// Copyright (C) 2007-2008 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. // // 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.idl // #ifndef _SMESH_MESHEDITOR_IDL_ #define _SMESH_MESHEDITOR_IDL_ #include "SMESH_Mesh.idl" module SMESH { /*! * This interface makes modifications on the Mesh - removing elements and nodes etc. */ interface NumericalFunctor; interface SMESH_MeshEditor { boolean RemoveElements(in long_array IDsOfElements); boolean RemoveNodes(in long_array IDsOfNodes); long AddNode(in double x, in double y, in double z); /*! * Create 0D element on the given node. * \param IdOfNode Node IDs for creation of element. */ long Add0DElement(in long IDOfNode); /*! * Create edge, either linear and quadratic (this is determed * by number of given nodes). * \param IdsOfNodes List of node IDs for creation of element. * Needed order of nodes in this list corresponds to description * of MED. This description is located by the following link: * http://www.salome-platform.org/salome2/web_med_internet/logiciels/medV2.2.2_doc_html/html/modele_de_donnees.html#3. */ long AddEdge(in long_array IDsOfNodes); /*! * Create face, either linear and quadratic (this is determed * by number of given nodes). * \param IdsOfNodes List of node IDs for creation of element. * Needed order of nodes in this list corresponds to description * of MED. This description is located by the following link: * http://www.salome-platform.org/salome2/web_med_internet/logiciels/medV2.2.2_doc_html/html/modele_de_donnees.html#3. */ long AddFace(in long_array IDsOfNodes); long AddPolygonalFace(in long_array IdsOfNodes); /*! * Create volume, either linear and quadratic (this is determed * by number of given nodes). * \param IdsOfNodes List of node IDs for creation of element. * Needed order of nodes in this list corresponds to description * of MED. This description is located by the following link: * http://www.salome-platform.org/salome2/web_med_internet/logiciels/medV2.2.2_doc_html/html/modele_de_donnees.html#3. */ long AddVolume(in long_array IDsOfNodes); /*! * Create volume of many faces, giving nodes for each face. * \param IdsOfNodes List of node IDs for volume creation face by face. * \param Quantities List of integer values, Quantities[i] * gives quantity of nodes in face number i. */ long AddPolyhedralVolume (in long_array IdsOfNodes, in long_array Quantities); /*! * Create volume of many faces, giving IDs of existing faces. * \param IdsOfFaces List of face IDs for volume creation. * \note The created volume will refer only to nodes * of the given faces, not to the faces itself. */ long AddPolyhedralVolumeByFaces (in long_array IdsOfFaces); /*! * \brief Bind a node to a vertex * \param NodeID - node ID * \param VertexID - vertex ID available through GEOM_Object.GetSubShapeIndices()[0] */ void SetNodeOnVertex(in long NodeID, in long VertexID) raises (SALOME::SALOME_Exception); /*! * \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 */ void SetNodeOnEdge(in long NodeID, in long EdgeID, in double paramOnEdge) raises (SALOME::SALOME_Exception); /*! * \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 */ void SetNodeOnFace(in long NodeID, in long FaceID, in double u, in double v) raises (SALOME::SALOME_Exception); /*! * \brief Bind a node to a solid * \param NodeID - node ID * \param SolidID - vertex ID available through GEOM_Object.GetSubShapeIndices()[0] */ void SetNodeInVolume(in long NodeID, in long SolidID) raises (SALOME::SALOME_Exception); /*! * \brief Bind an element to a shape * \param ElementID - element ID * \param ShapeID - shape ID available through GEOM_Object.GetSubShapeIndices()[0] */ void SetMeshElementOnShape(in long ElementID, in long ShapeID) raises (SALOME::SALOME_Exception); boolean MoveNode(in long NodeID, in double x, in double y, in double z); boolean InverseDiag(in long NodeID1, in long NodeID2); boolean DeleteDiag(in long NodeID1, in long NodeID2); boolean Reorient(in long_array IDsOfElements); boolean ReorientObject(in SMESH_IDSource theObject); /*! * \brief Fuse neighbour triangles into quadrangles. * \param theElems The triangles to be fused. * \param theCriterion Is used to choose a neighbour to fuse with. * \param theMaxAngle Is a max angle between element normals at which fusion * is still performed; theMaxAngle is mesured in radians. * \return TRUE in case of success, FALSE otherwise. */ boolean TriToQuad (in long_array IDsOfElements, in NumericalFunctor Criterion, in double MaxAngle); /*! * \brief Fuse neighbour triangles into quadrangles. * * Behaves like the above method, taking list of elements from \a theObject */ boolean TriToQuadObject (in SMESH_IDSource theObject, in NumericalFunctor Criterion, in double MaxAngle); /*! * \brief Split quadrangles into triangles. * \param theElems The faces to be splitted. * \param theCriterion Is used to choose a diagonal for splitting. * \return TRUE in case of success, FALSE otherwise. */ boolean QuadToTri (in long_array IDsOfElements, in NumericalFunctor Criterion); /*! * \brief Split quadrangles into triangles. * * Behaves like the above method, taking list of elements from \a theObject */ boolean QuadToTriObject (in SMESH_IDSource theObject, in NumericalFunctor Criterion); /*! * \brief Split quadrangles into triangles. * \param theElems The faces to be splitted. * \param the13Diag Is used to choose a diagonal for splitting. * \return TRUE in case of success, FALSE otherwise. */ boolean SplitQuad (in long_array IDsOfElements, in boolean Diag13); /*! * \brief Split quadrangles into triangles. * * Behaves like the above method, taking list of elements from \a theObject */ boolean SplitQuadObject (in SMESH_IDSource theObject, in boolean Diag13); /*! * 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. */ long BestSplit (in long IDOfQuad, in NumericalFunctor Criterion); enum Smooth_Method { LAPLACIAN_SMOOTH, CENTROIDAL_SMOOTH }; boolean Smooth(in long_array IDsOfElements, in long_array IDsOfFixedNodes, in long MaxNbOfIterations, in double MaxAspectRatio, in Smooth_Method Method); boolean SmoothObject(in SMESH_IDSource theObject, in long_array IDsOfFixedNodes, in long MaxNbOfIterations, in double MaxAspectRatio, in Smooth_Method Method); boolean SmoothParametric(in long_array IDsOfElements, in long_array IDsOfFixedNodes, in long MaxNbOfIterations, in double MaxAspectRatio, in Smooth_Method Method); boolean SmoothParametricObject(in SMESH_IDSource theObject, in long_array IDsOfFixedNodes, in long MaxNbOfIterations, in double MaxAspectRatio, in Smooth_Method Method); void ConvertToQuadratic(in boolean theForce3d); boolean ConvertFromQuadratic(); void RenumberNodes(); void RenumberElements(); /*! * \brief Genarate dim+1 elements by rotation of given elements around axis * \param IDsOfElements - elements to ratate * \param Axix - rotation axis * \param AngleInRadians - rotation angle * \param NbOfSteps - number of elements to generate from one element */ void RotationSweep(in long_array IDsOfElements, in AxisStruct Axix, in double AngleInRadians, in long NbOfSteps, in double Tolerance); /*! * \brief Same as previous but additionally create groups of elements * generated from elements belonging to preexisting groups */ ListOfGroups RotationSweepMakeGroups(in long_array IDsOfElements, in AxisStruct Axix, in double AngleInRadians, in long NbOfSteps, in double Tolerance); /*! * \brief Genarate dim+1 elements by rotation of the object around axis * \param theObject - object containing elements to ratate * \param Axix - rotation axis * \param AngleInRadians - rotation angle * \param NbOfSteps - number of elements to generate from one element */ void RotationSweepObject(in SMESH_IDSource theObject, in AxisStruct Axix, in double AngleInRadians, in long NbOfSteps, in double Tolerance); /*! * \brief Same as previous but additionally create groups of elements * generated from elements belonging to preexisting groups */ ListOfGroups RotationSweepObjectMakeGroups(in SMESH_IDSource theObject, in AxisStruct Axix, in double AngleInRadians, in long NbOfSteps, in double Tolerance); /*! * \brief Genarate dim+1 elements by rotation of the object around axis * \param theObject - object containing elements to ratate * \param Axix - rotation axis * \param AngleInRadians - rotation angle * \param NbOfSteps - number of elements to generate from one element */ void RotationSweepObject1D(in SMESH_IDSource theObject, in AxisStruct Axix, in double AngleInRadians, in long NbOfSteps, in double Tolerance); /*! * \brief Same as previous but additionally create groups of elements * generated from elements belonging to preexisting groups */ ListOfGroups RotationSweepObject1DMakeGroups(in SMESH_IDSource theObject, in AxisStruct Axix, in double AngleInRadians, in long NbOfSteps, in double Tolerance); /*! * \brief Genarate dim+1 elements by rotation of the object around axis * \param theObject - object containing elements to ratate * \param Axix - rotation axis * \param AngleInRadians - rotation angle * \param NbOfSteps - number of elements to generate from one element */ void RotationSweepObject2D(in SMESH_IDSource theObject, in AxisStruct Axix, in double AngleInRadians, in long NbOfSteps, in double Tolerance); /*! * \brief Same as previous but additionally create groups of elements * generated from elements belonging to preexisting groups */ ListOfGroups RotationSweepObject2DMakeGroups(in SMESH_IDSource theObject, in AxisStruct Axix, in double AngleInRadians, in long NbOfSteps, in double Tolerance); /*! * \brief Genarate dim+1 elements by extrusion of elements along vector * \param IDsOfElements - elements to sweep * \param StepVector - vector giving direction and distance of an extrusion step * \param NbOfSteps - number of elements to generate from one element */ void ExtrusionSweep(in long_array IDsOfElements, in DirStruct StepVector, in long NbOfSteps); /*! * \brief Same as previous but additionally create groups of elements * generated from elements belonging to preexisting groups */ ListOfGroups ExtrusionSweepMakeGroups(in long_array IDsOfElements, in DirStruct StepVector, in long NbOfSteps); /*! * Generate new elements by extrusion of theElements * by StepVector by NbOfSteps * param ExtrFlags set flags for performing extrusion * param SewTolerance - uses for comparing locations of nodes if flag * EXTRUSION_FLAG_SEW is set */ void AdvancedExtrusion(in long_array IDsOfElements, in DirStruct StepVector, in long NbOfSteps, in long ExtrFlags, in double SewTolerance); /*! * \brief Same as previous but additionally create groups of elements * generated from elements belonging to preexisting groups */ ListOfGroups AdvancedExtrusionMakeGroups(in long_array IDsOfElements, in DirStruct StepVector, in long NbOfSteps, in long ExtrFlags, in double SewTolerance); void ExtrusionSweepObject(in SMESH_IDSource theObject, in DirStruct StepVector, in long NbOfSteps); ListOfGroups ExtrusionSweepObjectMakeGroups(in SMESH_IDSource theObject, in DirStruct StepVector, in long NbOfSteps); void ExtrusionSweepObject1D(in SMESH_IDSource theObject, in DirStruct StepVector, in long NbOfSteps); ListOfGroups ExtrusionSweepObject1DMakeGroups(in SMESH_IDSource theObject, in DirStruct StepVector, in long NbOfSteps); void ExtrusionSweepObject2D(in SMESH_IDSource theObject, in DirStruct StepVector, in long NbOfSteps); ListOfGroups ExtrusionSweepObject2DMakeGroups(in SMESH_IDSource theObject, in DirStruct StepVector, in long NbOfSteps); enum Extrusion_Error { EXTR_OK, EXTR_NO_ELEMENTS, EXTR_PATH_NOT_EDGE, EXTR_BAD_PATH_SHAPE, EXTR_BAD_STARTING_NODE, EXTR_BAD_ANGLES_NUMBER, EXTR_CANT_GET_TANGENT }; ListOfGroups ExtrusionAlongPathX(in long_array IDsOfElements, in SMESH_IDSource Path, in long NodeStart, in boolean HasAngles, in double_array Angles, in boolean LinearVariation, in boolean HasRefPoint, in PointStruct RefPoint, in boolean MakeGroups, in ElementType ElemType, out Extrusion_Error Error); ListOfGroups ExtrusionAlongPathObjX(in SMESH_IDSource theObject, in SMESH_IDSource Path, in long NodeStart, in boolean HasAngles, in double_array Angles, in boolean LinearVariation, in boolean HasRefPoint, in PointStruct RefPoint, in boolean MakeGroups, in ElementType ElemType, out Extrusion_Error Error); Extrusion_Error ExtrusionAlongPath(in long_array IDsOfElements, in SMESH_Mesh PathMesh, in GEOM::GEOM_Object PathShape, in long NodeStart, in boolean HasAngles, in double_array Angles, in boolean HasRefPoint, in PointStruct RefPoint); ListOfGroups ExtrusionAlongPathMakeGroups(in long_array IDsOfElements, in SMESH_Mesh PathMesh, in GEOM::GEOM_Object PathShape, in long NodeStart, in boolean HasAngles, in double_array Angles, in boolean HasRefPoint, in PointStruct RefPoint, out Extrusion_Error Error); Extrusion_Error ExtrusionAlongPathObject(in SMESH_IDSource theObject, in SMESH_Mesh PathMesh, in GEOM::GEOM_Object PathShape, in long NodeStart, in boolean HasAngles, in double_array Angles, in boolean HasRefPoint, in PointStruct RefPoint); ListOfGroups ExtrusionAlongPathObjectMakeGroups(in SMESH_IDSource theObject, in SMESH_Mesh PathMesh, in GEOM::GEOM_Object PathShape, in long NodeStart, in boolean HasAngles, in double_array Angles, in boolean HasRefPoint, in PointStruct RefPoint, out Extrusion_Error Error); Extrusion_Error ExtrusionAlongPathObject1D(in SMESH_IDSource theObject, in SMESH_Mesh PathMesh, in GEOM::GEOM_Object PathShape, in long NodeStart, in boolean HasAngles, in double_array Angles, in boolean HasRefPoint, in PointStruct RefPoint); ListOfGroups ExtrusionAlongPathObject1DMakeGroups(in SMESH_IDSource theObject, in SMESH_Mesh PathMesh, in GEOM::GEOM_Object PathShape, in long NodeStart, in boolean HasAngles, in double_array Angles, in boolean HasRefPoint, in PointStruct RefPoint, out Extrusion_Error Error); Extrusion_Error ExtrusionAlongPathObject2D(in SMESH_IDSource theObject, in SMESH_Mesh PathMesh, in GEOM::GEOM_Object PathShape, in long NodeStart, in boolean HasAngles, in double_array Angles, in boolean HasRefPoint, in PointStruct RefPoint); ListOfGroups ExtrusionAlongPathObject2DMakeGroups(in SMESH_IDSource theObject, in SMESH_Mesh PathMesh, in GEOM::GEOM_Object PathShape, in long NodeStart, in boolean HasAngles, in double_array Angles, in boolean HasRefPoint, in PointStruct RefPoint, out Extrusion_Error Error); /*! * 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 */ double_array LinearAnglesVariation(in SMESH_Mesh PathMesh, in GEOM::GEOM_Object PathShape, in double_array Angles); enum MirrorType { POINT, AXIS, PLANE }; void Mirror (in long_array IDsOfElements, in AxisStruct Mirror, in MirrorType Type, in boolean Copy); ListOfGroups MirrorMakeGroups (in long_array IDsOfElements, in AxisStruct Mirror, in MirrorType Type); SMESH_Mesh MirrorMakeMesh (in long_array IDsOfElements, in AxisStruct Mirror, in MirrorType Type, in boolean CopyGroups, in string MeshName); void MirrorObject (in SMESH_IDSource theObject, in AxisStruct Mirror, in MirrorType Type, in boolean Copy); ListOfGroups MirrorObjectMakeGroups (in SMESH_IDSource theObject, in AxisStruct Mirror, in MirrorType Type); SMESH_Mesh MirrorObjectMakeMesh (in SMESH_IDSource theObject, in AxisStruct Mirror, in MirrorType Type, in boolean CopyGroups, in string MeshName); void Translate (in long_array IDsOfElements, in DirStruct Vector, in boolean Copy); ListOfGroups TranslateMakeGroups (in long_array IDsOfElements, in DirStruct Vector); SMESH_Mesh TranslateMakeMesh (in long_array IDsOfElements, in DirStruct Vector, in boolean CopyGroups, in string MeshName); void TranslateObject (in SMESH_IDSource theObject, in DirStruct Vector, in boolean Copy); ListOfGroups TranslateObjectMakeGroups (in SMESH_IDSource theObject, in DirStruct Vector); SMESH_Mesh TranslateObjectMakeMesh (in SMESH_IDSource theObject, in DirStruct Vector, in boolean CopyGroups, in string MeshName); void Rotate (in long_array IDsOfElements, in AxisStruct Axis, in double AngleInRadians, in boolean Copy); ListOfGroups RotateMakeGroups (in long_array IDsOfElements, in AxisStruct Axis, in double AngleInRadians); SMESH_Mesh RotateMakeMesh (in long_array IDsOfElements, in AxisStruct Axis, in double AngleInRadians, in boolean CopyGroups, in string MeshName); void RotateObject (in SMESH_IDSource theObject, in AxisStruct Axis, in double AngleInRadians, in boolean Copy); ListOfGroups RotateObjectMakeGroups (in SMESH_IDSource theObject, in AxisStruct Axis, in double AngleInRadians); SMESH_Mesh RotateObjectMakeMesh (in SMESH_IDSource theObject, in AxisStruct Axis, in double AngleInRadians, in boolean CopyGroups, in string MeshName); void FindCoincidentNodes (in double Tolerance, out array_of_long_array GroupsOfNodes); void FindCoincidentNodesOnPart (in SMESH_IDSource SubMeshOrGroup, in double Tolerance, out array_of_long_array GroupsOfNodes); void MergeNodes (in array_of_long_array GroupsOfNodes); /*! * \brief Find elements built on the same nodes. * \param MeshOrSubMeshOrGroup Mesh or SubMesh, or Group of elements for searching. * \return List of groups of equal elements. */ void FindEqualElements (in SMESH_IDSource MeshOrSubMeshOrGroup, out array_of_long_array GroupsOfElementsID); /*! * \brief Merge elements in each given group. * \param GroupsOfElementsID Groups of elements for merging. */ void MergeElements(in array_of_long_array GroupsOfElementsID); /*! * \brief Merge equal elements in the whole mesh. */ void MergeEqualElements(); /*! * 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 */ long MoveClosestNodeToPoint(in double x, in double y, in double z, in long nodeID); enum Sew_Error { SEW_OK, SEW_BORDER1_NOT_FOUND, SEW_BORDER2_NOT_FOUND, SEW_BOTH_BORDERS_NOT_FOUND, SEW_BAD_SIDE_NODES, SEW_VOLUMES_TO_SPLIT, // for SewSideElements() only: SEW_DIFF_NB_OF_ELEMENTS, SEW_TOPO_DIFF_SETS_OF_ELEMENTS, SEW_BAD_SIDE1_NODES, SEW_BAD_SIDE2_NODES }; Sew_Error SewFreeBorders (in long FirstNodeID1, in long SecondNodeID1, in long LastNodeID1, in long FirstNodeID2, in long SecondNodeID2, in long LastNodeID2, in boolean CreatePolygons, in boolean CreatePolyedrs); Sew_Error SewConformFreeBorders (in long FirstNodeID1, in long SecondNodeID1, in long LastNodeID1, in long FirstNodeID2, in long SecondNodeID2); Sew_Error SewBorderToSide (in long FirstNodeIDOnFreeBorder, in long SecondNodeIDOnFreeBorder, in long LastNodeIDOnFreeBorder, in long FirstNodeIDOnSide, in long LastNodeIDOnSide, in boolean CreatePolygons, in boolean CreatePolyedrs); Sew_Error SewSideElements (in long_array IDsOfSide1Elements, in long_array IDsOfSide2Elements, in long NodeID1OfSide1ToMerge, in long NodeID1OfSide2ToMerge, in long NodeID2OfSide1ToMerge, in long NodeID2OfSide2ToMerge); /*! * Set new nodes for given element. * If number of nodes is not corresponded to type of * element - returns false */ boolean ChangeElemNodes(in long ide, in long_array newIDs); /*! * Return data of mesh edition preview which is computed provided * that the editor was obtained trough SMESH_Mesh::GetMeshEditPreviewer() */ MeshPreviewStruct GetPreviewData(); /*! * If during last operation of MeshEditor some nodes were * created this method returns list of it's IDs, if new nodes * not creared - returns empty list */ long_array GetLastCreatedNodes(); /*! * If during last operation of MeshEditor some elements were * created this method returns list of it's IDs, if new elements * not creared - returns empty list */ long_array GetLastCreatedElems(); /*! * \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() */ boolean DoubleNodes( in long_array theElems, in long_array theNodesNot, in long_array theAffectedElems ); /*! * \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() */ boolean DoubleNodesInRegion( in long_array theElems, in long_array theNodesNot, in GEOM::GEOM_Object theShape ); /*! * \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 - 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() */ boolean DoubleNodeGroup( in SMESH_GroupBase theElems, in SMESH_GroupBase theNodesNot, in SMESH_GroupBase theAffectedElems ); /*! * \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 - group 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() */ boolean DoubleNodeGroupInRegion( in SMESH_GroupBase theElems, in SMESH_GroupBase theNodesNot, in GEOM::GEOM_Object theShape ); /*! * \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() */ boolean DoubleNodeGroups( in ListOfGroups theElems, in ListOfGroups theNodesNot, in ListOfGroups theAffectedElems ); /*! * \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() */ boolean DoubleNodeGroupsInRegion( in ListOfGroups theElems, in ListOfGroups theNodesNot, in GEOM::GEOM_Object theShape ); }; }; #endif