1 // SMESH SMESH_I : idl implementation based on 'SMESH' unit's calsses
3 // Copyright (C) 2003 OPEN CASCADE, EADS/CCR, LIP6, CEA/DEN,
4 // CEDRAT, EDF R&D, LEG, PRINCIPIA R&D, BUREAU VERITAS
6 // This library is free software; you can redistribute it and/or
7 // modify it under the terms of the GNU Lesser General Public
8 // License as published by the Free Software Foundation; either
9 // version 2.1 of the License.
11 // This library is distributed in the hope that it will be useful,
12 // but WITHOUT ANY WARRANTY; without even the implied warranty of
13 // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
14 // Lesser General Public License for more details.
16 // You should have received a copy of the GNU Lesser General Public
17 // License along with this library; if not, write to the Free Software
18 // Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
20 // See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
24 // File : SMESH_MeshEditor.hxx
25 // Created : Mon Apr 12 14:56:19 2004
26 // Author : Edward AGAPOV (eap)
30 #ifndef SMESH_MeshEditor_HeaderFile
31 #define SMESH_MeshEditor_HeaderFile
33 #include "SMESH_Mesh.hxx"
34 #include "SMESH_Controls.hxx"
35 #include "SMESH_SequenceOfNode.hxx"
36 #include "SMESH_SequenceOfElemPtr.hxx"
37 #include "TColStd_HSequenceOfReal.hxx"
38 #include "SMESH_MesherHelper.hxx"
39 #include "SMDS_MeshElement.hxx"
46 typedef std::map<const SMDS_MeshElement*,
47 std::list<const SMDS_MeshElement*> > TElemOfElemListMap;
48 typedef std::map<const SMDS_MeshNode*, const SMDS_MeshNode*> TNodeNodeMap;
56 // ============================================================
58 * \brief Set of elements sorted by ID, to be used to assure
59 * predictability of edition
61 // ============================================================
63 template < class TMeshElem = SMDS_MeshElement>
65 bool operator () (const TMeshElem* e1, const TMeshElem* e2) const
66 { return e1->GetID() < e2->GetID(); }
68 typedef std::set< const SMDS_MeshElement*, TIDCompare< SMDS_MeshElement> > TIDSortedElemSet;
70 // ============================================================
72 * \brief Searcher for the node closest to point
74 // ============================================================
76 struct SMESH_NodeSearcher
78 virtual const SMDS_MeshNode* FindClosestTo( const gp_Pnt& pnt ) = 0;
81 // ============================================================
83 * \brief Editor of a mesh
85 // ============================================================
87 class SMESH_MeshEditor {
91 SMESH_MeshEditor( SMESH_Mesh* theMesh );
96 SMDS_MeshElement* AddElement(const std::vector<const SMDS_MeshNode*> & nodes,
97 const SMDSAbs_ElementType type,
103 SMDS_MeshElement* AddElement(const std::vector<int> & nodeIDs,
104 const SMDSAbs_ElementType type,
108 bool Remove (const std::list< int >& theElemIDs, const bool isNodes);
109 // Remove a node or an element.
110 // Modify a compute state of sub-meshes which become empty
112 bool InverseDiag (const SMDS_MeshElement * theTria1,
113 const SMDS_MeshElement * theTria2 );
114 // Replace two neighbour triangles with ones built on the same 4 nodes
115 // but having other common link.
116 // Return False if args are improper
118 bool InverseDiag (const SMDS_MeshNode * theNode1,
119 const SMDS_MeshNode * theNode2 );
120 // Replace two neighbour triangles sharing theNode1-theNode2 link
121 // with ones built on the same 4 nodes but having other common link.
122 // Return false if proper faces not found
124 bool DeleteDiag (const SMDS_MeshNode * theNode1,
125 const SMDS_MeshNode * theNode2 );
126 // Replace two neighbour triangles sharing theNode1-theNode2 link
127 // with a quadrangle built on the same 4 nodes.
128 // Return false if proper faces not found
130 bool Reorient (const SMDS_MeshElement * theElement);
131 // Reverse theElement orientation
135 * \brief Fuse neighbour triangles into quadrangles.
136 * \param theElems - The triangles to be fused.
137 * \param theCriterion - Is used to choose a neighbour to fuse with.
138 * \param theMaxAngle - Is a max angle between element normals at which fusion
139 * is still performed; theMaxAngle is mesured in radians.
140 * \retval bool - Success or not.
142 bool TriToQuad (TIDSortedElemSet & theElems,
143 SMESH::Controls::NumericalFunctorPtr theCriterion,
144 const double theMaxAngle);
147 * \brief Split quadrangles into triangles.
148 * \param theElems - The faces to be splitted.
149 * \param theCriterion - Is used to choose a diagonal for splitting.
150 * \retval bool - Success or not.
152 bool QuadToTri (TIDSortedElemSet & theElems,
153 SMESH::Controls::NumericalFunctorPtr theCriterion);
156 * \brief Split quadrangles into triangles.
157 * \param theElems - The faces to be splitted.
158 * \param the13Diag - Is used to choose a diagonal for splitting.
159 * \retval bool - Success or not.
161 bool QuadToTri (TIDSortedElemSet & theElems,
162 const bool the13Diag);
165 * \brief Find better diagonal for splitting.
166 * \param theQuad - The face to find better splitting of.
167 * \param theCriterion - Is used to choose a diagonal for splitting.
168 * \retval int - 1 for 1-3 diagonal, 2 for 2-4, -1 - for errors.
170 int BestSplit (const SMDS_MeshElement* theQuad,
171 SMESH::Controls::NumericalFunctorPtr theCriterion);
174 enum SmoothMethod { LAPLACIAN = 0, CENTROIDAL };
176 void Smooth (TIDSortedElemSet & theElements,
177 std::set<const SMDS_MeshNode*> & theFixedNodes,
178 const SmoothMethod theSmoothMethod,
179 const int theNbIterations,
180 double theTgtAspectRatio = 1.0,
181 const bool the2D = true);
182 // Smooth theElements using theSmoothMethod during theNbIterations
183 // or until a worst element has aspect ratio <= theTgtAspectRatio.
184 // Aspect Ratio varies in range [1.0, inf].
185 // If theElements is empty, the whole mesh is smoothed.
186 // theFixedNodes contains additionally fixed nodes. Nodes built
187 // on edges and boundary nodes are always fixed.
188 // If the2D, smoothing is performed using UV parameters of nodes
189 // on geometrical faces
191 typedef std::auto_ptr< std::list<int> > PGroupIDs;
193 PGroupIDs RotationSweep (TIDSortedElemSet & theElements,
194 const gp_Ax1& theAxis,
195 const double theAngle,
196 const int theNbSteps,
197 const double theToler,
198 const bool theMakeGroups,
199 const bool theMakeWalls=true);
200 // Generate new elements by rotation of theElements around theAxis
201 // by theAngle by theNbSteps
204 * Auxilary flag for advanced extrusion.
205 * BOUNDARY: create or not boundary for result of extrusion
206 * SEW: try to use existing nodes or create new nodes in any case
208 enum ExtrusionFlags {
209 EXTRUSION_FLAG_BOUNDARY = 0x01,
210 EXTRUSION_FLAG_SEW = 0x02
214 * special structire for control of extrusion functionality
217 gp_Dir myDir; // direction of extrusion
218 Handle(TColStd_HSequenceOfReal) mySteps; // magnitudes for each step
219 SMESH_SequenceOfNode myNodes; // nodes for using in sewing
223 * Create new node in the mesh with given coordinates
224 * (auxilary for advanced extrusion)
226 const SMDS_MeshNode* CreateNode(const double x,
229 const double tolnode,
230 SMESH_SequenceOfNode& aNodes);
233 * Generate new elements by extrusion of theElements
234 * It is a method used in .idl file. All functionality
235 * is implemented in the next method (see below) which
236 * is used in the cuurent method.
237 * param theElems - list of elements for extrusion
238 * param newElemsMap returns history of extrusion
239 * param theFlags set flags for performing extrusion (see description
240 * of enum ExtrusionFlags for additional information)
241 * param theTolerance - uses for comparing locations of nodes if flag
242 * EXTRUSION_FLAG_SEW is set
244 PGroupIDs ExtrusionSweep (TIDSortedElemSet & theElems,
245 const gp_Vec& theStep,
246 const int theNbSteps,
247 TElemOfElemListMap& newElemsMap,
248 const bool theMakeGroups,
249 const int theFlags = EXTRUSION_FLAG_BOUNDARY,
250 const double theTolerance = 1.e-6);
253 * Generate new elements by extrusion of theElements
254 * param theElems - list of elements for extrusion
255 * param newElemsMap returns history of extrusion
256 * param theFlags set flags for performing extrusion (see description
257 * of enum ExtrusionFlags for additional information)
258 * param theTolerance - uses for comparing locations of nodes if flag
259 * EXTRUSION_FLAG_SEW is set
260 * param theParams - special structure for manage of extrusion
262 PGroupIDs ExtrusionSweep (TIDSortedElemSet & theElems,
263 ExtrusParam& theParams,
264 TElemOfElemListMap& newElemsMap,
265 const bool theMakeGroups,
267 const double theTolerance);
270 // Generate new elements by extrusion of theElements
271 // by theStep by theNbSteps
273 enum Extrusion_Error {
278 EXTR_BAD_STARTING_NODE,
279 EXTR_BAD_ANGLES_NUMBER,
280 EXTR_CANT_GET_TANGENT
283 Extrusion_Error ExtrusionAlongTrack (TIDSortedElemSet & theElements,
284 SMESH_subMesh* theTrackPattern,
285 const SMDS_MeshNode* theNodeStart,
286 const bool theHasAngles,
287 std::list<double>& theAngles,
288 const bool theHasRefPoint,
289 const gp_Pnt& theRefPoint,
290 const bool theMakeGroups);
291 // Generate new elements by extrusion of theElements along path given by theTrackPattern,
292 // theHasAngles are the rotation angles, base point can be given by theRefPoint
294 PGroupIDs Transform (TIDSortedElemSet & theElements,
295 const gp_Trsf& theTrsf,
297 const bool theMakeGroups);
298 // Move or copy theElements applying theTrsf to their nodes
300 typedef std::list< std::list< const SMDS_MeshNode* > > TListOfListOfNodes;
302 void FindCoincidentNodes (std::set<const SMDS_MeshNode*> & theNodes,
303 const double theTolerance,
304 TListOfListOfNodes & theGroupsOfNodes);
305 // Return list of group of nodes close to each other within theTolerance.
306 // Search among theNodes or in the whole mesh if theNodes is empty.
309 * \brief Return SMESH_NodeSearcher
311 SMESH_NodeSearcher* GetNodeSearcher();
313 int SimplifyFace (const vector<const SMDS_MeshNode *> faceNodes,
314 vector<const SMDS_MeshNode *>& poly_nodes,
315 vector<int>& quantities) const;
316 // Split face, defined by <faceNodes>, into several faces by repeating nodes.
317 // Is used by MergeNodes()
319 void MergeNodes (TListOfListOfNodes & theNodeGroups);
320 // In each group, the cdr of nodes are substituted by the first one
323 typedef std::list< std::list< int > > TListOfListOfElementsID;
325 void FindEqualElements(std::set<const SMDS_MeshElement*> & theElements,
326 TListOfListOfElementsID & theGroupsOfElementsID);
327 // Return list of group of elements build on the same nodes.
328 // Search among theElements or in the whole mesh if theElements is empty.
330 void MergeElements(TListOfListOfElementsID & theGroupsOfElementsID);
331 // In each group remove all but first of elements.
333 void MergeEqualElements();
334 // Remove all but one of elements built on the same nodes.
335 // Return nb of successfully merged groups.
337 static bool CheckFreeBorderNodes(const SMDS_MeshNode* theNode1,
338 const SMDS_MeshNode* theNode2,
339 const SMDS_MeshNode* theNode3 = 0);
340 // Return true if the three nodes are on a free border
342 static bool FindFreeBorder (const SMDS_MeshNode* theFirstNode,
343 const SMDS_MeshNode* theSecondNode,
344 const SMDS_MeshNode* theLastNode,
345 std::list< const SMDS_MeshNode* > & theNodes,
346 std::list< const SMDS_MeshElement* >& theFaces);
347 // Return nodes and faces of a free border if found
351 // for SewFreeBorder()
352 SEW_BORDER1_NOT_FOUND,
353 SEW_BORDER2_NOT_FOUND,
354 SEW_BOTH_BORDERS_NOT_FOUND,
356 SEW_VOLUMES_TO_SPLIT,
357 // for SewSideElements()
358 SEW_DIFF_NB_OF_ELEMENTS,
359 SEW_TOPO_DIFF_SETS_OF_ELEMENTS,
366 Sew_Error SewFreeBorder (const SMDS_MeshNode* theBorderFirstNode,
367 const SMDS_MeshNode* theBorderSecondNode,
368 const SMDS_MeshNode* theBorderLastNode,
369 const SMDS_MeshNode* theSide2FirstNode,
370 const SMDS_MeshNode* theSide2SecondNode,
371 const SMDS_MeshNode* theSide2ThirdNode = 0,
372 const bool theSide2IsFreeBorder = true,
373 const bool toCreatePolygons = false,
374 const bool toCreatePolyedrs = false);
375 // Sew the free border to the side2 by replacing nodes in
376 // elements on the free border with nodes of the elements
377 // of the side 2. If nb of links in the free border and
378 // between theSide2FirstNode and theSide2LastNode are different,
379 // additional nodes are inserted on a link provided that no
380 // volume elements share the splitted link.
381 // The side 2 is a free border if theSide2IsFreeBorder == true.
382 // Sewing is peformed between the given first, second and last
383 // nodes on the sides.
384 // theBorderFirstNode is merged with theSide2FirstNode.
385 // if (!theSide2IsFreeBorder) then theSide2SecondNode gives
386 // the last node on the side 2, which will be merged with
387 // theBorderLastNode.
388 // if (theSide2IsFreeBorder) then theSide2SecondNode will
389 // be merged with theBorderSecondNode.
390 // if (theSide2IsFreeBorder && theSide2ThirdNode == 0) then
391 // the 2 free borders are sewn link by link and no additional
392 // nodes are inserted.
393 // Return false, if sewing failed.
395 Sew_Error SewSideElements (TIDSortedElemSet& theSide1,
396 TIDSortedElemSet& theSide2,
397 const SMDS_MeshNode* theFirstNode1ToMerge,
398 const SMDS_MeshNode* theFirstNode2ToMerge,
399 const SMDS_MeshNode* theSecondNode1ToMerge,
400 const SMDS_MeshNode* theSecondNode2ToMerge);
401 // Sew two sides of a mesh. Nodes belonging to theSide1 are
402 // merged with nodes of elements of theSide2.
403 // Number of elements in theSide1 and in theSide2 must be
404 // equal and they should have similar node connectivity.
405 // The nodes to merge should belong to side s borders and
406 // the first node should be linked to the second.
408 void InsertNodesIntoLink(const SMDS_MeshElement* theFace,
409 const SMDS_MeshNode* theBetweenNode1,
410 const SMDS_MeshNode* theBetweenNode2,
411 std::list<const SMDS_MeshNode*>& theNodesToInsert,
412 const bool toCreatePoly = false);
413 // insert theNodesToInsert into theFace between theBetweenNode1 and theBetweenNode2.
414 // If toCreatePoly is true, replace theFace by polygon, else split theFace.
416 void UpdateVolumes (const SMDS_MeshNode* theBetweenNode1,
417 const SMDS_MeshNode* theBetweenNode2,
418 std::list<const SMDS_MeshNode*>& theNodesToInsert);
419 // insert theNodesToInsert into all volumes, containing link
420 // theBetweenNode1 - theBetweenNode2, between theBetweenNode1 and theBetweenNode2.
422 void ConvertToQuadratic(const bool theForce3d);
423 //converts all mesh to quadratic one, deletes old elements, replacing
424 //them with quadratic ones with the same id.
426 bool ConvertFromQuadratic();
427 //converts all mesh from quadratic to ordinary ones, deletes old quadratic elements, replacing
428 //them with ordinary mesh elements with the same id.
431 // static int SortQuadNodes (const SMDS_Mesh * theMesh,
432 // int theNodeIds[] );
433 // // Set 4 nodes of a quadrangle face in a good order.
434 // // Swap 1<->2 or 2<->3 nodes and correspondingly return
437 // static bool SortHexaNodes (const SMDS_Mesh * theMesh,
438 // int theNodeIds[] );
439 // // Set 8 nodes of a hexahedron in a good order.
440 // // Return success status
442 static void AddToSameGroups (const SMDS_MeshElement* elemToAdd,
443 const SMDS_MeshElement* elemInGroups,
444 SMESHDS_Mesh * aMesh);
445 // Add elemToAdd to the groups the elemInGroups belongs to
447 static void RemoveElemFromGroups (const SMDS_MeshElement* removeelem,
448 SMESHDS_Mesh * aMesh);
449 // remove elemToAdd from the groups
452 * \brief Return nodes linked to the given one in elements of the type
454 static void GetLinkedNodes( const SMDS_MeshNode* node,
455 TIDSortedElemSet & linkedNodes,
456 SMDSAbs_ElementType type = SMDSAbs_All );
458 static const SMDS_MeshElement*
459 FindFaceInSet(const SMDS_MeshNode* n1,
460 const SMDS_MeshNode* n2,
461 const TIDSortedElemSet& elemSet,
462 const TIDSortedElemSet& avoidSet);
463 // Return a face having linked nodes n1 and n2 and which is
464 // - not in avoidSet,
465 // - in elemSet provided that !elemSet.empty()
468 * \brief Find corresponding nodes in two sets of faces
469 * \param theSide1 - first face set
470 * \param theSide2 - second first face
471 * \param theFirstNode1 - a boundary node of set 1
472 * \param theFirstNode2 - a node of set 2 corresponding to theFirstNode1
473 * \param theSecondNode1 - a boundary node of set 1 linked with theFirstNode1
474 * \param theSecondNode2 - a node of set 2 corresponding to theSecondNode1
475 * \param nReplaceMap - output map of corresponding nodes
476 * \retval Sew_Error - is a success or not
478 static Sew_Error FindMatchingNodes(set<const SMDS_MeshElement*>& theSide1,
479 set<const SMDS_MeshElement*>& theSide2,
480 const SMDS_MeshNode* theFirstNode1,
481 const SMDS_MeshNode* theFirstNode2,
482 const SMDS_MeshNode* theSecondNode1,
483 const SMDS_MeshNode* theSecondNode2,
484 TNodeNodeMap & nReplaceMap);
487 * \brief Returns true if given node is medium
488 * \param n - node to check
489 * \param typeToCheck - type of elements containing the node to ask about node status
490 * \retval bool - check result
492 static bool IsMedium(const SMDS_MeshNode* node,
493 const SMDSAbs_ElementType typeToCheck = SMDSAbs_All);
495 int FindShape (const SMDS_MeshElement * theElem);
496 // Return an index of the shape theElem is on
497 // or zero if a shape not found
499 SMESH_Mesh * GetMesh() { return myMesh; }
501 SMESHDS_Mesh * GetMeshDS() { return myMesh->GetMeshDS(); }
503 const SMESH_SequenceOfElemPtr& GetLastCreatedNodes() const { return myLastCreatedNodes; }
505 const SMESH_SequenceOfElemPtr& GetLastCreatedElems() const { return myLastCreatedElems; }
510 * \brief Convert elements contained in a submesh to quadratic
511 * \retval int - nb of checked elements
513 int convertElemToQuadratic(SMESHDS_SubMesh * theSm,
514 SMESH_MesherHelper& theHelper,
515 const bool theForce3d);
518 * \brief Convert quadratic elements to linear ones and remove quadratic nodes
519 * \retval int - nb of checked elements
521 int removeQuadElem( SMESHDS_SubMesh * theSm,
522 SMDS_ElemIteratorPtr theItr,
523 const int theShapeID);
525 * \brief Create groups of elements made during transformation
526 * \param nodeGens - nodes making corresponding myLastCreatedNodes
527 * \param elemGens - elements making corresponding myLastCreatedElems
528 * \param postfix - to append to names of new groups
530 PGroupIDs generateGroups(const SMESH_SequenceOfElemPtr& nodeGens,
531 const SMESH_SequenceOfElemPtr& elemGens,
532 const std::string& postfix);
535 typedef std::map<const SMDS_MeshNode*, std::list<const SMDS_MeshNode*> > TNodeOfNodeListMap;
536 typedef TNodeOfNodeListMap::iterator TNodeOfNodeListMapItr;
537 typedef std::vector<TNodeOfNodeListMapItr> TVecOfNnlmiMap;
538 typedef std::map<const SMDS_MeshElement*, TVecOfNnlmiMap > TElemOfVecOfNnlmiMap;
541 * \brief Create elements by sweeping an element
542 * \param elem - element to sweep
543 * \param newNodesItVec - nodes generated from each node of the element
544 * \param newElems - generated elements
545 * \param nbSteps - number of sweeping steps
546 * \param srcElements - to append elem for each generated element
548 void sweepElement(const SMDS_MeshElement* elem,
549 const std::vector<TNodeOfNodeListMapItr> & newNodesItVec,
550 std::list<const SMDS_MeshElement*>& newElems,
552 SMESH_SequenceOfElemPtr& srcElements);
555 * \brief Create 1D and 2D elements around swept elements
556 * \param mapNewNodes - source nodes and ones generated from them
557 * \param newElemsMap - source elements and ones generated from them
558 * \param elemNewNodesMap - nodes generated from each node of each element
559 * \param elemSet - all swept elements
560 * \param nbSteps - number of sweeping steps
561 * \param srcElements - to append elem for each generated element
563 void makeWalls (TNodeOfNodeListMap & mapNewNodes,
564 TElemOfElemListMap & newElemsMap,
565 TElemOfVecOfNnlmiMap & elemNewNodesMap,
566 TIDSortedElemSet& elemSet,
568 SMESH_SequenceOfElemPtr& srcElements);
574 * Sequence for keeping nodes created during last operation
576 SMESH_SequenceOfElemPtr myLastCreatedNodes;
579 * Sequence for keeping elements created during last operation
581 SMESH_SequenceOfElemPtr myLastCreatedElems;