmptyGr; } TIDSortedElemSet elements, copyElements; arrayToSet(IDsOfElements, getMeshDS(), elements, ElementType); TIDSortedElemSet* workElements = &elements; if ( myIsPreviewMode ) { SMDSAbs_ElementType select = SMDSAbs_All, avoid = SMDSAbs_Volume; getPreviewMesh( SMDSAbs_Face )->Copy( elements, copyElements, select, avoid ); workElements = & copyElements; MakeGroups = false; } ::SMESH_MeshEditor::Extrusion_Error error; if ( SMESH_Mesh_i* aMeshImp = SMESH::DownCast( Path )) { // path as mesh SMDS_MeshNode* aNodeStart = (SMDS_MeshNode*)aMeshImp->GetImpl().GetMeshDS()->FindNode(NodeStart); if ( !aNodeStart ) { Error = SMESH::SMESH_MeshEditor::EXTR_BAD_STARTING_NODE; return EmptyGr; } error = getEditor().ExtrusionAlongTrack( *workElements, &(aMeshImp->GetImpl()), aNodeStart, HasAngles, angles, LinearVariation, HasRefPoint, refPnt, MakeGroups ); declareMeshModified( /*isReComputeSafe=*/true ); } else if ( SMESH_subMesh_i* aSubMeshImp = SMESH::DownCast( Path )) { // path as submesh SMESH::SMESH_Mesh_ptr aPathMesh = aSubMeshImp->GetFather(); aMeshImp = SMESH::DownCast( aPathMesh ); SMDS_MeshNode* aNodeStart = (SMDS_MeshNode*)aMeshImp->GetImpl().GetMeshDS()->FindNode(NodeStart); if ( !aNodeStart ) { Error = SMESH::SMESH_MeshEditor::EXTR_BAD_STARTING_NODE; return EmptyGr; } SMESH_subMesh* aSubMesh = aMeshImp->GetImpl().GetSubMeshContaining(aSubMeshImp->GetId()); error = getEditor().ExtrusionAlongTrack( *workElements, aSubMesh, aNodeStart, HasAngles, angles, LinearVariation, HasRefPoint, refPnt, MakeGroups ); declareMeshModified( /*isReComputeSafe=*/true ); } else if ( SMESH::DownCast( Path )) { // path as group of 1D elements // ???????? } else { // invalid path Error = SMESH::SMESH_MeshEditor::EXTR_BAD_PATH_SHAPE; return EmptyGr; } Error = convExtrError( error ); if ( MakeGroups ) { list groupIDs = myMesh->GetGroupIds(); list::iterator newBegin = groupIDs.begin(); std::advance( newBegin, nbOldGroups ); // skip old groups groupIDs.erase( groupIDs.begin(), newBegin ); return getGroups( & groupIDs ); } return EmptyGr; SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //======================================================================= //function : ExtrusionAlongPath //purpose : //======================================================================= SMESH::SMESH_MeshEditor::Extrusion_Error SMESH_MeshEditor_i::ExtrusionAlongPath(const SMESH::long_array & theIDsOfElements, SMESH::SMESH_Mesh_ptr thePathMesh, GEOM::GEOM_Object_ptr thePathShape, CORBA::Long theNodeStart, CORBA::Boolean theHasAngles, const SMESH::double_array & theAngles, CORBA::Boolean theHasRefPoint, const SMESH::PointStruct & theRefPoint) throw (SALOME::SALOME_Exception) { MESSAGE("ExtrusionAlongPath"); if ( !myIsPreviewMode ) { TPythonDump() << "error = " << this << ".ExtrusionAlongPath( " << theIDsOfElements << ", " << thePathMesh << ", " << thePathShape << ", " << theNodeStart << ", " << theHasAngles << ", " << theAngles << ", " << theHasRefPoint << ", " << "SMESH.PointStruct( " << ( theHasRefPoint ? theRefPoint.x : 0 ) << ", " << ( theHasRefPoint ? theRefPoint.y : 0 ) << ", " << ( theHasRefPoint ? theRefPoint.z : 0 ) << " ) )"; } SMESH::SMESH_MeshEditor::Extrusion_Error anError; extrusionAlongPath( theIDsOfElements, thePathMesh, thePathShape, theNodeStart, theHasAngles, theAngles, theHasRefPoint, theRefPoint, false, anError); return anError; } //======================================================================= //function : ExtrusionAlongPathObject //purpose : //======================================================================= SMESH::SMESH_MeshEditor::Extrusion_Error SMESH_MeshEditor_i::ExtrusionAlongPathObject(SMESH::SMESH_IDSource_ptr theObject, SMESH::SMESH_Mesh_ptr thePathMesh, GEOM::GEOM_Object_ptr thePathShape, CORBA::Long theNodeStart, CORBA::Boolean theHasAngles, const SMESH::double_array & theAngles, CORBA::Boolean theHasRefPoint, const SMESH::PointStruct & theRefPoint) throw (SALOME::SALOME_Exception) { if ( !myIsPreviewMode ) { TPythonDump() << "error = " << this << ".ExtrusionAlongPathObject( " << theObject << ", " << thePathMesh << ", " << thePathShape << ", " << theNodeStart << ", " << theHasAngles << ", " << theAngles << ", " << theHasRefPoint << ", " << "SMESH.PointStruct( " << ( theHasRefPoint ? theRefPoint.x : 0 ) << ", " << ( theHasRefPoint ? theRefPoint.y : 0 ) << ", " << ( theHasRefPoint ? theRefPoint.z : 0 ) << " ) )"; } SMESH::SMESH_MeshEditor::Extrusion_Error anError; prepareIdSource( theObject ); SMESH::long_array_var anElementsId = theObject->GetIDs(); extrusionAlongPath( anElementsId, thePathMesh, thePathShape, theNodeStart, theHasAngles, theAngles, theHasRefPoint, theRefPoint, false, anError); return anError; } //======================================================================= //function : ExtrusionAlongPathObject1D //purpose : //======================================================================= SMESH::SMESH_MeshEditor::Extrusion_Error SMESH_MeshEditor_i::ExtrusionAlongPathObject1D(SMESH::SMESH_IDSource_ptr theObject, SMESH::SMESH_Mesh_ptr thePathMesh, GEOM::GEOM_Object_ptr thePathShape, CORBA::Long theNodeStart, CORBA::Boolean theHasAngles, const SMESH::double_array & theAngles, CORBA::Boolean theHasRefPoint, const SMESH::PointStruct & theRefPoint) throw (SALOME::SALOME_Exception) { if ( !myIsPreviewMode ) { TPythonDump() << "error = " << this << ".ExtrusionAlongPathObject1D( " << theObject << ", " << thePathMesh << ", " << thePathShape << ", " << theNodeStart << ", " << theHasAngles << ", " << theAngles << ", " << theHasRefPoint << ", " << "SMESH.PointStruct( " << ( theHasRefPoint ? theRefPoint.x : 0 ) << ", " << ( theHasRefPoint ? theRefPoint.y : 0 ) << ", " << ( theHasRefPoint ? theRefPoint.z : 0 ) << " ) )"; } SMESH::SMESH_MeshEditor::Extrusion_Error anError; prepareIdSource( theObject ); SMESH::long_array_var anElementsId = theObject->GetIDs(); extrusionAlongPath( anElementsId, thePathMesh, thePathShape, theNodeStart, theHasAngles, theAngles, theHasRefPoint, theRefPoint, false, anError, SMDSAbs_Edge); return anError; } //======================================================================= //function : ExtrusionAlongPathObject2D //purpose : //======================================================================= SMESH::SMESH_MeshEditor::Extrusion_Error SMESH_MeshEditor_i::ExtrusionAlongPathObject2D(SMESH::SMESH_IDSource_ptr theObject, SMESH::SMESH_Mesh_ptr thePathMesh, GEOM::GEOM_Object_ptr thePathShape, CORBA::Long theNodeStart, CORBA::Boolean theHasAngles, const SMESH::double_array & theAngles, CORBA::Boolean theHasRefPoint, const SMESH::PointStruct & theRefPoint) throw (SALOME::SALOME_Exception) { if ( !myIsPreviewMode ) { TPythonDump() << "error = " << this << ".ExtrusionAlongPathObject2D( " << theObject << ", " << thePathMesh << ", " << thePathShape << ", " << theNodeStart << ", " << theHasAngles << ", " << theAngles << ", " << theHasRefPoint << ", " << "SMESH.PointStruct( " << ( theHasRefPoint ? theRefPoint.x : 0 ) << ", " << ( theHasRefPoint ? theRefPoint.y : 0 ) << ", " << ( theHasRefPoint ? theRefPoint.z : 0 ) << " ) )"; } SMESH::SMESH_MeshEditor::Extrusion_Error anError; prepareIdSource( theObject ); SMESH::long_array_var anElementsId = theObject->GetIDs(); extrusionAlongPath( anElementsId, thePathMesh, thePathShape, theNodeStart, theHasAngles, theAngles, theHasRefPoint, theRefPoint, false, anError, SMDSAbs_Face); return anError; } //======================================================================= //function : ExtrusionAlongPathMakeGroups //purpose : //======================================================================= SMESH::ListOfGroups* SMESH_MeshEditor_i::ExtrusionAlongPathMakeGroups(const SMESH::long_array& theIDsOfElements, SMESH::SMESH_Mesh_ptr thePathMesh, GEOM::GEOM_Object_ptr thePathShape, CORBA::Long theNodeStart, CORBA::Boolean theHasAngles, const SMESH::double_array& theAngles, CORBA::Boolean theHasRefPoint, const SMESH::PointStruct& theRefPoint, SMESH::SMESH_MeshEditor::Extrusion_Error& Error) throw (SALOME::SALOME_Exception) { TPythonDump aPythonDump; // it is here to prevent dump of GetGroups() SMESH::ListOfGroups * aGroups = extrusionAlongPath( theIDsOfElements, thePathMesh, thePathShape, theNodeStart, theHasAngles, theAngles, theHasRefPoint, theRefPoint, true, Error); if (!myIsPreviewMode) { bool isDumpGroups = aGroups && aGroups->length() > 0; if (isDumpGroups) aPythonDump << "(" << aGroups << ", error)"; else aPythonDump <<"error"; aPythonDump<<" = "<< this << ".ExtrusionAlongPathMakeGroups( " << theIDsOfElements << ", " << thePathMesh << ", " << thePathShape << ", " << theNodeStart << ", " << theHasAngles << ", " << theAngles << ", " << theHasRefPoint << ", " << "SMESH.PointStruct( " << ( theHasRefPoint ? theRefPoint.x : 0 ) << ", " << ( theHasRefPoint ? theRefPoint.y : 0 ) << ", " << ( theHasRefPoint ? theRefPoint.z : 0 ) << " ) )"; } return aGroups; } //======================================================================= //function : ExtrusionAlongPathObjectMakeGroups //purpose : //======================================================================= SMESH::ListOfGroups* SMESH_MeshEditor_i:: ExtrusionAlongPathObjectMakeGroups(SMESH::SMESH_IDSource_ptr theObject, SMESH::SMESH_Mesh_ptr thePathMesh, GEOM::GEOM_Object_ptr thePathShape, CORBA::Long theNodeStart, CORBA::Boolean theHasAngles, const SMESH::double_array& theAngles, CORBA::Boolean theHasRefPoint, const SMESH::PointStruct& theRefPoint, SMESH::SMESH_MeshEditor::Extrusion_Error& Error) throw (SALOME::SALOME_Exception) { TPythonDump aPythonDump; // it is here to prevent dump of GetGroups() prepareIdSource( theObject ); SMESH::long_array_var anElementsId = theObject->GetIDs(); SMESH::ListOfGroups * aGroups = extrusionAlongPath( anElementsId, thePathMesh, thePathShape, theNodeStart, theHasAngles, theAngles, theHasRefPoint, theRefPoint, true, Error); if (!myIsPreviewMode) { bool isDumpGroups = aGroups && aGroups->length() > 0; if (isDumpGroups) aPythonDump << "(" << aGroups << ", error)"; else aPythonDump <<"error"; aPythonDump << " = " << this << ".ExtrusionAlongPathObjectMakeGroups( " << theObject << ", " << thePathMesh << ", " << thePathShape << ", " << theNodeStart << ", " << theHasAngles << ", " << theAngles << ", " << theHasRefPoint << ", " << "SMESH.PointStruct( " << ( theHasRefPoint ? theRefPoint.x : 0 ) << ", " << ( theHasRefPoint ? theRefPoint.y : 0 ) << ", " << ( theHasRefPoint ? theRefPoint.z : 0 ) << " ) )"; } return aGroups; } //======================================================================= //function : ExtrusionAlongPathObject1DMakeGroups //purpose : //======================================================================= SMESH::ListOfGroups* SMESH_MeshEditor_i:: ExtrusionAlongPathObject1DMakeGroups(SMESH::SMESH_IDSource_ptr theObject, SMESH::SMESH_Mesh_ptr thePathMesh, GEOM::GEOM_Object_ptr thePathShape, CORBA::Long theNodeStart, CORBA::Boolean theHasAngles, const SMESH::double_array& theAngles, CORBA::Boolean theHasRefPoint, const SMESH::PointStruct& theRefPoint, SMESH::SMESH_MeshEditor::Extrusion_Error& Error) throw (SALOME::SALOME_Exception) { TPythonDump aPythonDump; // it is here to prevent dump of GetGroups() prepareIdSource( theObject ); SMESH::long_array_var anElementsId = theObject->GetIDs(); SMESH::ListOfGroups * aGroups = extrusionAlongPath( anElementsId, thePathMesh, thePathShape, theNodeStart, theHasAngles, theAngles, theHasRefPoint, theRefPoint, true, Error, SMDSAbs_Edge); if (!myIsPreviewMode) { bool isDumpGroups = aGroups && aGroups->length() > 0; if (isDumpGroups) aPythonDump << "(" << aGroups << ", error)"; else aPythonDump << "error"; aPythonDump << " = " << this << ".ExtrusionAlongPathObject1DMakeGroups( " << theObject << ", " << thePathMesh << ", " << thePathShape << ", " << theNodeStart << ", " << theHasAngles << ", " << theAngles << ", " << theHasRefPoint << ", " << "SMESH.PointStruct( " << ( theHasRefPoint ? theRefPoint.x : 0 ) << ", " << ( theHasRefPoint ? theRefPoint.y : 0 ) << ", " << ( theHasRefPoint ? theRefPoint.z : 0 ) << " ) )"; } return aGroups; } //======================================================================= //function : ExtrusionAlongPathObject2DMakeGroups //purpose : //======================================================================= SMESH::ListOfGroups* SMESH_MeshEditor_i:: ExtrusionAlongPathObject2DMakeGroups(SMESH::SMESH_IDSource_ptr theObject, SMESH::SMESH_Mesh_ptr thePathMesh, GEOM::GEOM_Object_ptr thePathShape, CORBA::Long theNodeStart, CORBA::Boolean theHasAngles, const SMESH::double_array& theAngles, CORBA::Boolean theHasRefPoint, const SMESH::PointStruct& theRefPoint, SMESH::SMESH_MeshEditor::Extrusion_Error& Error) throw (SALOME::SALOME_Exception) { TPythonDump aPythonDump; // it is here to prevent dump of GetGroups() prepareIdSource( theObject ); SMESH::long_array_var anElementsId = theObject->GetIDs(); SMESH::ListOfGroups * aGroups = extrusionAlongPath( anElementsId, thePathMesh, thePathShape, theNodeStart, theHasAngles, theAngles, theHasRefPoint, theRefPoint, true, Error, SMDSAbs_Face); if (!myIsPreviewMode) { bool isDumpGroups = aGroups && aGroups->length() > 0; if (isDumpGroups) aPythonDump << "(" << aGroups << ", error)"; else aPythonDump << "error"; aPythonDump << " = " << this << ".ExtrusionAlongPathObject2DMakeGroups( " << theObject << ", " << thePathMesh << ", " << thePathShape << ", " << theNodeStart << ", " << theHasAngles << ", " << theAngles << ", " << theHasRefPoint << ", " << "SMESH.PointStruct( " << ( theHasRefPoint ? theRefPoint.x : 0 ) << ", " << ( theHasRefPoint ? theRefPoint.y : 0 ) << ", " << ( theHasRefPoint ? theRefPoint.z : 0 ) << " ) )"; } return aGroups; } //======================================================================= //function : ExtrusionAlongPathObjX //purpose : //======================================================================= SMESH::ListOfGroups* SMESH_MeshEditor_i:: ExtrusionAlongPathObjX(SMESH::SMESH_IDSource_ptr Object, SMESH::SMESH_IDSource_ptr Path, CORBA::Long NodeStart, CORBA::Boolean HasAngles, const SMESH::double_array& Angles, CORBA::Boolean LinearVariation, CORBA::Boolean HasRefPoint, const SMESH::PointStruct& RefPoint, CORBA::Boolean MakeGroups, SMESH::ElementType ElemType, SMESH::SMESH_MeshEditor::Extrusion_Error& Error) throw (SALOME::SALOME_Exception) { TPythonDump aPythonDump; // it is here to prevent dump of GetGroups() prepareIdSource( Object ); SMESH::long_array_var anElementsId = Object->GetIDs(); SMESH::ListOfGroups * aGroups = extrusionAlongPathX(anElementsId, Path, NodeStart, HasAngles, Angles, LinearVariation, HasRefPoint, RefPoint, MakeGroups, (SMDSAbs_ElementType)ElemType, Error); if (!myIsPreviewMode) { bool isDumpGroups = aGroups && aGroups->length() > 0; if (isDumpGroups) aPythonDump << "(" << *aGroups << ", error)"; else aPythonDump << "error"; aPythonDump << " = " << this << ".ExtrusionAlongPathObjX( " << Object << ", " << Path << ", " << NodeStart << ", " << HasAngles << ", " << TVar( Angles ) << ", " << LinearVariation << ", " << HasRefPoint << ", " << "SMESH.PointStruct( " << TVar( HasRefPoint ? RefPoint.x : 0 ) << ", " << TVar( HasRefPoint ? RefPoint.y : 0 ) << ", " << TVar( HasRefPoint ? RefPoint.z : 0 ) << " ), " << MakeGroups << ", " << ElemType << " )"; } return aGroups; } //======================================================================= //function : ExtrusionAlongPathX //purpose : //======================================================================= SMESH::ListOfGroups* SMESH_MeshEditor_i:: ExtrusionAlongPathX(const SMESH::long_array& IDsOfElements, SMESH::SMESH_IDSource_ptr Path, CORBA::Long NodeStart, CORBA::Boolean HasAngles, const SMESH::double_array& Angles, CORBA::Boolean LinearVariation, CORBA::Boolean HasRefPoint, const SMESH::PointStruct& RefPoint, CORBA::Boolean MakeGroups, SMESH::ElementType ElemType, SMESH::SMESH_MeshEditor::Extrusion_Error& Error) throw (SALOME::SALOME_Exception) { TPythonDump aPythonDump; // it is here to prevent dump of GetGroups() SMESH::ListOfGroups * aGroups = extrusionAlongPathX(IDsOfElements, Path, NodeStart, HasAngles, Angles, LinearVariation, HasRefPoint, RefPoint, MakeGroups, (SMDSAbs_ElementType)ElemType, Error); if (!myIsPreviewMode) { bool isDumpGroups = aGroups && aGroups->length() > 0; if (isDumpGroups) aPythonDump << "(" << *aGroups << ", error)"; else aPythonDump <<"error"; aPythonDump << " = " << this << ".ExtrusionAlongPathX( " << IDsOfElements << ", " << Path << ", " << NodeStart << ", " << HasAngles << ", " << TVar( Angles ) << ", " << LinearVariation << ", " << HasRefPoint << ", " << "SMESH.PointStruct( " << TVar( HasRefPoint ? RefPoint.x : 0 ) << ", " << TVar( HasRefPoint ? RefPoint.y : 0 ) << ", " << TVar( HasRefPoint ? RefPoint.z : 0 ) << " ), " << MakeGroups << ", " << ElemType << " )"; } return aGroups; } //================================================================================ /*! * \brief Compute rotation angles for ExtrusionAlongPath as linear variation * of given angles along path steps * \param PathMesh mesh containing a 1D sub-mesh on the edge, along * which proceeds the extrusion * \param PathShape is shape(edge); as the mesh can be complex, the edge * is used to define the sub-mesh for the path */ //================================================================================ SMESH::double_array* SMESH_MeshEditor_i::LinearAnglesVariation(SMESH::SMESH_Mesh_ptr thePathMesh, GEOM::GEOM_Object_ptr thePathShape, const SMESH::double_array & theAngles) { SMESH::double_array_var aResult = new SMESH::double_array(); int nbAngles = theAngles.length(); if ( nbAngles > 0 && !thePathMesh->_is_nil() && !thePathShape->_is_nil() ) { SMESH_Mesh_i* aMeshImp = SMESH::DownCast( thePathMesh ); TopoDS_Shape aShape = SMESH_Gen_i::GetSMESHGen()->GeomObjectToShape( thePathShape ); SMESH_subMesh* aSubMesh = aMeshImp->GetImpl().GetSubMesh( aShape ); if ( !aSubMesh || !aSubMesh->GetSubMeshDS()) return aResult._retn(); int nbSteps = aSubMesh->GetSubMeshDS()->NbElements(); if ( nbSteps == nbAngles ) { aResult.inout() = theAngles; } else { aResult->length( nbSteps ); double rAn2St = double( nbAngles ) / double( nbSteps ); double angPrev = 0, angle; for ( int iSt = 0; iSt < nbSteps; ++iSt ) { double angCur = rAn2St * ( iSt+1 ); double angCurFloor = floor( angCur ); double angPrevFloor = floor( angPrev ); if ( angPrevFloor == angCurFloor ) angle = rAn2St * theAngles[ int( angCurFloor ) ]; else { int iP = int( angPrevFloor ); double angPrevCeil = ceil(angPrev); angle = ( angPrevCeil - angPrev ) * theAngles[ iP ]; int iC = int( angCurFloor ); if ( iC < nbAngles ) angle += ( angCur - angCurFloor ) * theAngles[ iC ]; iP = int( angPrevCeil ); while ( iC-- > iP ) angle += theAngles[ iC ]; } aResult[ iSt ] = angle; angPrev = angCur; } } } // Update Python script TPythonDump() << "rotAngles = " << theAngles; TPythonDump() << "rotAngles = " << this << ".LinearAnglesVariation( " << thePathMesh << ", " << thePathShape << ", " << "rotAngles )"; return aResult._retn(); } //======================================================================= //function : mirror //purpose : //======================================================================= SMESH::ListOfGroups* SMESH_MeshEditor_i::mirror(TIDSortedElemSet & theElements, const SMESH::AxisStruct & theAxis, SMESH::SMESH_MeshEditor::MirrorType theMirrorType, CORBA::Boolean theCopy, bool theMakeGroups, ::SMESH_Mesh* theTargetMesh) throw (SALOME::SALOME_Exception) { SMESH_TRY; initData(); gp_Pnt P ( theAxis.x, theAxis.y, theAxis.z ); gp_Vec V ( theAxis.vx, theAxis.vy, theAxis.vz ); if ( theTargetMesh ) theCopy = false; gp_Trsf aTrsf; switch ( theMirrorType ) { case SMESH::SMESH_MeshEditor::POINT: aTrsf.SetMirror( P ); break; case SMESH::SMESH_MeshEditor::AXIS: aTrsf.SetMirror( gp_Ax1( P, V )); break; default: aTrsf.SetMirror( gp_Ax2( P, V )); } TIDSortedElemSet copyElements; TIDSortedElemSet* workElements = & theElements; if ( myIsPreviewMode ) { TPreviewMesh * tmpMesh = getPreviewMesh(); tmpMesh->Copy( theElements, copyElements); if ( !theCopy && !theTargetMesh ) { TIDSortedElemSet elemsAround, elemsAroundCopy; getElementsAround( theElements, getMeshDS(), elemsAround ); tmpMesh->Copy( elemsAround, elemsAroundCopy); } workElements = & copyElements; theMakeGroups = false; } ::SMESH_MeshEditor::PGroupIDs groupIds = getEditor().Transform (*workElements, aTrsf, theCopy, theMakeGroups, theTargetMesh); if ( theCopy && !myIsPreviewMode) { if ( theTargetMesh ) { theTargetMesh->GetMeshDS()->Modified(); } else { declareMeshModified( /*isReComputeSafe=*/false ); } } return theMakeGroups ? getGroups(groupIds.get()) : 0; SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //======================================================================= //function : Mirror //purpose : //======================================================================= void SMESH_MeshEditor_i::Mirror(const SMESH::long_array & theIDsOfElements, const SMESH::AxisStruct & theAxis, SMESH::SMESH_MeshEditor::MirrorType theMirrorType, CORBA::Boolean theCopy) throw (SALOME::SALOME_Exception) { if ( !myIsPreviewMode ) { TPythonDump() << this << ".Mirror( " << theIDsOfElements << ", " << theAxis << ", " << mirrorTypeName(theMirrorType) << ", " << theCopy << " )"; } if ( theIDsOfElements.length() > 0 ) { TIDSortedElemSet elements; arrayToSet(theIDsOfElements, getMeshDS(), elements); mirror(elements, theAxis, theMirrorType, theCopy, false); } } //======================================================================= //function : MirrorObject //purpose : //======================================================================= void SMESH_MeshEditor_i::MirrorObject(SMESH::SMESH_IDSource_ptr theObject, const SMESH::AxisStruct & theAxis, SMESH::SMESH_MeshEditor::MirrorType theMirrorType, CORBA::Boolean theCopy) throw (SALOME::SALOME_Exception) { if ( !myIsPreviewMode ) { TPythonDump() << this << ".MirrorObject( " << theObject << ", " << theAxis << ", " << mirrorTypeName(theMirrorType) << ", " << theCopy << " )"; } TIDSortedElemSet elements; bool emptyIfIsMesh = myIsPreviewMode ? false : true; prepareIdSource( theObject ); if (idSourceToSet(theObject, getMeshDS(), elements, SMDSAbs_All, emptyIfIsMesh)) mirror(elements, theAxis, theMirrorType, theCopy, false); } //======================================================================= //function : MirrorMakeGroups //purpose : //======================================================================= SMESH::ListOfGroups* SMESH_MeshEditor_i::MirrorMakeGroups(const SMESH::long_array& theIDsOfElements, const SMESH::AxisStruct& theMirror, SMESH::SMESH_MeshEditor::MirrorType theMirrorType) throw (SALOME::SALOME_Exception) { TPythonDump aPythonDump; // it is here to prevent dump of GetGroups() SMESH::ListOfGroups * aGroups = 0; if ( theIDsOfElements.length() > 0 ) { TIDSortedElemSet elements; arrayToSet(theIDsOfElements, getMeshDS(), elements); aGroups = mirror(elements, theMirror, theMirrorType, true, true); } if (!myIsPreviewMode) { dumpGroupsList(aPythonDump, aGroups); aPythonDump << this << ".MirrorMakeGroups( " << theIDsOfElements << ", " << theMirror << ", " << mirrorTypeName(theMirrorType) << " )"; } return aGroups; } //======================================================================= //function : MirrorObjectMakeGroups //purpose : //======================================================================= SMESH::ListOfGroups* SMESH_MeshEditor_i::MirrorObjectMakeGroups(SMESH::SMESH_IDSource_ptr theObject, const SMESH::AxisStruct& theMirror, SMESH::SMESH_MeshEditor::MirrorType theMirrorType) throw (SALOME::SALOME_Exception) { TPythonDump aPythonDump; // it is here to prevent dump of GetGroups() SMESH::ListOfGroups * aGroups = 0; TIDSortedElemSet elements; prepareIdSource( theObject ); if ( idSourceToSet(theObject, getMeshDS(), elements, SMDSAbs_All, /*emptyIfIsMesh=*/1)) aGroups = mirror(elements, theMirror, theMirrorType, true, true); if (!myIsPreviewMode) { dumpGroupsList(aPythonDump,aGroups); aPythonDump << this << ".MirrorObjectMakeGroups( " << theObject << ", " << theMirror << ", " << mirrorTypeName(theMirrorType) << " )"; } return aGroups; } //======================================================================= //function : MirrorMakeMesh //purpose : //======================================================================= SMESH::SMESH_Mesh_ptr SMESH_MeshEditor_i::MirrorMakeMesh(const SMESH::long_array& theIDsOfElements, const SMESH::AxisStruct& theMirror, SMESH::SMESH_MeshEditor::MirrorType theMirrorType, CORBA::Boolean theCopyGroups, const char* theMeshName) throw (SALOME::SALOME_Exception) { SMESH_Mesh_i* mesh_i; SMESH::SMESH_Mesh_var mesh; { // open new scope to dump "MakeMesh" command // and then "GetGroups" using SMESH_Mesh::GetGroups() TPythonDump pydump; // to prevent dump at mesh creation mesh = makeMesh( theMeshName ); mesh_i = SMESH::DownCast( mesh ); if (mesh_i && theIDsOfElements.length() > 0 ) { TIDSortedElemSet elements; arrayToSet(theIDsOfElements, getMeshDS(), elements); mirror(elements, theMirror, theMirrorType, false, theCopyGroups, & mesh_i->GetImpl()); mesh_i->CreateGroupServants(); } if (!myIsPreviewMode) { pydump << mesh << " = " << this << ".MirrorMakeMesh( " << theIDsOfElements << ", " << theMirror << ", " << mirrorTypeName(theMirrorType) << ", " << theCopyGroups << ", '" << theMeshName << "' )"; } } //dump "GetGroups" if (!myIsPreviewMode && mesh_i) mesh_i->GetGroups(); return mesh._retn(); } //======================================================================= //function : MirrorObjectMakeMesh //purpose : //======================================================================= SMESH::SMESH_Mesh_ptr SMESH_MeshEditor_i::MirrorObjectMakeMesh(SMESH::SMESH_IDSource_ptr theObject, const SMESH::AxisStruct& theMirror, SMESH::SMESH_MeshEditor::MirrorType theMirrorType, CORBA::Boolean theCopyGroups, const char* theMeshName) throw (SALOME::SALOME_Exception) { SMESH_Mesh_i* mesh_i; SMESH::SMESH_Mesh_var mesh; { // open new scope to dump "MakeMesh" command // and then "GetGroups" using SMESH_Mesh::GetGroups() TPythonDump pydump; // to prevent dump at mesh creation mesh = makeMesh( theMeshName ); mesh_i = SMESH::DownCast( mesh ); TIDSortedElemSet elements; prepareIdSource( theObject ); if ( mesh_i && idSourceToSet(theObject, getMeshDS(), elements, SMDSAbs_All, /*emptyIfIsMesh=*/1)) { mirror(elements, theMirror, theMirrorType, false, theCopyGroups, & mesh_i->GetImpl()); mesh_i->CreateGroupServants(); } if (!myIsPreviewMode) { pydump << mesh << " = " << this << ".MirrorObjectMakeMesh( " << theObject << ", " << theMirror << ", " << mirrorTypeName(theMirrorType) << ", " << theCopyGroups << ", '" << theMeshName << "' )"; } } //dump "GetGroups" if (!myIsPreviewMode && mesh_i) mesh_i->GetGroups(); return mesh._retn(); } //======================================================================= //function : translate //purpose : //======================================================================= SMESH::ListOfGroups* SMESH_MeshEditor_i::translate(TIDSortedElemSet & theElements, const SMESH::DirStruct & theVector, CORBA::Boolean theCopy, bool theMakeGroups, ::SMESH_Mesh* theTargetMesh) throw (SALOME::SALOME_Exception) { SMESH_TRY; initData(); if ( theTargetMesh ) theCopy = false; gp_Trsf aTrsf; const SMESH::PointStruct * P = &theVector.PS; aTrsf.SetTranslation( gp_Vec( P->x, P->y, P->z )); TIDSortedElemSet copyElements; TIDSortedElemSet* workElements = &theElements; if ( myIsPreviewMode ) { TPreviewMesh * tmpMesh = getPreviewMesh(); tmpMesh->Copy( theElements, copyElements); if ( !theCopy && !theTargetMesh ) { TIDSortedElemSet elemsAround, elemsAroundCopy; getElementsAround( theElements, getMeshDS(), elemsAround ); tmpMesh->Copy( elemsAround, elemsAroundCopy); } workElements = & copyElements; theMakeGroups = false; } ::SMESH_MeshEditor::PGroupIDs groupIds = getEditor().Transform (*workElements, aTrsf, theCopy, theMakeGroups, theTargetMesh); if ( theCopy && !myIsPreviewMode ) { if ( theTargetMesh ) { theTargetMesh->GetMeshDS()->Modified(); } else { declareMeshModified( /*isReComputeSafe=*/false ); } } return theMakeGroups ? getGroups(groupIds.get()) : 0; SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //======================================================================= //function : Translate //purpose : //======================================================================= void SMESH_MeshEditor_i::Translate(const SMESH::long_array & theIDsOfElements, const SMESH::DirStruct & theVector, CORBA::Boolean theCopy) throw (SALOME::SALOME_Exception) { if (!myIsPreviewMode) { TPythonDump() << this << ".Translate( " << theIDsOfElements << ", " << theVector << ", " << theCopy << " )"; } if (theIDsOfElements.length()) { TIDSortedElemSet elements; arrayToSet(theIDsOfElements, getMeshDS(), elements); translate(elements, theVector, theCopy, false); } } //======================================================================= //function : TranslateObject //purpose : //======================================================================= void SMESH_MeshEditor_i::TranslateObject(SMESH::SMESH_IDSource_ptr theObject, const SMESH::DirStruct & theVector, CORBA::Boolean theCopy) throw (SALOME::SALOME_Exception) { if (!myIsPreviewMode) { TPythonDump() << this << ".TranslateObject( " << theObject << ", " << theVector << ", " << theCopy << " )"; } TIDSortedElemSet elements; bool emptyIfIsMesh = myIsPreviewMode ? false : true; prepareIdSource( theObject ); if (idSourceToSet(theObject, getMeshDS(), elements, SMDSAbs_All, emptyIfIsMesh)) translate(elements, theVector, theCopy, false); } //======================================================================= //function : TranslateMakeGroups //purpose : //======================================================================= SMESH::ListOfGroups* SMESH_MeshEditor_i::TranslateMakeGroups(const SMESH::long_array& theIDsOfElements, const SMESH::DirStruct& theVector) throw (SALOME::SALOME_Exception) { TPythonDump aPythonDump; // it is here to prevent dump of GetGroups() SMESH::ListOfGroups * aGroups = 0; if (theIDsOfElements.length()) { TIDSortedElemSet elements; arrayToSet(theIDsOfElements, getMeshDS(), elements); aGroups = translate(elements,theVector,true,true); } if (!myIsPreviewMode) { dumpGroupsList(aPythonDump, aGroups); aPythonDump << this << ".TranslateMakeGroups( " << theIDsOfElements << ", " << theVector << " )"; } return aGroups; } //======================================================================= //function : TranslateObjectMakeGroups //purpose : //======================================================================= SMESH::ListOfGroups* SMESH_MeshEditor_i::TranslateObjectMakeGroups(SMESH::SMESH_IDSource_ptr theObject, const SMESH::DirStruct& theVector) throw (SALOME::SALOME_Exception) { TPythonDump aPythonDump; // it is here to prevent dump of GetGroups() SMESH::ListOfGroups * aGroups = 0; TIDSortedElemSet elements; prepareIdSource( theObject ); if (idSourceToSet(theObject, getMeshDS(), elements, SMDSAbs_All, /*emptyIfIsMesh=*/1)) aGroups = translate(elements, theVector, true, true); if (!myIsPreviewMode) { dumpGroupsList(aPythonDump, aGroups); aPythonDump << this << ".TranslateObjectMakeGroups( " << theObject << ", " << theVector << " )"; } return aGroups; } //======================================================================= //function : TranslateMakeMesh //purpose : //======================================================================= SMESH::SMESH_Mesh_ptr SMESH_MeshEditor_i::TranslateMakeMesh(const SMESH::long_array& theIDsOfElements, const SMESH::DirStruct& theVector, CORBA::Boolean theCopyGroups, const char* theMeshName) throw (SALOME::SALOME_Exception) { SMESH_Mesh_i* mesh_i; SMESH::SMESH_Mesh_var mesh; { // open new scope to dump "MakeMesh" command // and then "GetGroups" using SMESH_Mesh::GetGroups() TPythonDump pydump; // to prevent dump at mesh creation mesh = makeMesh( theMeshName ); mesh_i = SMESH::DownCast( mesh ); if ( mesh_i && theIDsOfElements.length() ) { TIDSortedElemSet elements; arrayToSet(theIDsOfElements, getMeshDS(), elements); translate(elements, theVector, false, theCopyGroups, & mesh_i->GetImpl()); mesh_i->CreateGroupServants(); } if ( !myIsPreviewMode ) { pydump << mesh << " = " << this << ".TranslateMakeMesh( " << theIDsOfElements << ", " << theVector << ", " << theCopyGroups << ", '" << theMeshName << "' )"; } } //dump "GetGroups" if (!myIsPreviewMode && mesh_i) mesh_i->GetGroups(); return mesh._retn(); } //======================================================================= //function : TranslateObjectMakeMesh //purpose : //======================================================================= SMESH::SMESH_Mesh_ptr SMESH_MeshEditor_i::TranslateObjectMakeMesh(SMESH::SMESH_IDSource_ptr theObject, const SMESH::DirStruct& theVector, CORBA::Boolean theCopyGroups, const char* theMeshName) throw (SALOME::SALOME_Exception) { SMESH_TRY; SMESH_Mesh_i* mesh_i; SMESH::SMESH_Mesh_var mesh; { // open new scope to dump "MakeMesh" command // and then "GetGroups" using SMESH_Mesh::GetGroups() TPythonDump pydump; // to prevent dump at mesh creation mesh = makeMesh( theMeshName ); mesh_i = SMESH::DownCast( mesh ); TIDSortedElemSet elements; prepareIdSource( theObject ); if ( mesh_i && idSourceToSet(theObject, getMeshDS(), elements, SMDSAbs_All, /*emptyIfIsMesh=*/1)) { translate(elements, theVector,false, theCopyGroups, & mesh_i->GetImpl()); mesh_i->CreateGroupServants(); } if ( !myIsPreviewMode ) { pydump << mesh << " = " << this << ".TranslateObjectMakeMesh( " << theObject << ", " << theVector << ", " << theCopyGroups << ", '" << theMeshName << "' )"; } } // dump "GetGroups" if (!myIsPreviewMode && mesh_i) mesh_i->GetGroups(); return mesh._retn(); SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //======================================================================= //function : rotate //purpose : //======================================================================= SMESH::ListOfGroups* SMESH_MeshEditor_i::rotate(TIDSortedElemSet & theElements, const SMESH::AxisStruct & theAxis, CORBA::Double theAngle, CORBA::Boolean theCopy, bool theMakeGroups, ::SMESH_Mesh* theTargetMesh) throw (SALOME::SALOME_Exception) { SMESH_TRY; initData(); if ( theTargetMesh ) theCopy = false; gp_Pnt P ( theAxis.x, theAxis.y, theAxis.z ); gp_Vec V ( theAxis.vx, theAxis.vy, theAxis.vz ); gp_Trsf aTrsf; aTrsf.SetRotation( gp_Ax1( P, V ), theAngle); TIDSortedElemSet copyElements; TIDSortedElemSet* workElements = &theElements; if ( myIsPreviewMode ) { TPreviewMesh * tmpMesh = getPreviewMesh(); tmpMesh->Copy( theElements, copyElements ); if ( !theCopy && !theTargetMesh ) { TIDSortedElemSet elemsAround, elemsAroundCopy; getElementsAround( theElements, getMeshDS(), elemsAround ); tmpMesh->Copy( elemsAround, elemsAroundCopy); } workElements = ©Elements; theMakeGroups = false; } ::SMESH_MeshEditor::PGroupIDs groupIds = getEditor().Transform (*workElements, aTrsf, theCopy, theMakeGroups, theTargetMesh); if ( theCopy && !myIsPreviewMode) { if ( theTargetMesh ) theTargetMesh->GetMeshDS()->Modified(); else declareMeshModified( /*isReComputeSafe=*/false ); } return theMakeGroups ? getGroups(groupIds.get()) : 0; SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //======================================================================= //function : Rotate //purpose : //======================================================================= void SMESH_MeshEditor_i::Rotate(const SMESH::long_array & theIDsOfElements, const SMESH::AxisStruct & theAxis, CORBA::Double theAngle, CORBA::Boolean theCopy) throw (SALOME::SALOME_Exception) { if (!myIsPreviewMode) { TPythonDump() << this << ".Rotate( " << theIDsOfElements << ", " << theAxis << ", " << TVar( theAngle ) << ", " << theCopy << " )"; } if (theIDsOfElements.length() > 0) { TIDSortedElemSet elements; arrayToSet(theIDsOfElements, getMeshDS(), elements); rotate(elements,theAxis,theAngle,theCopy,false); } } //======================================================================= //function : RotateObject //purpose : //======================================================================= void SMESH_MeshEditor_i::RotateObject(SMESH::SMESH_IDSource_ptr theObject, const SMESH::AxisStruct & theAxis, CORBA::Double theAngle, CORBA::Boolean theCopy) throw (SALOME::SALOME_Exception) { if ( !myIsPreviewMode ) { TPythonDump() << this << ".RotateObject( " << theObject << ", " << theAxis << ", " << TVar( theAngle ) << ", " << theCopy << " )"; } TIDSortedElemSet elements; bool emptyIfIsMesh = myIsPreviewMode ? false : true; prepareIdSource( theObject ); if (idSourceToSet(theObject, getMeshDS(), elements, SMDSAbs_All, emptyIfIsMesh)) rotate(elements,theAxis,theAngle,theCopy,false); } //======================================================================= //function : RotateMakeGroups //purpose : //======================================================================= SMESH::ListOfGroups* SMESH_MeshEditor_i::RotateMakeGroups(const SMESH::long_array& theIDsOfElements, const SMESH::AxisStruct& theAxis, CORBA::Double theAngle) throw (SALOME::SALOME_Exception) { TPythonDump aPythonDump; // it is here to prevent dump of GetGroups() SMESH::ListOfGroups * aGroups = 0; if (theIDsOfElements.length() > 0) { TIDSortedElemSet elements; arrayToSet(theIDsOfElements, getMeshDS(), elements); aGroups = rotate(elements,theAxis,theAngle,true,true); } if (!myIsPreviewMode) { dumpGroupsList(aPythonDump, aGroups); aPythonDump << this << ".RotateMakeGroups( " << theIDsOfElements << ", " << theAxis << ", " << TVar( theAngle ) << " )"; } return aGroups; } //======================================================================= //function : RotateObjectMakeGroups //purpose : //======================================================================= SMESH::ListOfGroups* SMESH_MeshEditor_i::RotateObjectMakeGroups(SMESH::SMESH_IDSource_ptr theObject, const SMESH::AxisStruct& theAxis, CORBA::Double theAngle) throw (SALOME::SALOME_Exception) { TPythonDump aPythonDump; // it is here to prevent dump of GetGroups() SMESH::ListOfGroups * aGroups = 0; TIDSortedElemSet elements; prepareIdSource( theObject ); if (idSourceToSet(theObject, getMeshDS(), elements, SMDSAbs_All, /*emptyIfIsMesh=*/1)) aGroups = rotate(elements, theAxis, theAngle, true, true); if (!myIsPreviewMode) { dumpGroupsList(aPythonDump, aGroups); aPythonDump << this << ".RotateObjectMakeGroups( " << theObject << ", " << theAxis << ", " << TVar( theAngle ) << " )"; } return aGroups; } //======================================================================= //function : RotateMakeMesh //purpose : //======================================================================= SMESH::SMESH_Mesh_ptr SMESH_MeshEditor_i::RotateMakeMesh(const SMESH::long_array& theIDsOfElements, const SMESH::AxisStruct& theAxis, CORBA::Double theAngleInRadians, CORBA::Boolean theCopyGroups, const char* theMeshName) throw (SALOME::SALOME_Exception) { SMESH_TRY; SMESH::SMESH_Mesh_var mesh; SMESH_Mesh_i* mesh_i; { // open new scope to dump "MakeMesh" command // and then "GetGroups" using SMESH_Mesh::GetGroups() TPythonDump pydump; // to prevent dump at mesh creation mesh = makeMesh( theMeshName ); mesh_i = SMESH::DownCast( mesh ); if ( mesh_i && theIDsOfElements.length() > 0 ) { TIDSortedElemSet elements; arrayToSet(theIDsOfElements, getMeshDS(), elements); rotate(elements, theAxis, theAngleInRadians, false, theCopyGroups, & mesh_i->GetImpl()); mesh_i->CreateGroupServants(); } if ( !myIsPreviewMode ) { pydump << mesh << " = " << this << ".RotateMakeMesh( " << theIDsOfElements << ", " << theAxis << ", " << TVar( theAngleInRadians ) << ", " << theCopyGroups << ", '" << theMeshName << "' )"; } } // dump "GetGroups" if (!myIsPreviewMode && mesh_i && theIDsOfElements.length() > 0 ) mesh_i->GetGroups(); return mesh._retn(); SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //======================================================================= //function : RotateObjectMakeMesh //purpose : //======================================================================= SMESH::SMESH_Mesh_ptr SMESH_MeshEditor_i::RotateObjectMakeMesh(SMESH::SMESH_IDSource_ptr theObject, const SMESH::AxisStruct& theAxis, CORBA::Double theAngleInRadians, CORBA::Boolean theCopyGroups, const char* theMeshName) throw (SALOME::SALOME_Exception) { SMESH_TRY; SMESH::SMESH_Mesh_var mesh; SMESH_Mesh_i* mesh_i; {// open new scope to dump "MakeMesh" command // and then "GetGroups" using SMESH_Mesh::GetGroups() TPythonDump pydump; // to prevent dump at mesh creation mesh = makeMesh( theMeshName ); mesh_i = SMESH::DownCast( mesh ); TIDSortedElemSet elements; prepareIdSource( theObject ); if (mesh_i && idSourceToSet(theObject, getMeshDS(), elements, SMDSAbs_All, /*emptyIfIsMesh=*/1)) { rotate(elements, theAxis, theAngleInRadians, false, theCopyGroups, & mesh_i->GetImpl()); mesh_i->CreateGroupServants(); } if ( !myIsPreviewMode ) { pydump << mesh << " = " << this << ".RotateObjectMakeMesh( " << theObject << ", " << theAxis << ", " << TVar( theAngleInRadians ) << ", " << theCopyGroups << ", '" << theMeshName << "' )"; } } // dump "GetGroups" if (!myIsPreviewMode && mesh_i) mesh_i->GetGroups(); return mesh._retn(); SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //======================================================================= //function : scale //purpose : //======================================================================= SMESH::ListOfGroups* SMESH_MeshEditor_i::scale(SMESH::SMESH_IDSource_ptr theObject, const SMESH::PointStruct& thePoint, const SMESH::double_array& theScaleFact, CORBA::Boolean theCopy, bool theMakeGroups, ::SMESH_Mesh* theTargetMesh) throw (SALOME::SALOME_Exception) { SMESH_TRY; initData(); if ( theScaleFact.length() < 1 ) THROW_SALOME_CORBA_EXCEPTION("Scale factor not given", SALOME::BAD_PARAM); if ( theScaleFact.length() == 2 ) THROW_SALOME_CORBA_EXCEPTION("Invalid nb of scale factors : 2", SALOME::BAD_PARAM); if ( theTargetMesh ) theCopy = false; TIDSortedElemSet elements; prepareIdSource( theObject ); bool emptyIfIsMesh = myIsPreviewMode ? false : true; if ( !idSourceToSet(theObject, getMeshDS(), elements, SMDSAbs_All, emptyIfIsMesh)) return 0; double S[3] = { theScaleFact[0], (theScaleFact.length() == 1) ? theScaleFact[0] : theScaleFact[1], (theScaleFact.length() == 1) ? theScaleFact[0] : theScaleFact[2], }; double tol = std::numeric_limits::max(); gp_Trsf aTrsf; #if OCC_VERSION_LARGE > 0x06070100 aTrsf.SetValues( S[0], 0, 0, thePoint.x * (1-S[0]), 0, S[1], 0, thePoint.y * (1-S[1]), 0, 0, S[2], thePoint.z * (1-S[2]) ); #else aTrsf.SetValues( S[0], 0, 0, thePoint.x * (1-S[0]), 0, S[1], 0, thePoint.y * (1-S[1]), 0, 0, S[2], thePoint.z * (1-S[2]), tol, tol); #endif TIDSortedElemSet copyElements; TIDSortedElemSet* workElements = &elements; if ( myIsPreviewMode ) { TPreviewMesh * tmpMesh = getPreviewMesh(); tmpMesh->Copy( elements, copyElements); if ( !theCopy && !theTargetMesh ) { TIDSortedElemSet elemsAround, elemsAroundCopy; getElementsAround( elements, getMeshDS(), elemsAround ); tmpMesh->Copy( elemsAround, elemsAroundCopy); } workElements = & copyElements; theMakeGroups = false; } ::SMESH_MeshEditor::PGroupIDs groupIds = getEditor().Transform (*workElements, aTrsf, theCopy, theMakeGroups, theTargetMesh); if ( theCopy && !myIsPreviewMode ) { if ( theTargetMesh ) theTargetMesh->GetMeshDS()->Modified(); else declareMeshModified( /*isReComputeSafe=*/false ); } return theMakeGroups ? getGroups(groupIds.get()) : 0; SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //======================================================================= //function : Scale //purpose : //======================================================================= void SMESH_MeshEditor_i::Scale(SMESH::SMESH_IDSource_ptr theObject, const SMESH::PointStruct& thePoint, const SMESH::double_array& theScaleFact, CORBA::Boolean theCopy) throw (SALOME::SALOME_Exception) { if ( !myIsPreviewMode ) { TPythonDump() << this << ".Scale( " << theObject << ", " << thePoint << ", " << TVar( theScaleFact ) << ", " << theCopy << " )"; } scale(theObject, thePoint, theScaleFact, theCopy, false); } //======================================================================= //function : ScaleMakeGroups //purpose : //======================================================================= SMESH::ListOfGroups* SMESH_MeshEditor_i::ScaleMakeGroups(SMESH::SMESH_IDSource_ptr theObject, const SMESH::PointStruct& thePoint, const SMESH::double_array& theScaleFact) throw (SALOME::SALOME_Exception) { TPythonDump aPythonDump; // it is here to prevent dump of GetGroups() SMESH::ListOfGroups * aGroups = scale(theObject, thePoint, theScaleFact, true, true); if (!myIsPreviewMode) { dumpGroupsList(aPythonDump, aGroups); aPythonDump << this << ".Scale(" << theObject << "," << thePoint << "," << TVar( theScaleFact ) << ",True,True)"; } return aGroups; } //======================================================================= //function : ScaleMakeMesh //purpose : //======================================================================= SMESH::SMESH_Mesh_ptr SMESH_MeshEditor_i::ScaleMakeMesh(SMESH::SMESH_IDSource_ptr theObject, const SMESH::PointStruct& thePoint, const SMESH::double_array& theScaleFact, CORBA::Boolean theCopyGroups, const char* theMeshName) throw (SALOME::SALOME_Exception) { SMESH_Mesh_i* mesh_i; SMESH::SMESH_Mesh_var mesh; { // open new scope to dump "MakeMesh" command // and then "GetGroups" using SMESH_Mesh::GetGroups() TPythonDump pydump; // to prevent dump at mesh creation mesh = makeMesh( theMeshName ); mesh_i = SMESH::DownCast( mesh ); if ( mesh_i ) { scale(theObject, thePoint, theScaleFact,false, theCopyGroups, & mesh_i->GetImpl()); mesh_i->CreateGroupServants(); } if ( !myIsPreviewMode ) pydump << mesh << " = " << this << ".ScaleMakeMesh( " << theObject << ", " << thePoint << ", " << TVar( theScaleFact ) << ", " << theCopyGroups << ", '" << theMeshName << "' )"; } // dump "GetGroups" if (!myIsPreviewMode && mesh_i) mesh_i->GetGroups(); return mesh._retn(); } //======================================================================= //function : FindCoincidentNodes //purpose : //======================================================================= void SMESH_MeshEditor_i::FindCoincidentNodes (CORBA::Double Tolerance, SMESH::array_of_long_array_out GroupsOfNodes) throw (SALOME::SALOME_Exception) { SMESH_TRY; initData(); ::SMESH_MeshEditor::TListOfListOfNodes aListOfListOfNodes; TIDSortedNodeSet nodes; // no input nodes getEditor().FindCoincidentNodes( nodes, Tolerance, aListOfListOfNodes ); GroupsOfNodes = new SMESH::array_of_long_array; GroupsOfNodes->length( aListOfListOfNodes.size() ); ::SMESH_MeshEditor::TListOfListOfNodes::iterator llIt = aListOfListOfNodes.begin(); for ( CORBA::Long i = 0; llIt != aListOfListOfNodes.end(); llIt++, i++ ) { list< const SMDS_MeshNode* >& aListOfNodes = *llIt; list< const SMDS_MeshNode* >::iterator lIt = aListOfNodes.begin();; SMESH::long_array& aGroup = (*GroupsOfNodes)[ i ]; aGroup.length( aListOfNodes.size() ); for ( int j = 0; lIt != aListOfNodes.end(); lIt++, j++ ) aGroup[ j ] = (*lIt)->GetID(); } TPythonDump() << "coincident_nodes = " << this << ".FindCoincidentNodes( " << Tolerance << " )"; SMESH_CATCH( SMESH::throwCorbaException ); } //======================================================================= //function : FindCoincidentNodesOnPart //purpose : //======================================================================= void SMESH_MeshEditor_i::FindCoincidentNodesOnPart(SMESH::SMESH_IDSource_ptr theObject, CORBA::Double Tolerance, SMESH::array_of_long_array_out GroupsOfNodes) throw (SALOME::SALOME_Exception) { SMESH_TRY; initData(); TIDSortedNodeSet nodes; prepareIdSource( theObject ); idSourceToNodeSet( theObject, getMeshDS(), nodes ); ::SMESH_MeshEditor::TListOfListOfNodes aListOfListOfNodes; if(!nodes.empty()) getEditor().FindCoincidentNodes( nodes, Tolerance, aListOfListOfNodes ); GroupsOfNodes = new SMESH::array_of_long_array; GroupsOfNodes->length( aListOfListOfNodes.size() ); ::SMESH_MeshEditor::TListOfListOfNodes::iterator llIt = aListOfListOfNodes.begin(); for ( CORBA::Long i = 0; llIt != aListOfListOfNodes.end(); llIt++, i++ ) { list< const SMDS_MeshNode* >& aListOfNodes = *llIt; list< const SMDS_MeshNode* >::iterator lIt = aListOfNodes.begin();; SMESH::long_array& aGroup = (*GroupsOfNodes)[ i ]; aGroup.length( aListOfNodes.size() ); for ( int j = 0; lIt != aListOfNodes.end(); lIt++, j++ ) aGroup[ j ] = (*lIt)->GetID(); } TPythonDump() << "coincident_nodes_on_part = " << this << ".FindCoincidentNodesOnPart( " <length( aListOfListOfNodes.size() ); ::SMESH_MeshEditor::TListOfListOfNodes::iterator llIt = aListOfListOfNodes.begin(); for ( CORBA::Long i = 0; llIt != aListOfListOfNodes.end(); llIt++, i++ ) { list< const SMDS_MeshNode* >& aListOfNodes = *llIt; list< const SMDS_MeshNode* >::iterator lIt = aListOfNodes.begin();; SMESH::long_array& aGroup = (*theGroupsOfNodes)[ i ]; aGroup.length( aListOfNodes.size() ); for ( int j = 0; lIt != aListOfNodes.end(); lIt++, j++ ) aGroup[ j ] = (*lIt)->GetID(); } TPythonDump() << "coincident_nodes_on_part = " << this << ".FindCoincidentNodesOnPartBut( " << theObject<<", " << theTolerance << ", " << theExceptSubMeshOrGroups << " )"; SMESH_CATCH( SMESH::throwCorbaException ); } //======================================================================= //function : MergeNodes //purpose : //======================================================================= void SMESH_MeshEditor_i::MergeNodes (const SMESH::array_of_long_array& GroupsOfNodes) throw (SALOME::SALOME_Exception) { SMESH_TRY; initData(); SMESHDS_Mesh* aMesh = getMeshDS(); TPythonDump aTPythonDump; aTPythonDump << this << ".MergeNodes(["; ::SMESH_MeshEditor::TListOfListOfNodes aListOfListOfNodes; for (int i = 0; i < GroupsOfNodes.length(); i++) { const SMESH::long_array& aNodeGroup = GroupsOfNodes[ i ]; aListOfListOfNodes.push_back( list< const SMDS_MeshNode* >() ); list< const SMDS_MeshNode* >& aListOfNodes = aListOfListOfNodes.back(); for ( int j = 0; j < aNodeGroup.length(); j++ ) { CORBA::Long index = aNodeGroup[ j ]; const SMDS_MeshNode * node = aMesh->FindNode(index); if ( node ) aListOfNodes.push_back( node ); } if ( aListOfNodes.size() < 2 ) aListOfListOfNodes.pop_back(); if ( i > 0 ) aTPythonDump << ", "; aTPythonDump << aNodeGroup; } getEditor().MergeNodes( aListOfListOfNodes ); aTPythonDump << "])"; declareMeshModified( /*isReComputeSafe=*/false ); SMESH_CATCH( SMESH::throwCorbaException ); } //======================================================================= //function : FindEqualElements //purpose : //======================================================================= void SMESH_MeshEditor_i::FindEqualElements(SMESH::SMESH_IDSource_ptr theObject, SMESH::array_of_long_array_out GroupsOfElementsID) throw (SALOME::SALOME_Exception) { SMESH_TRY; initData(); SMESH::SMESH_GroupBase_var group = SMESH::SMESH_GroupBase::_narrow(theObject); if ( !(!group->_is_nil() && group->GetType() == SMESH::NODE) ) { TIDSortedElemSet elems; prepareIdSource( theObject ); idSourceToSet( theObject, getMeshDS(), elems, SMDSAbs_All, /*emptyIfIsMesh=*/true); ::SMESH_MeshEditor::TListOfListOfElementsID aListOfListOfElementsID; getEditor().FindEqualElements( elems, aListOfListOfElementsID ); GroupsOfElementsID = new SMESH::array_of_long_array; GroupsOfElementsID->length( aListOfListOfElementsID.size() ); ::SMESH_MeshEditor::TListOfListOfElementsID::iterator arraysIt = aListOfListOfElementsID.begin(); for (CORBA::Long j = 0; arraysIt != aListOfListOfElementsID.end(); ++arraysIt, ++j) { SMESH::long_array& aGroup = (*GroupsOfElementsID)[ j ]; list& listOfIDs = *arraysIt; aGroup.length( listOfIDs.size() ); list::iterator idIt = listOfIDs.begin(); for (int k = 0; idIt != listOfIDs.end(); ++idIt, ++k ) aGroup[ k ] = *idIt; } TPythonDump() << "equal_elements = " << this << ".FindEqualElements( " <() ); list< int >& aListOfElemsID = aListOfListOfElementsID.back(); for ( int j = 0; j < anElemsIDGroup.length(); j++ ) { CORBA::Long id = anElemsIDGroup[ j ]; aListOfElemsID.push_back( id ); } if ( aListOfElemsID.size() < 2 ) aListOfListOfElementsID.pop_back(); if ( i > 0 ) aTPythonDump << ", "; aTPythonDump << anElemsIDGroup; } getEditor().MergeElements(aListOfListOfElementsID); declareMeshModified( /*isReComputeSafe=*/true ); aTPythonDump << "] )"; SMESH_CATCH( SMESH::throwCorbaException ); } //======================================================================= //function : MergeEqualElements //purpose : //======================================================================= void SMESH_MeshEditor_i::MergeEqualElements() throw (SALOME::SALOME_Exception) { SMESH_TRY; initData(); getEditor().MergeEqualElements(); declareMeshModified( /*isReComputeSafe=*/true ); TPythonDump() << this << ".MergeEqualElements()"; SMESH_CATCH( SMESH::throwCorbaException ); } //============================================================================= /*! * Move the node to a given point */ //============================================================================= CORBA::Boolean SMESH_MeshEditor_i::MoveNode(CORBA::Long NodeID, CORBA::Double x, CORBA::Double y, CORBA::Double z) throw (SALOME::SALOME_Exception) { SMESH_TRY; initData(/*deleteSearchers=*/false); const SMDS_MeshNode * node = getMeshDS()->FindNode( NodeID ); if ( !node ) return false; if ( theNodeSearcher ) theSearchersDeleter.Set( myMesh ); // remove theNodeSearcher if mesh is other if ( myIsPreviewMode ) // make preview data { // in a preview mesh, make edges linked to a node TPreviewMesh& tmpMesh = *getPreviewMesh(); TIDSortedElemSet linkedNodes; ::SMESH_MeshEditor::GetLinkedNodes( node, linkedNodes ); TIDSortedElemSet::iterator nIt = linkedNodes.begin(); SMDS_MeshNode *nodeCpy1 = tmpMesh.Copy(node); for ( ; nIt != linkedNodes.end(); ++nIt ) { SMDS_MeshNode *nodeCpy2 = tmpMesh.Copy ( cast2Node( *nIt )); tmpMesh.GetMeshDS()->AddEdge(nodeCpy1, nodeCpy2); } // move copied node if ( nodeCpy1 ) tmpMesh.GetMeshDS()->MoveNode(nodeCpy1, x, y, z); // fill preview data } else if ( theNodeSearcher ) // move node and update theNodeSearcher data accordingly theNodeSearcher->MoveNode(node, gp_Pnt( x,y,z )); else getMeshDS()->MoveNode(node, x, y, z); if ( !myIsPreviewMode ) { // Update Python script TPythonDump() << "isDone = " << this << ".MoveNode( " << NodeID << ", " << TVar(x) << ", " << TVar(y) << ", " << TVar(z) << " )"; declareMeshModified( /*isReComputeSafe=*/false ); } SMESH_CATCH( SMESH::throwCorbaException ); return true; } //================================================================================ /*! * \brief Return ID of node closest to a given point */ //================================================================================ CORBA::Long SMESH_MeshEditor_i::FindNodeClosestTo(CORBA::Double x, CORBA::Double y, CORBA::Double z) throw (SALOME::SALOME_Exception) { SMESH_TRY; theSearchersDeleter.Set( myMesh ); // remove theNodeSearcher if mesh is other if ( !theNodeSearcher ) { theNodeSearcher = SMESH_MeshAlgos::GetNodeSearcher( *getMeshDS() ); } gp_Pnt p( x,y,z ); if ( const SMDS_MeshNode* node = theNodeSearcher->FindClosestTo( p )) return node->GetID(); SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //================================================================================ /*! * \brief If the given ID is a valid node ID (nodeID > 0), just move this node, else * move the node closest to the point to point's location and return ID of the node */ //================================================================================ CORBA::Long SMESH_MeshEditor_i::MoveClosestNodeToPoint(CORBA::Double x, CORBA::Double y, CORBA::Double z, CORBA::Long theNodeID) throw (SALOME::SALOME_Exception) { SMESH_TRY; // We keep theNodeSearcher until any mesh modification: // 1) initData() deletes theNodeSearcher at any edition, // 2) TSearchersDeleter - at any mesh compute event and mesh change initData(/*deleteSearchers=*/false); theSearchersDeleter.Set( myMesh ); // remove theNodeSearcher if mesh is other int nodeID = theNodeID; const SMDS_MeshNode* node = getMeshDS()->FindNode( nodeID ); if ( !node ) // preview moving node { if ( !theNodeSearcher ) { theNodeSearcher = SMESH_MeshAlgos::GetNodeSearcher( *getMeshDS() ); } gp_Pnt p( x,y,z ); node = theNodeSearcher->FindClosestTo( p ); } if ( node ) { nodeID = node->GetID(); if ( myIsPreviewMode ) // make preview data { // in a preview mesh, make edges linked to a node TPreviewMesh tmpMesh = *getPreviewMesh(); TIDSortedElemSet linkedNodes; ::SMESH_MeshEditor::GetLinkedNodes( node, linkedNodes ); TIDSortedElemSet::iterator nIt = linkedNodes.begin(); for ( ; nIt != linkedNodes.end(); ++nIt ) { SMDS_LinearEdge edge( node, cast2Node( *nIt )); tmpMesh.Copy( &edge ); } // move copied node node = tmpMesh.GetMeshDS()->FindNode( nodeID ); if ( node ) tmpMesh.GetMeshDS()->MoveNode(node, x, y, z); // fill preview data } else if ( theNodeSearcher ) // move node and update theNodeSearcher data accordingly { theNodeSearcher->MoveNode(node, gp_Pnt( x,y,z )); } else { getMeshDS()->MoveNode(node, x, y, z); } } if ( !myIsPreviewMode ) { TPythonDump() << "nodeID = " << this << ".MoveClosestNodeToPoint( "<< x << ", " << y << ", " << z << ", " << nodeID << " )"; declareMeshModified( /*isReComputeSafe=*/false ); } return nodeID; SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //======================================================================= /*! * Return elements of given type where the given point is IN or ON. * * 'ALL' type means elements of any type excluding nodes */ //======================================================================= SMESH::long_array* SMESH_MeshEditor_i::FindElementsByPoint(CORBA::Double x, CORBA::Double y, CORBA::Double z, SMESH::ElementType type) throw (SALOME::SALOME_Exception) { SMESH_TRY; SMESH::long_array_var res = new SMESH::long_array; vector< const SMDS_MeshElement* > foundElems; theSearchersDeleter.Set( myMesh ); if ( !theElementSearcher ) { theElementSearcher = SMESH_MeshAlgos::GetElementSearcher( *getMeshDS() ); } theElementSearcher->FindElementsByPoint( gp_Pnt( x,y,z ), SMDSAbs_ElementType( type ), foundElems); res->length( foundElems.size() ); for ( int i = 0; i < foundElems.size(); ++i ) res[i] = foundElems[i]->GetID(); return res._retn(); SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //======================================================================= //function : FindAmongElementsByPoint //purpose : Searching among the given elements, return elements of given type // where the given point is IN or ON. // 'ALL' type means elements of any type excluding nodes //======================================================================= SMESH::long_array* SMESH_MeshEditor_i::FindAmongElementsByPoint(SMESH::SMESH_IDSource_ptr elementIDs, CORBA::Double x, CORBA::Double y, CORBA::Double z, SMESH::ElementType type) throw (SALOME::SALOME_Exception) { SMESH_TRY; SMESH::long_array_var res = new SMESH::long_array; SMESH::array_of_ElementType_var types = elementIDs->GetTypes(); if ( types->length() == 1 && // a part contains only nodes or 0D elements ( types[0] == SMESH::NODE || types[0] == SMESH::ELEM0D || types[0] == SMESH::BALL) && type != types[0] ) // but search of elements of dim > 0 return res._retn(); if ( SMESH::DownCast( elementIDs )) // elementIDs is the whole mesh return FindElementsByPoint( x,y,z, type ); TIDSortedElemSet elements; // elems should live until FindElementsByPoint() finishes theSearchersDeleter.Set( myMesh, getPartIOR( elementIDs, type )); if ( !theElementSearcher ) { // create a searcher from elementIDs SMESH::SMESH_Mesh_var mesh = elementIDs->GetMesh(); SMESHDS_Mesh* meshDS = SMESH::DownCast( mesh )->GetImpl().GetMeshDS(); if ( !idSourceToSet( elementIDs, meshDS, elements, SMDSAbs_ElementType(type), /*emptyIfIsMesh=*/true)) return res._retn(); typedef SMDS_SetIterator TIter; SMDS_ElemIteratorPtr elemsIt( new TIter( elements.begin(), elements.end() )); theElementSearcher = SMESH_MeshAlgos::GetElementSearcher( *getMeshDS(), elemsIt ); } vector< const SMDS_MeshElement* > foundElems; theElementSearcher->FindElementsByPoint( gp_Pnt( x,y,z ), SMDSAbs_ElementType( type ), foundElems); res->length( foundElems.size() ); for ( int i = 0; i < foundElems.size(); ++i ) res[i] = foundElems[i]->GetID(); return res._retn(); SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //======================================================================= //function : GetPointState //purpose : Return point state in a closed 2D mesh in terms of TopAbs_State enumeration. // TopAbs_UNKNOWN state means that either mesh is wrong or the analysis fails. //======================================================================= CORBA::Short SMESH_MeshEditor_i::GetPointState(CORBA::Double x, CORBA::Double y, CORBA::Double z) throw (SALOME::SALOME_Exception) { SMESH_TRY; theSearchersDeleter.Set( myMesh ); if ( !theElementSearcher ) { theElementSearcher = SMESH_MeshAlgos::GetElementSearcher( *getMeshDS() ); } return CORBA::Short( theElementSearcher->GetPointState( gp_Pnt( x,y,z ))); SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //======================================================================= //function : convError //purpose : //======================================================================= #define RETCASE(enm) case ::SMESH_MeshEditor::enm: return SMESH::SMESH_MeshEditor::enm; static SMESH::SMESH_MeshEditor::Sew_Error convError( const::SMESH_MeshEditor::Sew_Error e ) { switch ( e ) { RETCASE( SEW_OK ); RETCASE( SEW_BORDER1_NOT_FOUND ); RETCASE( SEW_BORDER2_NOT_FOUND ); RETCASE( SEW_BOTH_BORDERS_NOT_FOUND ); RETCASE( SEW_BAD_SIDE_NODES ); RETCASE( SEW_VOLUMES_TO_SPLIT ); RETCASE( SEW_DIFF_NB_OF_ELEMENTS ); RETCASE( SEW_TOPO_DIFF_SETS_OF_ELEMENTS ); RETCASE( SEW_BAD_SIDE1_NODES ); RETCASE( SEW_BAD_SIDE2_NODES ); } return SMESH::SMESH_MeshEditor::SEW_OK; } //======================================================================= //function : SewFreeBorders //purpose : //======================================================================= SMESH::SMESH_MeshEditor::Sew_Error SMESH_MeshEditor_i::SewFreeBorders(CORBA::Long FirstNodeID1, CORBA::Long SecondNodeID1, CORBA::Long LastNodeID1, CORBA::Long FirstNodeID2, CORBA::Long SecondNodeID2, CORBA::Long LastNodeID2, CORBA::Boolean CreatePolygons, CORBA::Boolean CreatePolyedrs) throw (SALOME::SALOME_Exception) { SMESH_TRY; initData(); SMESHDS_Mesh* aMesh = getMeshDS(); const SMDS_MeshNode* aBorderFirstNode = aMesh->FindNode( FirstNodeID1 ); const SMDS_MeshNode* aBorderSecondNode = aMesh->FindNode( SecondNodeID1 ); const SMDS_MeshNode* aBorderLastNode = aMesh->FindNode( LastNodeID1 ); const SMDS_MeshNode* aSide2FirstNode = aMesh->FindNode( FirstNodeID2 ); const SMDS_MeshNode* aSide2SecondNode = aMesh->FindNode( SecondNodeID2 ); const SMDS_MeshNode* aSide2ThirdNode = aMesh->FindNode( LastNodeID2 ); if (!aBorderFirstNode || !aBorderSecondNode|| !aBorderLastNode) return SMESH::SMESH_MeshEditor::SEW_BORDER1_NOT_FOUND; if (!aSide2FirstNode || !aSide2SecondNode || !aSide2ThirdNode) return SMESH::SMESH_MeshEditor::SEW_BORDER2_NOT_FOUND; TPythonDump() << "error = " << this << ".SewFreeBorders( " << FirstNodeID1 << ", " << SecondNodeID1 << ", " << LastNodeID1 << ", " << FirstNodeID2 << ", " << SecondNodeID2 << ", " << LastNodeID2 << ", " << CreatePolygons<< ", " << CreatePolyedrs<< " )"; SMESH::SMESH_MeshEditor::Sew_Error error = convError( getEditor().SewFreeBorder (aBorderFirstNode, aBorderSecondNode, aBorderLastNode, aSide2FirstNode, aSide2SecondNode, aSide2ThirdNode, true, CreatePolygons, CreatePolyedrs) ); declareMeshModified( /*isReComputeSafe=*/false ); return error; SMESH_CATCH( SMESH::throwCorbaException ); return SMESH::SMESH_MeshEditor::Sew_Error(0); } //======================================================================= //function : SewConformFreeBorders //purpose : //======================================================================= SMESH::SMESH_MeshEditor::Sew_Error SMESH_MeshEditor_i::SewConformFreeBorders(CORBA::Long FirstNodeID1, CORBA::Long SecondNodeID1, CORBA::Long LastNodeID1, CORBA::Long FirstNodeID2, CORBA::Long SecondNodeID2) throw (SALOME::SALOME_Exception) { SMESH_TRY; initData(); SMESHDS_Mesh* aMesh = getMeshDS(); const SMDS_MeshNode* aBorderFirstNode = aMesh->FindNode( FirstNodeID1 ); const SMDS_MeshNode* aBorderSecondNode = aMesh->FindNode( SecondNodeID1 ); const SMDS_MeshNode* aBorderLastNode = aMesh->FindNode( LastNodeID1 ); const SMDS_MeshNode* aSide2FirstNode = aMesh->FindNode( FirstNodeID2 ); const SMDS_MeshNode* aSide2SecondNode = aMesh->FindNode( SecondNodeID2 ); const SMDS_MeshNode* aSide2ThirdNode = 0; if (!aBorderFirstNode || !aBorderSecondNode|| !aBorderLastNode ) return SMESH::SMESH_MeshEditor::SEW_BORDER1_NOT_FOUND; if (!aSide2FirstNode || !aSide2SecondNode) return SMESH::SMESH_MeshEditor::SEW_BORDER2_NOT_FOUND; TPythonDump() << "error = " << this << ".SewConformFreeBorders( " << FirstNodeID1 << ", " << SecondNodeID1 << ", " << LastNodeID1 << ", " << FirstNodeID2 << ", " << SecondNodeID2 << " )"; SMESH::SMESH_MeshEditor::Sew_Error error = convError( getEditor().SewFreeBorder (aBorderFirstNode, aBorderSecondNode, aBorderLastNode, aSide2FirstNode, aSide2SecondNode, aSide2ThirdNode, true, false, false) ); declareMeshModified( /*isReComputeSafe=*/false ); return error; SMESH_CATCH( SMESH::throwCorbaException ); return SMESH::SMESH_MeshEditor::Sew_Error(0); } //======================================================================= //function : SewBorderToSide //purpose : //======================================================================= SMESH::SMESH_MeshEditor::Sew_Error SMESH_MeshEditor_i::SewBorderToSide(CORBA::Long FirstNodeIDOnFreeBorder, CORBA::Long SecondNodeIDOnFreeBorder, CORBA::Long LastNodeIDOnFreeBorder, CORBA::Long FirstNodeIDOnSide, CORBA::Long LastNodeIDOnSide, CORBA::Boolean CreatePolygons, CORBA::Boolean CreatePolyedrs) throw (SALOME::SALOME_Exception) { SMESH_TRY; initData(); SMESHDS_Mesh* aMesh = getMeshDS(); const SMDS_MeshNode* aBorderFirstNode = aMesh->FindNode( FirstNodeIDOnFreeBorder ); const SMDS_MeshNode* aBorderSecondNode = aMesh->FindNode( SecondNodeIDOnFreeBorder ); const SMDS_MeshNode* aBorderLastNode = aMesh->FindNode( LastNodeIDOnFreeBorder ); const SMDS_MeshNode* aSide2FirstNode = aMesh->FindNode( FirstNodeIDOnSide ); const SMDS_MeshNode* aSide2SecondNode = aMesh->FindNode( LastNodeIDOnSide ); const SMDS_MeshNode* aSide2ThirdNode = 0; if (!aBorderFirstNode || !aBorderSecondNode|| !aBorderLastNode ) return SMESH::SMESH_MeshEditor::SEW_BORDER1_NOT_FOUND; if (!aSide2FirstNode || !aSide2SecondNode) return SMESH::SMESH_MeshEditor::SEW_BAD_SIDE_NODES; TPythonDump() << "error = " << this << ".SewBorderToSide( " << FirstNodeIDOnFreeBorder << ", " << SecondNodeIDOnFreeBorder << ", " << LastNodeIDOnFreeBorder << ", " << FirstNodeIDOnSide << ", " << LastNodeIDOnSide << ", " << CreatePolygons << ", " << CreatePolyedrs << ") "; SMESH::SMESH_MeshEditor::Sew_Error error = convError( getEditor().SewFreeBorder (aBorderFirstNode, aBorderSecondNode, aBorderLastNode, aSide2FirstNode, aSide2SecondNode, aSide2ThirdNode, false, CreatePolygons, CreatePolyedrs) ); declareMeshModified( /*isReComputeSafe=*/false ); return error; SMESH_CATCH( SMESH::throwCorbaException ); return SMESH::SMESH_MeshEditor::Sew_Error(0); } //======================================================================= //function : SewSideElements //purpose : //======================================================================= SMESH::SMESH_MeshEditor::Sew_Error SMESH_MeshEditor_i::SewSideElements(const SMESH::long_array& IDsOfSide1Elements, const SMESH::long_array& IDsOfSide2Elements, CORBA::Long NodeID1OfSide1ToMerge, CORBA::Long NodeID1OfSide2ToMerge, CORBA::Long NodeID2OfSide1ToMerge, CORBA::Long NodeID2OfSide2ToMerge) throw (SALOME::SALOME_Exception) { SMESH_TRY; initData(); SMESHDS_Mesh* aMesh = getMeshDS(); const SMDS_MeshNode* aFirstNode1ToMerge = aMesh->FindNode( NodeID1OfSide1ToMerge ); const SMDS_MeshNode* aFirstNode2ToMerge = aMesh->FindNode( NodeID1OfSide2ToMerge ); const SMDS_MeshNode* aSecondNode1ToMerge = aMesh->FindNode( NodeID2OfSide1ToMerge ); const SMDS_MeshNode* aSecondNode2ToMerge = aMesh->FindNode( NodeID2OfSide2ToMerge ); if (!aFirstNode1ToMerge || !aFirstNode2ToMerge ) return SMESH::SMESH_MeshEditor::SEW_BAD_SIDE1_NODES; if (!aSecondNode1ToMerge|| !aSecondNode2ToMerge) return SMESH::SMESH_MeshEditor::SEW_BAD_SIDE2_NODES; TIDSortedElemSet aSide1Elems, aSide2Elems; arrayToSet(IDsOfSide1Elements, aMesh, aSide1Elems); arrayToSet(IDsOfSide2Elements, aMesh, aSide2Elems); TPythonDump() << "error = " << this << ".SewSideElements( " << IDsOfSide1Elements << ", " << IDsOfSide2Elements << ", " << NodeID1OfSide1ToMerge << ", " << NodeID1OfSide2ToMerge << ", " << NodeID2OfSide1ToMerge << ", " << NodeID2OfSide2ToMerge << ")"; SMESH::SMESH_MeshEditor::Sew_Error error = convError( getEditor().SewSideElements (aSide1Elems, aSide2Elems, aFirstNode1ToMerge, aFirstNode2ToMerge, aSecondNode1ToMerge, aSecondNode2ToMerge)); declareMeshModified( /*isReComputeSafe=*/false ); return error; SMESH_CATCH( SMESH::throwCorbaException ); return SMESH::SMESH_MeshEditor::Sew_Error(0); } //================================================================================ /*! * \brief Set new nodes for given element * \param ide - element id * \param newIDs - new node ids * \retval CORBA::Boolean - true if result is OK */ //================================================================================ CORBA::Boolean SMESH_MeshEditor_i::ChangeElemNodes(CORBA::Long ide, const SMESH::long_array& newIDs) throw (SALOME::SALOME_Exception) { SMESH_TRY; initData(); const SMDS_MeshElement* elem = getMeshDS()->FindElement(ide); if(!elem) return false; int nbn = newIDs.length(); int i=0; vector aNodes(nbn); int nbn1=-1; for(; iFindNode(newIDs[i]); if(aNode) { nbn1++; aNodes[nbn1] = aNode; } } TPythonDump() << "isDone = " << this << ".ChangeElemNodes( " << ide << ", " << newIDs << " )"; MESSAGE("ChangeElementNodes"); bool res = getMeshDS()->ChangeElementNodes( elem, & aNodes[0], nbn1+1 ); declareMeshModified( /*isReComputeSafe=*/ !res ); return res; SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //======================================================================= /*! * \brief Makes a part of the mesh quadratic or bi-quadratic */ //======================================================================= void SMESH_MeshEditor_i::convertToQuadratic(CORBA::Boolean theForce3d, CORBA::Boolean theToBiQuad, SMESH::SMESH_IDSource_ptr theObject) throw (SALOME::SALOME_Exception) { SMESH_TRY; TIDSortedElemSet elems; bool elemsOK; if ( !( elemsOK = CORBA::is_nil( theObject ))) { prepareIdSource( theObject ); elemsOK = idSourceToSet( theObject, getMeshDS(), elems, SMDSAbs_All, /*emptyIfIsMesh=*/true ); } if ( elemsOK ) { if ( !elems.empty() && (*elems.begin())->GetType() == SMDSAbs_Node ) THROW_SALOME_CORBA_EXCEPTION("Group of nodes is not allowed", SALOME::BAD_PARAM); if ( elems.empty() ) getEditor().ConvertToQuadratic(theForce3d, theToBiQuad); else getEditor().ConvertToQuadratic(theForce3d, elems, theToBiQuad); declareMeshModified( /*isReComputeSafe=*/false ); } SMESH_CATCH( SMESH::throwCorbaException ); } //======================================================================= //function : ConvertFromQuadratic //purpose : //======================================================================= CORBA::Boolean SMESH_MeshEditor_i::ConvertFromQuadratic() throw (SALOME::SALOME_Exception) { CORBA::Boolean isDone = getEditor().ConvertFromQuadratic(); TPythonDump() << this << ".ConvertFromQuadratic()"; declareMeshModified( /*isReComputeSafe=*/!isDone ); return isDone; } //======================================================================= //function : ConvertToQuadratic //purpose : //======================================================================= void SMESH_MeshEditor_i::ConvertToQuadratic(CORBA::Boolean theForce3d) throw (SALOME::SALOME_Exception) { convertToQuadratic( theForce3d, false ); TPythonDump() << this << ".ConvertToQuadratic("<GetType() == SMDSAbs_Node ) { THROW_SALOME_CORBA_EXCEPTION("Group of nodes is not allowed", SALOME::BAD_PARAM); } else { getEditor().ConvertFromQuadratic(elems); } } declareMeshModified( /*isReComputeSafe=*/false ); pyDump << this << ".ConvertFromQuadraticObject( "<CreateEmptyMesh(); SALOMEDS::Study_var study = gen->GetCurrentStudy(); SALOMEDS::SObject_wrap meshSO = gen->ObjectToSObject( study, mesh ); gen->SetName( meshSO, theMeshName, "Mesh" ); gen->SetPixMap( meshSO, "ICON_SMESH_TREE_MESH_IMPORTED"); return mesh._retn(); } //======================================================================= //function : dumpGroupsList //purpose : //======================================================================= void SMESH_MeshEditor_i::dumpGroupsList(TPythonDump & theDumpPython, const SMESH::ListOfGroups * theGroupList) { bool isDumpGroupList = ( theGroupList && theGroupList->length() > 0 ); if ( isDumpGroupList ) theDumpPython << theGroupList << " = "; } //================================================================================ /*! \brief Generates the unique group name. \param thePrefix name prefix \return unique name */ //================================================================================ string SMESH_MeshEditor_i::generateGroupName(const string& thePrefix) { SMESH::ListOfGroups_var groups = myMesh_i->GetGroups(); set groupNames; // Get existing group names for (int i = 0, nbGroups = groups->length(); i < nbGroups; i++ ) { SMESH::SMESH_GroupBase_var aGroup = groups[i]; if (CORBA::is_nil(aGroup)) continue; CORBA::String_var name = aGroup->GetName(); groupNames.insert( name.in() ); } // Find new name string name = thePrefix; int index = 0; while (!groupNames.insert(name).second) name = SMESH_Comment( thePrefix ) << "_" << index++; return name; } //================================================================================ /*! * \brief Prepare SMESH_IDSource for work */ //================================================================================ void SMESH_MeshEditor_i::prepareIdSource(SMESH::SMESH_IDSource_ptr theObject) { if ( SMESH::Filter_i* filter = SMESH::DownCast( theObject )) { SMESH::SMESH_Mesh_var mesh = myMesh_i->_this(); filter->SetMesh( mesh ); } } //================================================================================ /*! * \brief Duplicates given elements, i.e. creates new elements based on the * same nodes as the given ones. * \param theElements - container of elements to duplicate. * \param theGroupName - a name of group to contain the generated elements. * If a group with such a name already exists, the new elements * are added to the existng group, else a new group is created. * If \a theGroupName is empty, new elements are not added * in any group. * \return a group where the new elements are added. NULL if theGroupName == "". * \sa DoubleNode() */ //================================================================================ SMESH::SMESH_Group_ptr SMESH_MeshEditor_i::DoubleElements(SMESH::SMESH_IDSource_ptr theElements, const char* theGroupName) throw (SALOME::SALOME_Exception) { SMESH::SMESH_Group_var newGroup; SMESH_TRY; initData(); TPythonDump pyDump; TIDSortedElemSet elems; prepareIdSource( theElements ); if ( idSourceToSet( theElements, getMeshDS(), elems, SMDSAbs_All, /*emptyIfIsMesh=*/true)) { getEditor().DoubleElements( elems ); if ( strlen( theGroupName ) && !getEditor().GetLastCreatedElems().IsEmpty() ) { // group type SMESH::ElementType type = SMESH::ElementType( getEditor().GetLastCreatedElems().Value(1)->GetType() ); // find existing group SMESH::ListOfGroups_var groups = myMesh_i->GetGroups(); for ( size_t i = 0; i < groups->length(); ++i ) if ( groups[i]->GetType() == type ) { CORBA::String_var name = groups[i]->GetName(); if ( strcmp( name, theGroupName ) == 0 ) { newGroup = SMESH::SMESH_Group::_narrow( groups[i] ); break; } } // create a new group if ( newGroup->_is_nil() ) newGroup = myMesh_i->CreateGroup( type, theGroupName ); // fill newGroup if ( SMESH_Group_i* group_i = SMESH::DownCast< SMESH_Group_i* >( newGroup )) { SMESHDS_Group* groupDS = static_cast< SMESHDS_Group* >( group_i->GetGroupDS() ); const SMESH_SequenceOfElemPtr& aSeq = getEditor().GetLastCreatedElems(); for ( int i = 1; i <= aSeq.Length(); i++ ) groupDS->SMDSGroup().Add( aSeq(i) ); } } } // python dump if ( !newGroup->_is_nil() ) pyDump << newGroup << " = "; pyDump << this << ".DoubleElements( " << theElements << ", " << "'" << theGroupName <<"')"; SMESH_CATCH( SMESH::throwCorbaException ); return newGroup._retn(); } //================================================================================ /*! \brief Creates a hole in a mesh by doubling the nodes of some particular elements \param theNodes - identifiers of nodes to be doubled \param theModifiedElems - identifiers of elements to be updated by the new (doubled) nodes. If list of element identifiers is empty then nodes are doubled but they not assigned to elements \return TRUE if operation has been completed successfully, FALSE otherwise \sa DoubleNode(), DoubleNodeGroup(), DoubleNodeGroups() */ //================================================================================ CORBA::Boolean SMESH_MeshEditor_i::DoubleNodes( const SMESH::long_array& theNodes, const SMESH::long_array& theModifiedElems ) throw (SALOME::SALOME_Exception) { SMESH_TRY; initData(); list< int > aListOfNodes; int i, n; for ( i = 0, n = theNodes.length(); i < n; i++ ) aListOfNodes.push_back( theNodes[ i ] ); list< int > aListOfElems; for ( i = 0, n = theModifiedElems.length(); i < n; i++ ) aListOfElems.push_back( theModifiedElems[ i ] ); bool aResult = getEditor().DoubleNodes( aListOfNodes, aListOfElems ); declareMeshModified( /*isReComputeSafe=*/ !aResult ); // Update Python script TPythonDump() << this << ".DoubleNodes( " << theNodes << ", "<< theModifiedElems << " )"; return aResult; SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //================================================================================ /*! \brief Creates a hole in a mesh by doubling the nodes of some particular elements This method provided for convenience works as DoubleNodes() described above. \param theNodeId - identifier of node to be doubled. \param theModifiedElems - identifiers of elements to be updated. \return TRUE if operation has been completed successfully, FALSE otherwise \sa DoubleNodes(), DoubleNodeGroup(), DoubleNodeGroups() */ //================================================================================ CORBA::Boolean SMESH_MeshEditor_i::DoubleNode( CORBA::Long theNodeId, const SMESH::long_array& theModifiedElems ) throw (SALOME::SALOME_Exception) { SMESH_TRY; SMESH::long_array_var aNodes = new SMESH::long_array; aNodes->length( 1 ); aNodes[ 0 ] = theNodeId; TPythonDump pyDump; // suppress dump by the next line CORBA::Boolean done = DoubleNodes( aNodes, theModifiedElems ); pyDump << this << ".DoubleNode( " << theNodeId << ", " << theModifiedElems << " )"; return done; SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //================================================================================ /*! \brief Creates a hole in a mesh by doubling the nodes of some particular elements This method provided for convenience works as DoubleNodes() described above. \param theNodes - group of nodes to be doubled. \param theModifiedElems - group of elements to be updated. \return TRUE if operation has been completed successfully, FALSE otherwise \sa DoubleNode(), DoubleNodes(), DoubleNodeGroups() */ //================================================================================ CORBA::Boolean SMESH_MeshEditor_i::DoubleNodeGroup(SMESH::SMESH_GroupBase_ptr theNodes, SMESH::SMESH_GroupBase_ptr theModifiedElems ) throw (SALOME::SALOME_Exception) { SMESH_TRY; if ( CORBA::is_nil( theNodes ) && theNodes->GetType() != SMESH::NODE ) return false; SMESH::long_array_var aNodes = theNodes->GetListOfID(); SMESH::long_array_var aModifiedElems; if ( !CORBA::is_nil( theModifiedElems ) ) aModifiedElems = theModifiedElems->GetListOfID(); else { aModifiedElems = new SMESH::long_array; aModifiedElems->length( 0 ); } TPythonDump pyDump; // suppress dump by the next line bool done = DoubleNodes( aNodes, aModifiedElems ); pyDump << this << ".DoubleNodeGroup( " << theNodes << ", " << theModifiedElems << " )"; return done; SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //================================================================================ /*! * \brief Creates a hole in a mesh by doubling the nodes of some particular elements. * Works as DoubleNodeGroup(), but returns a new group with newly created nodes. * \param theNodes - group of nodes to be doubled. * \param theModifiedElems - group of elements to be updated. * \return a new group with newly created nodes * \sa DoubleNodeGroup() */ //================================================================================ SMESH::SMESH_Group_ptr SMESH_MeshEditor_i::DoubleNodeGroupNew( SMESH::SMESH_GroupBase_ptr theNodes, SMESH::SMESH_GroupBase_ptr theModifiedElems ) throw (SALOME::SALOME_Exception) { SMESH_TRY; SMESH::SMESH_Group_var aNewGroup; if ( CORBA::is_nil( theNodes ) && theNodes->GetType() != SMESH::NODE ) return aNewGroup._retn(); // Duplicate nodes SMESH::long_array_var aNodes = theNodes->GetListOfID(); SMESH::long_array_var aModifiedElems; if ( !CORBA::is_nil( theModifiedElems ) ) aModifiedElems = theModifiedElems->GetListOfID(); else { aModifiedElems = new SMESH::long_array; aModifiedElems->length( 0 ); } TPythonDump pyDump; // suppress dump by the next line bool aResult = DoubleNodes( aNodes, aModifiedElems ); if ( aResult ) { // Create group with newly created nodes SMESH::long_array_var anIds = GetLastCreatedNodes(); if (anIds->length() > 0) { string anUnindexedName (theNodes->GetName()); string aNewName = generateGroupName(anUnindexedName + "_double"); aNewGroup = myMesh_i->CreateGroup(SMESH::NODE, aNewName.c_str()); aNewGroup->Add(anIds); pyDump << aNewGroup << " = "; } } pyDump << this << ".DoubleNodeGroupNew( " << theNodes << ", " << theModifiedElems << " )"; return aNewGroup._retn(); SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //================================================================================ /*! \brief Creates a hole in a mesh by doubling the nodes of some particular elements This method provided for convenience works as DoubleNodes() described above. \param theNodes - list of groups of nodes to be doubled \param theModifiedElems - list of groups of elements to be updated. \return TRUE if operation has been completed successfully, FALSE otherwise \sa DoubleNode(), DoubleNodeGroup(), DoubleNodes() */ //================================================================================ CORBA::Boolean SMESH_MeshEditor_i::DoubleNodeGroups(const SMESH::ListOfGroups& theNodes, const SMESH::ListOfGroups& theModifiedElems ) throw (SALOME::SALOME_Exception) { SMESH_TRY; initData(); std::list< int > aNodes; int i, n, j, m; for ( i = 0, n = theNodes.length(); i < n; i++ ) { SMESH::SMESH_GroupBase_var aGrp = theNodes[ i ]; if ( !CORBA::is_nil( aGrp ) && aGrp->GetType() == SMESH::NODE ) { SMESH::long_array_var aCurr = aGrp->GetListOfID(); for ( j = 0, m = aCurr->length(); j < m; j++ ) aNodes.push_back( aCurr[ j ] ); } } std::list< int > anElems; for ( i = 0, n = theModifiedElems.length(); i < n; i++ ) { SMESH::SMESH_GroupBase_var aGrp = theModifiedElems[ i ]; if ( !CORBA::is_nil( aGrp ) && aGrp->GetType() != SMESH::NODE ) { SMESH::long_array_var aCurr = aGrp->GetListOfID(); for ( j = 0, m = aCurr->length(); j < m; j++ ) anElems.push_back( aCurr[ j ] ); } } bool aResult = getEditor().DoubleNodes( aNodes, anElems ); declareMeshModified( /*isReComputeSafe=*/false ); TPythonDump() << this << ".DoubleNodeGroups( " << theNodes << ", " << theModifiedElems << " )"; return aResult; SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //================================================================================ /*! * \brief Creates a hole in a mesh by doubling the nodes of some particular elements. * Works as DoubleNodeGroups(), but returns a new group with newly created nodes. * \param theNodes - group of nodes to be doubled. * \param theModifiedElems - group of elements to be updated. * \return a new group with newly created nodes * \sa DoubleNodeGroups() */ //================================================================================ SMESH::SMESH_Group_ptr SMESH_MeshEditor_i::DoubleNodeGroupsNew( const SMESH::ListOfGroups& theNodes, const SMESH::ListOfGroups& theModifiedElems ) throw (SALOME::SALOME_Exception) { SMESH::SMESH_Group_var aNewGroup; TPythonDump pyDump; // suppress dump by the next line bool aResult = DoubleNodeGroups( theNodes, theModifiedElems ); if ( aResult ) { // Create group with newly created nodes SMESH::long_array_var anIds = GetLastCreatedNodes(); if (anIds->length() > 0) { string anUnindexedName (theNodes[0]->GetName()); string aNewName = generateGroupName(anUnindexedName + "_double"); aNewGroup = myMesh_i->CreateGroup(SMESH::NODE, aNewName.c_str()); aNewGroup->Add(anIds); pyDump << aNewGroup << " = "; } } pyDump << this << ".DoubleNodeGroupsNew( " << theNodes << ", " << theModifiedElems << " )"; return aNewGroup._retn(); } //================================================================================ /*! \brief Creates a hole in a mesh by doubling the nodes of some particular elements \param theElems - the list of elements (edges or faces) to be replicated The nodes for duplication could be found from these elements \param theNodesNot - list of nodes to NOT replicate \param theAffectedElems - the list of elements (cells and edges) to which the replicated nodes should be associated to. \return TRUE if operation has been completed successfully, FALSE otherwise \sa DoubleNodeGroup(), DoubleNodeGroups() */ //================================================================================ CORBA::Boolean SMESH_MeshEditor_i::DoubleNodeElem( const SMESH::long_array& theElems, const SMESH::long_array& theNodesNot, const SMESH::long_array& theAffectedElems ) throw (SALOME::SALOME_Exception) { SMESH_TRY; initData(); SMESHDS_Mesh* aMeshDS = getMeshDS(); TIDSortedElemSet anElems, aNodes, anAffected; arrayToSet(theElems, aMeshDS, anElems, SMDSAbs_All); arrayToSet(theNodesNot, aMeshDS, aNodes, SMDSAbs_Node); arrayToSet(theAffectedElems, aMeshDS, anAffected, SMDSAbs_All); bool aResult = getEditor().DoubleNodes( anElems, aNodes, anAffected ); // Update Python script TPythonDump() << this << ".DoubleNodeElem( " << theElems << ", " << theNodesNot << ", " << theAffectedElems << " )"; declareMeshModified( /*isReComputeSafe=*/false ); return aResult; SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //================================================================================ /*! \brief Creates a hole in a mesh by doubling the nodes of some particular elements \param theElems - the list of elements (edges or faces) to be replicated The nodes for duplication could be found from these elements \param theNodesNot - list of nodes to NOT replicate \param theShape - shape to detect affected elements (element which geometric center located on or inside shape). The replicated nodes should be associated to affected elements. \return TRUE if operation has been completed successfully, FALSE otherwise \sa DoubleNodeGroupInRegion(), DoubleNodeGroupsInRegion() */ //================================================================================ CORBA::Boolean SMESH_MeshEditor_i::DoubleNodeElemInRegion ( const SMESH::long_array& theElems, const SMESH::long_array& theNodesNot, GEOM::GEOM_Object_ptr theShape ) throw (SALOME::SALOME_Exception) { SMESH_TRY; initData(); SMESHDS_Mesh* aMeshDS = getMeshDS(); TIDSortedElemSet anElems, aNodes; arrayToSet(theElems, aMeshDS, anElems, SMDSAbs_All); arrayToSet(theNodesNot, aMeshDS, aNodes, SMDSAbs_Node); TopoDS_Shape aShape = SMESH_Gen_i::GetSMESHGen()->GeomObjectToShape( theShape ); bool aResult = getEditor().DoubleNodesInRegion( anElems, aNodes, aShape ); // Update Python script TPythonDump() << "isDone = " << this << ".DoubleNodeElemInRegion( " << theElems << ", " << theNodesNot << ", " << theShape << " )"; declareMeshModified( /*isReComputeSafe=*/false ); return aResult; SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //================================================================================ /*! \brief Creates a hole in a mesh by doubling the nodes of some particular elements \param theElems - group of of elements (edges or faces) to be replicated \param theNodesNot - group of nodes not to replicated \param theAffectedElems - group of elements to which the replicated nodes should be associated to. \return TRUE if operation has been completed successfully, FALSE otherwise \sa DoubleNodes(), DoubleNodeGroups() */ //================================================================================ CORBA::Boolean SMESH_MeshEditor_i::DoubleNodeElemGroup(SMESH::SMESH_GroupBase_ptr theElems, SMESH::SMESH_GroupBase_ptr theNodesNot, SMESH::SMESH_GroupBase_ptr theAffectedElems) throw (SALOME::SALOME_Exception) { SMESH_TRY; if ( CORBA::is_nil( theElems ) && theElems->GetType() == SMESH::NODE ) return false; initData(); SMESHDS_Mesh* aMeshDS = getMeshDS(); TIDSortedElemSet anElems, aNodes, anAffected; idSourceToSet( theElems, aMeshDS, anElems, SMDSAbs_All ); idSourceToSet( theNodesNot, aMeshDS, aNodes, SMDSAbs_Node ); idSourceToSet( theAffectedElems, aMeshDS, anAffected, SMDSAbs_All ); bool aResult = getEditor().DoubleNodes( anElems, aNodes, anAffected ); // Update Python script TPythonDump() << "isDone = " << this << ".DoubleNodeElemGroup( " << theElems << ", " << theNodesNot << ", " << theAffectedElems << " )"; declareMeshModified( /*isReComputeSafe=*/false ); return aResult; SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //================================================================================ /*! * \brief Creates a hole in a mesh by doubling the nodes of some particular elements * Works as DoubleNodeElemGroup(), but returns a new group with newly created elements. * \param theElems - group of of elements (edges or faces) to be replicated * \param theNodesNot - group of nodes not to replicated * \param theAffectedElems - group of elements to which the replicated nodes * should be associated to. * \return a new group with newly created elements * \sa DoubleNodeElemGroup() */ //================================================================================ SMESH::SMESH_Group_ptr SMESH_MeshEditor_i::DoubleNodeElemGroupNew(SMESH::SMESH_GroupBase_ptr theElems, SMESH::SMESH_GroupBase_ptr theNodesNot, SMESH::SMESH_GroupBase_ptr theAffectedElems) throw (SALOME::SALOME_Exception) { TPythonDump pyDump; SMESH::ListOfGroups_var twoGroups = DoubleNodeElemGroup2New( theElems, theNodesNot, theAffectedElems, true, false ); SMESH::SMESH_GroupBase_var baseGroup = twoGroups[0].in(); SMESH::SMESH_Group_var elemGroup = SMESH::SMESH_Group::_narrow( baseGroup ); pyDump << elemGroup << " = " << this << ".DoubleNodeElemGroupNew( " << theElems << ", " << theNodesNot << ", " << theAffectedElems << " )"; return elemGroup._retn(); } //================================================================================ /*! * \brief Creates a hole in a mesh by doubling the nodes of some particular elements * Works as DoubleNodeElemGroup(), but returns a new group with newly created elements. * \param theElems - group of of elements (edges or faces) to be replicated * \param theNodesNot - group of nodes not to replicated * \param theAffectedElems - group of elements to which the replicated nodes * should be associated to. * \return a new group with newly created elements * \sa DoubleNodeElemGroup() */ //================================================================================ SMESH::ListOfGroups* SMESH_MeshEditor_i::DoubleNodeElemGroup2New(SMESH::SMESH_GroupBase_ptr theElems, SMESH::SMESH_GroupBase_ptr theNodesNot, SMESH::SMESH_GroupBase_ptr theAffectedElems, CORBA::Boolean theElemGroupNeeded, CORBA::Boolean theNodeGroupNeeded) throw (SALOME::SALOME_Exception) { SMESH_TRY; SMESH::SMESH_Group_var aNewElemGroup, aNewNodeGroup; SMESH::ListOfGroups_var aTwoGroups = new SMESH::ListOfGroups(); aTwoGroups->length( 2 ); if ( CORBA::is_nil( theElems ) && theElems->GetType() == SMESH::NODE ) return aTwoGroups._retn(); initData(); SMESHDS_Mesh* aMeshDS = getMeshDS(); TIDSortedElemSet anElems, aNodes, anAffected; idSourceToSet( theElems, aMeshDS, anElems, SMDSAbs_All ); idSourceToSet( theNodesNot, aMeshDS, aNodes, SMDSAbs_Node ); idSourceToSet( theAffectedElems, aMeshDS, anAffected, SMDSAbs_All ); bool aResult = getEditor().DoubleNodes( anElems, aNodes, anAffected ); declareMeshModified( /*isReComputeSafe=*/ !aResult ); TPythonDump pyDump; if ( aResult ) { // Create group with newly created elements CORBA::String_var elemGroupName = theElems->GetName(); string aNewName = generateGroupName( string(elemGroupName.in()) + "_double"); if ( !getEditor().GetLastCreatedElems().IsEmpty() && theElemGroupNeeded ) { SMESH::long_array_var anIds = GetLastCreatedElems(); SMESH::ElementType aGroupType = myMesh_i->GetElementType(anIds[0], true); aNewElemGroup = myMesh_i->CreateGroup(aGroupType, aNewName.c_str()); aNewElemGroup->Add(anIds); } if ( !getEditor().GetLastCreatedNodes().IsEmpty() && theNodeGroupNeeded ) { SMESH::long_array_var anIds = GetLastCreatedNodes(); aNewNodeGroup = myMesh_i->CreateGroup(SMESH::NODE, aNewName.c_str()); aNewNodeGroup->Add(anIds); } } // Update Python script pyDump << "[ "; if ( aNewElemGroup->_is_nil() ) pyDump << "nothing, "; else pyDump << aNewElemGroup << ", "; if ( aNewNodeGroup->_is_nil() ) pyDump << "nothing ] = "; else pyDump << aNewNodeGroup << " ] = "; pyDump << this << ".DoubleNodeElemGroup2New( " << theElems << ", " << theNodesNot << ", " << theAffectedElems << ", " << theElemGroupNeeded << ", " << theNodeGroupNeeded <<" )"; aTwoGroups[0] = aNewElemGroup._retn(); aTwoGroups[1] = aNewNodeGroup._retn(); return aTwoGroups._retn(); SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //================================================================================ /*! \brief Creates a hole in a mesh by doubling the nodes of some particular elements \param theElems - group of of elements (edges or faces) to be replicated \param theNodesNot - group of nodes not to replicated \param theShape - shape to detect affected elements (element which geometric center located on or inside shape). The replicated nodes should be associated to affected elements. \return TRUE if operation has been completed successfully, FALSE otherwise \sa DoubleNodesInRegion(), DoubleNodeGroupsInRegion() */ //================================================================================ CORBA::Boolean SMESH_MeshEditor_i::DoubleNodeElemGroupInRegion(SMESH::SMESH_GroupBase_ptr theElems, SMESH::SMESH_GroupBase_ptr theNodesNot, GEOM::GEOM_Object_ptr theShape ) throw (SALOME::SALOME_Exception) { SMESH_TRY; if ( CORBA::is_nil( theElems ) && theElems->GetType() == SMESH::NODE ) return false; initData(); SMESHDS_Mesh* aMeshDS = getMeshDS(); TIDSortedElemSet anElems, aNodes, anAffected; idSourceToSet( theElems, aMeshDS, anElems, SMDSAbs_All ); idSourceToSet( theNodesNot, aMeshDS, aNodes, SMDSAbs_Node ); TopoDS_Shape aShape = SMESH_Gen_i::GetSMESHGen()->GeomObjectToShape( theShape ); bool aResult = getEditor().DoubleNodesInRegion( anElems, aNodes, aShape ); declareMeshModified( /*isReComputeSafe=*/ !aResult ); // Update Python script TPythonDump() << "isDone = " << this << ".DoubleNodeElemGroupInRegion( " << theElems << ", " << theNodesNot << ", " << theShape << " )"; return aResult; SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //================================================================================ /*! * \brief Re-load elements from a list of groups into a TIDSortedElemSet * \param [in] theGrpList - groups * \param [in] theMeshDS - mesh * \param [out] theElemSet - set of elements * \param [in] theIsNodeGrp - is \a theGrpList includes goups of nodes */ //================================================================================ static void listOfGroupToSet(const SMESH::ListOfGroups& theGrpList, SMESHDS_Mesh* theMeshDS, TIDSortedElemSet& theElemSet, const bool theIsNodeGrp) { for ( int i = 0, n = theGrpList.length(); i < n; i++ ) { SMESH::SMESH_GroupBase_var aGrp = theGrpList[ i ]; if ( !CORBA::is_nil( aGrp ) && (theIsNodeGrp ? aGrp->GetType() == SMESH::NODE : aGrp->GetType() != SMESH::NODE ) ) { SMESH::long_array_var anIDs = aGrp->GetIDs(); arrayToSet( anIDs, theMeshDS, theElemSet, theIsNodeGrp ? SMDSAbs_Node : SMDSAbs_All ); } } } //================================================================================ /*! \brief Creates a hole in a mesh by doubling the nodes of some particular elements. This method provided for convenience works as DoubleNodes() described above. \param theElems - list of groups of elements (edges or faces) to be replicated \param theNodesNot - list of groups of nodes not to replicated \param theAffectedElems - group of elements to which the replicated nodes should be associated to. \return TRUE if operation has been completed successfully, FALSE otherwise \sa DoubleNodeGroup(), DoubleNodes(), DoubleNodeElemGroupsNew() */ //================================================================================ CORBA::Boolean SMESH_MeshEditor_i::DoubleNodeElemGroups(const SMESH::ListOfGroups& theElems, const SMESH::ListOfGroups& theNodesNot, const SMESH::ListOfGroups& theAffectedElems) throw (SALOME::SALOME_Exception) { SMESH_TRY; initData(); SMESHDS_Mesh* aMeshDS = getMeshDS(); TIDSortedElemSet anElems, aNodes, anAffected; listOfGroupToSet(theElems, aMeshDS, anElems, false ); listOfGroupToSet(theNodesNot, aMeshDS, aNodes, true ); listOfGroupToSet(theAffectedElems, aMeshDS, anAffected, false ); bool aResult = getEditor().DoubleNodes( anElems, aNodes, anAffected ); // Update Python script TPythonDump() << "isDone = " << this << ".DoubleNodeElemGroups( " << &theElems << ", " << &theNodesNot << ", " << &theAffectedElems << " )"; declareMeshModified( /*isReComputeSafe=*/false ); return aResult; SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //================================================================================ /*! * \brief Creates a hole in a mesh by doubling the nodes of some particular elements * Works as DoubleNodeElemGroups(), but returns a new group with newly created elements. \param theElems - list of groups of elements (edges or faces) to be replicated \param theNodesNot - list of groups of nodes not to replicated \param theAffectedElems - group of elements to which the replicated nodes should be associated to. * \return a new group with newly created elements * \sa DoubleNodeElemGroups() */ //================================================================================ SMESH::SMESH_Group_ptr SMESH_MeshEditor_i::DoubleNodeElemGroupsNew(const SMESH::ListOfGroups& theElems, const SMESH::ListOfGroups& theNodesNot, const SMESH::ListOfGroups& theAffectedElems) throw (SALOME::SALOME_Exception) { TPythonDump pyDump; SMESH::ListOfGroups_var twoGroups = DoubleNodeElemGroups2New( theElems, theNodesNot, theAffectedElems, true, false ); SMESH::SMESH_GroupBase_var baseGroup = twoGroups[0].in(); SMESH::SMESH_Group_var elemGroup = SMESH::SMESH_Group::_narrow( baseGroup ); pyDump << elemGroup << " = " << this << ".DoubleNodeElemGroupsNew( " << theElems << ", " << theNodesNot << ", " << theAffectedElems << " )"; return elemGroup._retn(); } //================================================================================ /*! * \brief Creates a hole in a mesh by doubling the nodes of some particular elements * Works as DoubleNodeElemGroups(), but returns a new group with newly created elements. \param theElems - list of groups of elements (edges or faces) to be replicated \param theNodesNot - list of groups of nodes not to replicated \param theAffectedElems - group of elements to which the replicated nodes should be associated to. * \return a new group with newly created elements * \sa DoubleNodeElemGroups() */ //================================================================================ SMESH::ListOfGroups* SMESH_MeshEditor_i::DoubleNodeElemGroups2New(const SMESH::ListOfGroups& theElems, const SMESH::ListOfGroups& theNodesNot, const SMESH::ListOfGroups& theAffectedElems, CORBA::Boolean theElemGroupNeeded, CORBA::Boolean theNodeGroupNeeded) throw (SALOME::SALOME_Exception) { SMESH_TRY; SMESH::SMESH_Group_var aNewElemGroup, aNewNodeGroup; SMESH::ListOfGroups_var aTwoGroups = new SMESH::ListOfGroups(); aTwoGroups->length( 2 ); initData(); SMESHDS_Mesh* aMeshDS = getMeshDS(); TIDSortedElemSet anElems, aNodes, anAffected; listOfGroupToSet(theElems, aMeshDS, anElems, false ); listOfGroupToSet(theNodesNot, aMeshDS, aNodes, true ); listOfGroupToSet(theAffectedElems, aMeshDS, anAffected, false ); bool aResult = getEditor().DoubleNodes( anElems, aNodes, anAffected ); declareMeshModified( /*isReComputeSafe=*/ !aResult ); TPythonDump pyDump; if ( aResult ) { // Create group with newly created elements CORBA::String_var elemGroupName = theElems[0]->GetName(); string aNewName = generateGroupName( string(elemGroupName.in()) + "_double"); if ( !getEditor().GetLastCreatedElems().IsEmpty() && theElemGroupNeeded ) { SMESH::long_array_var anIds = GetLastCreatedElems(); SMESH::ElementType aGroupType = myMesh_i->GetElementType(anIds[0], true); aNewElemGroup = myMesh_i->CreateGroup(aGroupType, aNewName.c_str()); aNewElemGroup->Add(anIds); } if ( !getEditor().GetLastCreatedNodes().IsEmpty() && theNodeGroupNeeded ) { SMESH::long_array_var anIds = GetLastCreatedNodes(); aNewNodeGroup = myMesh_i->CreateGroup(SMESH::NODE, aNewName.c_str()); aNewNodeGroup->Add(anIds); } } // Update Python script pyDump << "[ "; if ( aNewElemGroup->_is_nil() ) pyDump << "nothing, "; else pyDump << aNewElemGroup << ", "; if ( aNewNodeGroup->_is_nil() ) pyDump << "nothing ] = "; else pyDump << aNewNodeGroup << " ] = "; pyDump << this << ".DoubleNodeElemGroups2New( " << &theElems << ", " << &theNodesNot << ", " << &theAffectedElems << ", " << theElemGroupNeeded << ", " << theNodeGroupNeeded << " )"; aTwoGroups[0] = aNewElemGroup._retn(); aTwoGroups[1] = aNewNodeGroup._retn(); return aTwoGroups._retn(); SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //================================================================================ /*! \brief Creates a hole in a mesh by doubling the nodes of some particular elements This method provided for convenience works as DoubleNodes() described above. \param theElems - list of groups of elements (edges or faces) to be replicated \param theNodesNot - list of groups of nodes not to replicated \param theShape - shape to detect affected elements (element which geometric center located on or inside shape). The replicated nodes should be associated to affected elements. \return TRUE if operation has been completed successfully, FALSE otherwise \sa DoubleNodeGroupInRegion(), DoubleNodesInRegion() */ //================================================================================ CORBA::Boolean SMESH_MeshEditor_i::DoubleNodeElemGroupsInRegion(const SMESH::ListOfGroups& theElems, const SMESH::ListOfGroups& theNodesNot, GEOM::GEOM_Object_ptr theShape ) throw (SALOME::SALOME_Exception) { SMESH_TRY; initData(); SMESHDS_Mesh* aMeshDS = getMeshDS(); TIDSortedElemSet anElems, aNodes; listOfGroupToSet(theElems, aMeshDS, anElems,false ); listOfGroupToSet(theNodesNot, aMeshDS, aNodes, true ); TopoDS_Shape aShape = SMESH_Gen_i::GetSMESHGen()->GeomObjectToShape( theShape ); bool aResult = getEditor().DoubleNodesInRegion( anElems, aNodes, aShape ); // Update Python script TPythonDump() << "isDone = " << this << ".DoubleNodeElemGroupsInRegion( " << &theElems << ", " << &theNodesNot << ", " << theShape << " )"; declareMeshModified( /*isReComputeSafe=*/ !aResult ); return aResult; SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //================================================================================ /*! \brief Identify the elements that will be affected by node duplication (actual duplication is not performed. This method is the first step of DoubleNodeElemGroupsInRegion. \param theElems - list of groups of elements (edges or faces) to be replicated \param theNodesNot - list of groups of nodes not to replicated \param theShape - shape to detect affected elements (element which geometric center located on or inside shape). The replicated nodes should be associated to affected elements. \return groups of affected elements \sa DoubleNodeElemGroupsInRegion() */ //================================================================================ SMESH::ListOfGroups* SMESH_MeshEditor_i::AffectedElemGroupsInRegion( const SMESH::ListOfGroups& theElems, const SMESH::ListOfGroups& theNodesNot, GEOM::GEOM_Object_ptr theShape ) throw (SALOME::SALOME_Exception) { SMESH_TRY; MESSAGE("AffectedElemGroupsInRegion"); SMESH::ListOfGroups_var aListOfGroups = new SMESH::ListOfGroups(); bool isEdgeGroup = false; bool isFaceGroup = false; bool isVolumeGroup = false; SMESH::SMESH_Group_var aNewEdgeGroup = myMesh_i->CreateGroup(SMESH::EDGE, "affectedEdges"); SMESH::SMESH_Group_var aNewFaceGroup = myMesh_i->CreateGroup(SMESH::FACE, "affectedFaces"); SMESH::SMESH_Group_var aNewVolumeGroup = myMesh_i->CreateGroup(SMESH::VOLUME, "affectedVolumes"); initData(); ::SMESH_MeshEditor aMeshEditor(myMesh); SMESHDS_Mesh* aMeshDS = getMeshDS(); TIDSortedElemSet anElems, aNodes; listOfGroupToSet(theElems, aMeshDS, anElems, false); listOfGroupToSet(theNodesNot, aMeshDS, aNodes, true); TopoDS_Shape aShape = SMESH_Gen_i::GetSMESHGen()->GeomObjectToShape(theShape); TIDSortedElemSet anAffected; bool aResult = aMeshEditor.AffectedElemGroupsInRegion(anElems, aNodes, aShape, anAffected); declareMeshModified( /*isReComputeSafe=*/ !aResult ); TPythonDump pyDump; if (aResult) { int lg = anAffected.size(); MESSAGE("lg="<< lg); SMESH::long_array_var volumeIds = new SMESH::long_array; volumeIds->length(lg); SMESH::long_array_var faceIds = new SMESH::long_array; faceIds->length(lg); SMESH::long_array_var edgeIds = new SMESH::long_array; edgeIds->length(lg); int ivol = 0; int iface = 0; int iedge = 0; TIDSortedElemSet::const_iterator eIt = anAffected.begin(); for (; eIt != anAffected.end(); ++eIt) { const SMDS_MeshElement* anElem = *eIt; if (!anElem) continue; int elemId = anElem->GetID(); if (myMesh->GetElementType(elemId, true) == SMDSAbs_Volume) volumeIds[ivol++] = elemId; else if (myMesh->GetElementType(elemId, true) == SMDSAbs_Face) faceIds[iface++] = elemId; else if (myMesh->GetElementType(elemId, true) == SMDSAbs_Edge) edgeIds[iedge++] = elemId; } volumeIds->length(ivol); faceIds->length(iface); edgeIds->length(iedge); aNewVolumeGroup->Add(volumeIds); aNewFaceGroup->Add(faceIds); aNewEdgeGroup->Add(edgeIds); isVolumeGroup = (aNewVolumeGroup->Size() > 0); isFaceGroup = (aNewFaceGroup->Size() > 0); isEdgeGroup = (aNewEdgeGroup->Size() > 0); } int nbGroups = 0; if (isEdgeGroup) nbGroups++; if (isFaceGroup) nbGroups++; if (isVolumeGroup) nbGroups++; aListOfGroups->length(nbGroups); int i = 0; if (isEdgeGroup) aListOfGroups[i++] = aNewEdgeGroup._retn(); if (isFaceGroup) aListOfGroups[i++] = aNewFaceGroup._retn(); if (isVolumeGroup) aListOfGroups[i++] = aNewVolumeGroup._retn(); // Update Python script pyDump << "[ "; if (isEdgeGroup) pyDump << aNewEdgeGroup << ", "; if (isFaceGroup) pyDump << aNewFaceGroup << ", "; if (isVolumeGroup) pyDump << aNewVolumeGroup << ", "; pyDump << "] = "; pyDump << this << ".AffectedElemGroupsInRegion( " << &theElems << ", " << &theNodesNot << ", " << theShape << " )"; return aListOfGroups._retn(); SMESH_CATCH( SMESH::throwCorbaException ); return 0; } //================================================================================ /*! \brief Generated skin mesh (containing 2D cells) from 3D mesh The created 2D mesh elements based on nodes of free faces of boundary volumes \return TRUE if operation has been completed successfully, FALSE otherwise */ //================================================================================ CORBA::Boolean SMESH_MeshEditor_i::Make2DMeshFrom3D() throw (SALOME::SALOME_Exception) { SMESH_TRY; initData(); bool aResult = getEditor().Make2DMeshFrom3D(); TPythonDump() << "isDone = " << this << ".Make2DMeshFrom3D()"; declareMeshModified( /*isReComputeSafe=*/ !aResult ); return aResult; SMESH_CATCH( SMESH::throwCorbaException ); return false; } //================================================================================ /*! * \brief Double nodes on shared faces between groups of volumes and create flat elements on demand. * The list of groups must contain at least two groups. The groups have to be disjoint: * no common element into two different groups. * The nodes of the internal faces at the boundaries of the groups are doubled. * Optionally, the internal faces are replaced by flat elements. * Triangles are transformed into prisms, and quadrangles into hexahedrons. * The flat elements are stored in groups of volumes. * These groups are named according to the position of the group in the list: * the group j_n_p is the group of the flat elements that are built between the group #n and the group #p in the list. * If there is no shared faces between the group #n and the group #p in the list, the group j_n_p is not created. * All the flat elements are gathered into the group named "joints3D" (or "joints2D" in 2D situation). * The flat element of the multiple junctions between the simple junction are stored in a group named "jointsMultiples". * \param theDomains - list of groups of volumes * \param createJointElems - if TRUE, create the elements * \param onAllBoundaries - if TRUE, the nodes and elements are also created on * the boundary between \a theDomains and the rest mesh * \return TRUE if operation has been completed successfully, FALSE otherwise */ //================================================================================ CORBA::Boolean SMESH_MeshEditor_i::DoubleNodesOnGroupBoundaries( const SMESH::ListOfGroups& theDomains, CORBA::Boolean createJointElems, CORBA::Boolean onAllBoundaries ) throw (SALOME::SALOME_Exception) { bool isOK = false; SMESH_TRY; initData(); SMESHDS_Mesh* aMeshDS = getMeshDS(); // MESSAGE("theDomains.length = "< domains; domains.resize( theDomains.length() ); for ( int i = 0, n = theDomains.length(); i < n; i++ ) { SMESH::SMESH_GroupBase_var aGrp = theDomains[ i ]; if ( !CORBA::is_nil( aGrp ) /*&& ( aGrp->GetType() != SMESH::NODE )*/ ) { // if ( aGrp->GetType() != SMESH::VOLUME ) // THROW_SALOME_CORBA_EXCEPTION("Not a volume group", SALOME::BAD_PARAM); SMESH::long_array_var anIDs = aGrp->GetIDs(); arrayToSet( anIDs, aMeshDS, domains[ i ], SMDSAbs_All ); } } isOK = getEditor().DoubleNodesOnGroupBoundaries( domains, createJointElems, onAllBoundaries ); // TODO publish the groups of flat elements in study declareMeshModified( /*isReComputeSafe=*/ !isOK ); // Update Python script TPythonDump() << "isDone = " << this << ".DoubleNodesOnGroupBoundaries( " << &theDomains << ", " << createJointElems << ", " << onAllBoundaries << " )"; SMESH_CATCH( SMESH::throwCorbaException ); myMesh_i->CreateGroupServants(); // publish created groups if any return isOK; } //================================================================================ /*! * \brief Double nodes on some external faces and create flat elements. * Flat elements are mainly used by some types of mechanic calculations. * * Each group of the list must be constituted of faces. * Triangles are transformed in prisms, and quadrangles in hexahedrons. * @param theGroupsOfFaces - list of groups of faces * @return TRUE if operation has been completed successfully, FALSE otherwise */ //================================================================================ CORBA::Boolean SMESH_MeshEditor_i::CreateFlatElementsOnFacesGroups( const SMESH::ListOfGroups& theGroupsOfFaces ) throw (SALOME::SALOME_Exception) { SMESH_TRY; initData(); SMESHDS_Mesh* aMeshDS = getMeshDS(); vector faceGroups; faceGroups.clear(); for ( int i = 0, n = theGroupsOfFaces.length(); i < n; i++ ) { SMESH::SMESH_GroupBase_var aGrp = theGroupsOfFaces[ i ]; if ( !CORBA::is_nil( aGrp ) && ( aGrp->GetType() != SMESH::NODE ) ) { TIDSortedElemSet faceGroup; faceGroup.clear(); faceGroups.push_back(faceGroup); SMESH::long_array_var anIDs = aGrp->GetIDs(); arrayToSet( anIDs, aMeshDS, faceGroups[ i ], SMDSAbs_All ); } } bool aResult = getEditor().CreateFlatElementsOnFacesGroups( faceGroups ); // TODO publish the groups of flat elements in study declareMeshModified( /*isReComputeSafe=*/ !aResult ); // Update Python script TPythonDump() << this << ".CreateFlatElementsOnFacesGroups( " << &theGroupsOfFaces << " )"; return aResult; SMESH_CATCH( SMESH::throwCorbaException ); return false; } //================================================================================ /*! * \brief Identify all the elements around a geom shape, get the faces delimiting * the hole. * * Build groups of volume to remove, groups of faces to replace on the skin of the * object, groups of faces to remove inside the object, (idem edges). * Build ordered list of nodes at the border of each group of faces to replace * (to be used to build a geom subshape). */ //================================================================================ void SMESH_MeshEditor_i::CreateHoleSkin(CORBA::Double radius, GEOM::GEOM_Object_ptr theShape, const char* groupName, const SMESH::double_array& theNodesCoords, SMESH::array_of_long_array_out GroupsOfNodes) throw (SALOME::SALOME_Exception) { SMESH_TRY; initData(); std::vector > aListOfListOfNodes; ::SMESH_MeshEditor aMeshEditor( myMesh ); theSearchersDeleter.Set( myMesh ); // remove theNodeSearcher if mesh is other if ( !theNodeSearcher ) theNodeSearcher = SMESH_MeshAlgos::GetNodeSearcher( *getMeshDS() ); vector nodesCoords; for (int i = 0; i < theNodesCoords.length(); i++) { nodesCoords.push_back( theNodesCoords[i] ); } TopoDS_Shape aShape = SMESH_Gen_i::GetSMESHGen()->GeomObjectToShape( theShape ); aMeshEditor.CreateHoleSkin(radius, aShape, theNodeSearcher, groupName, nodesCoords, aListOfListOfNodes); GroupsOfNodes = new SMESH::array_of_long_array; GroupsOfNodes->length( aListOfListOfNodes.size() ); std::vector >::iterator llIt = aListOfListOfNodes.begin(); for ( CORBA::Long i = 0; llIt != aListOfListOfNodes.end(); llIt++, i++ ) { vector& aListOfNodes = *llIt; vector::iterator lIt = aListOfNodes.begin();; SMESH::long_array& aGroup = (*GroupsOfNodes)[ i ]; aGroup.length( aListOfNodes.size() ); for ( int j = 0; lIt != aListOfNodes.end(); lIt++, j++ ) aGroup[ j ] = (*lIt); } TPythonDump() << "lists_nodes = " << this << ".CreateHoleSkin( " << radius << ", " << theShape << ", '" << groupName << "', " << theNodesCoords << " )"; SMESH_CATCH( SMESH::throwCorbaException ); } // issue 20749 =================================================================== /*! * \brief Creates missing boundary elements * \param elements - elements whose boundary is to be checked * \param dimension - defines type of boundary elements to create * \param groupName - a name of group to store created boundary elements in, * "" means not to create the group * \param meshName - a name of new mesh to store created boundary elements in, * "" means not to create the new mesh * \param toCopyElements - if true, the checked elements will be copied into the new mesh * \param toCopyExistingBondary - if true, not only new but also pre-existing * boundary elements will be copied into the new mesh * \param group - returns the create group, if any * \retval SMESH::SMESH_Mesh - the mesh where elements were added to */ // ================================================================================ SMESH::SMESH_Mesh_ptr SMESH_MeshEditor_i::MakeBoundaryMesh(SMESH::SMESH_IDSource_ptr idSource, SMESH::Bnd_Dimension dim, const char* groupName, const char* meshName, CORBA::Boolean toCopyElements, CORBA::Boolean toCopyExistingBondary, SMESH::SMESH_Group_out group) throw (SALOME::SALOME_Exception) { SMESH_TRY; initData(); if ( dim > SMESH::BND_1DFROM2D ) THROW_SALOME_CORBA_EXCEPTION("Invalid boundary dimension", SALOME::BAD_PARAM); SMESHDS_Mesh* aMeshDS = getMeshDS(); SMESH::SMESH_Mesh_var mesh_var; SMESH::SMESH_Group_var group_var; TPythonDump pyDump; TIDSortedElemSet elements; SMDSAbs_ElementType elemType = (dim == SMESH::BND_1DFROM2D) ? SMDSAbs_Face : SMDSAbs_Volume; prepareIdSource( idSource ); if ( idSourceToSet( idSource, aMeshDS, elements, elemType,/*emptyIfIsMesh=*/true )) { // mesh to fill in mesh_var = strlen(meshName) ? makeMesh(meshName) : SMESH::SMESH_Mesh::_duplicate(myMesh_i->_this()); SMESH_Mesh_i* mesh_i = SMESH::DownCast( mesh_var ); // other mesh SMESH_Mesh* smesh_mesh = (mesh_i==myMesh_i) ? (SMESH_Mesh*)0 : &mesh_i->GetImpl(); // group of new boundary elements SMESH_Group* smesh_group = 0; if ( strlen(groupName) ) { group_var = mesh_i->CreateGroup( SMESH::ElementType(int(elemType)-1),groupName); if ( SMESH_GroupBase_i* group_i = SMESH::DownCast( group_var )) smesh_group = group_i->GetSmeshGroup(); } // do it getEditor().MakeBoundaryMesh( elements, ::SMESH_MeshEditor::Bnd_Dimension(dim), smesh_group, smesh_mesh, toCopyElements, toCopyExistingBondary); if ( smesh_mesh ) smesh_mesh->GetMeshDS()->Modified(); } const char* dimName[] = { "BND_2DFROM3D", "BND_1DFROM3D", "BND_1DFROM2D" }; // result of MakeBoundaryMesh() is a tuple (mesh, group) if ( mesh_var->_is_nil() ) pyDump << myMesh_i->_this() << ", "; else pyDump << mesh_var << ", "; if ( group_var->_is_nil() ) pyDump << "_NoneGroup = "; // assignment to None is forbiden else pyDump << group_var << " = "; pyDump << this << ".MakeBoundaryMesh( " << idSource << ", " << "SMESH." << dimName[int(dim)] << ", " << "'" << groupName << "', " << "'" << meshName<< "', " << toCopyElements << ", " << toCopyExistingBondary << ")"; group = group_var._retn(); return mesh_var._retn(); SMESH_CATCH( SMESH::throwCorbaException ); return SMESH::SMESH_Mesh::_nil(); } //================================================================================ /*! * \brief Creates missing boundary elements * \param dimension - defines type of boundary elements to create * \param groupName - a name of group to store all boundary elements in, * "" means not to create the group * \param meshName - a name of a new mesh, which is a copy of the initial * mesh + created boundary elements; "" means not to create the new mesh * \param toCopyAll - if true, the whole initial mesh will be copied into * the new mesh else only boundary elements will be copied into the new mesh * \param groups - optional groups of elements to make boundary around * \param mesh - returns the mesh where elements were added to * \param group - returns the created group, if any * \retval long - number of added boundary elements */ //================================================================================ CORBA::Long SMESH_MeshEditor_i::MakeBoundaryElements(SMESH::Bnd_Dimension dim, const char* groupName, const char* meshName, CORBA::Boolean toCopyAll, const SMESH::ListOfIDSources& groups, SMESH::SMESH_Mesh_out mesh, SMESH::SMESH_Group_out group) throw (SALOME::SALOME_Exception) { SMESH_TRY; initData(); if ( dim > SMESH::BND_1DFROM2D ) THROW_SALOME_CORBA_EXCEPTION("Invalid boundary dimension", SALOME::BAD_PARAM); // separate groups belonging to this and other mesh SMESH::ListOfIDSources_var groupsOfThisMesh = new SMESH::ListOfIDSources; SMESH::ListOfIDSources_var groupsOfOtherMesh = new SMESH::ListOfIDSources; groupsOfThisMesh->length( groups.length() ); groupsOfOtherMesh->length( groups.length() ); int nbGroups = 0, nbGroupsOfOtherMesh = 0; for ( int i = 0; i < groups.length(); ++i ) { SMESH::SMESH_Mesh_var m = groups[i]->GetMesh(); if ( myMesh_i != SMESH::DownCast( m )) groupsOfOtherMesh[ nbGroupsOfOtherMesh++ ] = groups[i]; else groupsOfThisMesh[ nbGroups++ ] = groups[i]; if ( SMESH::DownCast( groups[i] )) THROW_SALOME_CORBA_EXCEPTION("expect a group but recieve a mesh", SALOME::BAD_PARAM); } groupsOfThisMesh->length( nbGroups ); groupsOfOtherMesh->length( nbGroupsOfOtherMesh ); int nbAdded = 0; TPythonDump pyDump; if ( nbGroupsOfOtherMesh > 0 ) { // process groups belonging to another mesh SMESH::SMESH_Mesh_var otherMesh = groupsOfOtherMesh[0]->GetMesh(); SMESH::SMESH_MeshEditor_var editor = otherMesh->GetMeshEditor(); nbAdded += editor->MakeBoundaryElements( dim, groupName, meshName, toCopyAll, groupsOfOtherMesh, mesh, group ); } SMESH::SMESH_Mesh_var mesh_var; SMESH::SMESH_Group_var group_var; // get mesh to fill mesh_var = SMESH::SMESH_Mesh::_duplicate( myMesh_i->_this() ); const bool toCopyMesh = ( strlen( meshName ) > 0 ); if ( toCopyMesh ) { if ( toCopyAll ) mesh_var = SMESH_Gen_i::GetSMESHGen()->CopyMesh(mesh_var, meshName, /*toCopyGroups=*/false, /*toKeepIDs=*/true); else mesh_var = makeMesh(meshName); } SMESH_Mesh_i* mesh_i = SMESH::DownCast( mesh_var ); SMESH_Mesh* tgtMesh = &mesh_i->GetImpl(); // source mesh SMESH_Mesh* srcMesh = ( toCopyMesh && !toCopyAll ) ? myMesh : tgtMesh; SMESHDS_Mesh* srcMeshDS = srcMesh->GetMeshDS(); // group of boundary elements SMESH_Group* smesh_group = 0; SMDSAbs_ElementType elemType = (dim == SMESH::BND_2DFROM3D) ? SMDSAbs_Volume : SMDSAbs_Face; if ( strlen(groupName) ) { SMESH::ElementType groupType = SMESH::ElementType( int(elemType)-1 ); group_var = mesh_i->CreateGroup( groupType, groupName ); if ( SMESH_GroupBase_i* group_i = SMESH::DownCast( group_var )) smesh_group = group_i->GetSmeshGroup(); } TIDSortedElemSet elements; if ( groups.length() > 0 ) { for ( int i = 0; i < nbGroups; ++i ) { elements.clear(); if ( idSourceToSet( groupsOfThisMesh[i], srcMeshDS, elements, elemType,/*emptyIfIsMesh=*/0 )) { SMESH::Bnd_Dimension bdim = ( elemType == SMDSAbs_Volume ) ? SMESH::BND_2DFROM3D : SMESH::BND_1DFROM2D; nbAdded += getEditor().MakeBoundaryMesh( elements, ::SMESH_MeshEditor::Bnd_Dimension(bdim), smesh_group, tgtMesh, /*toCopyElements=*/false, /*toCopyExistingBondary=*/srcMesh != tgtMesh, /*toAddExistingBondary=*/true, /*aroundElements=*/true); } } } else { nbAdded += getEditor().MakeBoundaryMesh( elements, ::SMESH_MeshEditor::Bnd_Dimension(dim), smesh_group, tgtMesh, /*toCopyElements=*/false, /*toCopyExistingBondary=*/srcMesh != tgtMesh, /*toAddExistingBondary=*/true); } tgtMesh->GetMeshDS()->Modified(); const char* dimName[] = { "BND_2DFROM3D", "BND_1DFROM3D", "BND_1DFROM2D" }; // result of MakeBoundaryElements() is a tuple (nb, mesh, group) pyDump << "nbAdded, "; if ( mesh_var->_is_nil() ) pyDump << myMesh_i->_this() << ", "; else pyDump << mesh_var << ", "; if ( group_var->_is_nil() ) pyDump << "_NoneGroup = "; // assignment to None is forbiden else pyDump << group_var << " = "; pyDump << this << ".MakeBoundaryElements( " << "SMESH." << dimName[int(dim)] << ", " << "'" << groupName << "', " << "'" << meshName<< "', " << toCopyAll << ", " << groups << ")"; mesh = mesh_var._retn(); group = group_var._retn(); return nbAdded; SMESH_CATCH( SMESH::throwCorbaException ); return 0; }