1 // Copyright (C) 2007-2022 CEA/DEN, EDF R&D, OPEN CASCADE
3 // Copyright (C) 2003-2007 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, or (at your option) any later version.
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
23 // SMESH SMESH : implementation of SMESH idl descriptions
24 // File : SMESH_subMesh.cxx
25 // Author : Paul RASCLE, EDF
28 #include "SMESH_subMesh.hxx"
30 #include "SMDS_SetIterator.hxx"
31 #include "SMESHDS_Mesh.hxx"
32 #include "SMESH_Algo.hxx"
33 #include "SMESH_Comment.hxx"
34 #include "SMESH_Gen.hxx"
35 #include "SMESH_HypoFilter.hxx"
36 #include "SMESH_Hypothesis.hxx"
37 #include "SMESH_Mesh.hxx"
38 #include "SMESH_MesherHelper.hxx"
39 #include "SMESH_subMeshEventListener.hxx"
40 #include "SMESH_MeshLocker.hxx"
42 #include "utilities.h"
43 #include "Basics_Utils.hxx"
45 #include <BRep_Builder.hxx>
46 #include <BRep_Tool.hxx>
48 #include <TopExp_Explorer.hxx>
49 #include <TopTools_IndexedMapOfShape.hxx>
50 #include <TopTools_ListIteratorOfListOfShape.hxx>
51 #include <TopTools_ListOfShape.hxx>
53 #include <TopoDS_Compound.hxx>
54 #include <TopoDS_Iterator.hxx>
57 #include <Standard_OutOfMemory.hxx>
58 #include <Standard_ErrorHandler.hxx>
65 // enable printing algo + shape id + hypo used while meshing
66 #define PRINT_WHO_COMPUTE_WHAT
69 //=============================================================================
71 * \brief Allocate some memory at construction and release it at destruction.
72 * Is used to be able to continue working after mesh generation breaks due to
75 //=============================================================================
80 MemoryReserve(): myBuf( new char[1024*1024*2] ){}
81 ~MemoryReserve() { delete [] myBuf; }
84 //=============================================================================
86 * default constructor:
88 //=============================================================================
90 SMESH_subMesh::SMESH_subMesh(int Id,
92 SMESHDS_Mesh * meshDS,
93 const TopoDS_Shape & aSubShape)
95 _subShape = aSubShape;
96 _subMeshDS = meshDS->MeshElements(_subShape); // may be null ...
99 _dependenceAnalysed = _alwaysComputed = false;
101 if (_subShape.ShapeType() == TopAbs_VERTEX)
104 _computeState = READY_TO_COMPUTE;
108 _algoState = NO_ALGO;
109 _computeState = NOT_READY;
111 _computeCost = 0; // how costly is to compute this sub-mesh
112 _realComputeCost = 0;
113 _allowedSubShapes = nullptr;
116 //=============================================================================
120 //=============================================================================
122 SMESH_subMesh::~SMESH_subMesh()
124 deleteOwnListeners();
127 //=============================================================================
131 //=============================================================================
133 int SMESH_subMesh::GetId() const
135 //MESSAGE("SMESH_subMesh::GetId");
139 //=============================================================================
143 //=============================================================================
145 SMESHDS_SubMesh * SMESH_subMesh::GetSubMeshDS()
147 // submesh appears in DS only when a mesher set nodes and elements on a shape
148 return _subMeshDS ? _subMeshDS : _subMeshDS = _father->GetMeshDS()->MeshElements(_subShape); // may be null
151 //=============================================================================
155 //=============================================================================
157 const SMESHDS_SubMesh * SMESH_subMesh::GetSubMeshDS() const
159 return ((SMESH_subMesh*) this )->GetSubMeshDS();
162 //=============================================================================
166 //=============================================================================
168 SMESHDS_SubMesh* SMESH_subMesh::CreateSubMeshDS()
170 if ( !GetSubMeshDS() ) {
171 SMESHDS_Mesh* meshDS = _father->GetMeshDS();
172 meshDS->NewSubMesh( meshDS->ShapeToIndex( _subShape ) );
174 return GetSubMeshDS();
177 //=============================================================================
181 //=============================================================================
183 SMESH_subMesh *SMESH_subMesh::GetFirstToCompute()
185 SMESH_subMeshIteratorPtr smIt = getDependsOnIterator(true,false);
186 while ( smIt->more() ) {
187 SMESH_subMesh *sm = smIt->next();
188 if ( sm->GetComputeState() == READY_TO_COMPUTE )
191 return 0; // nothing to compute
194 //================================================================================
196 * \brief Returns a current algorithm
198 //================================================================================
200 SMESH_Algo* SMESH_subMesh::GetAlgo() const
204 SMESH_subMesh* me = const_cast< SMESH_subMesh* >( this );
205 me->_algo = _father->GetGen()->GetAlgo( me, & me->_algoShape );
210 //================================================================================
212 * \brief Allow algo->Compute() if a sub-shape of lower dim is meshed but
213 * none mesh entity is bound to it (PAL13615, 2nd part)
215 //================================================================================
217 void SMESH_subMesh::SetIsAlwaysComputed(bool isAlCo)
219 _alwaysComputed = isAlCo;
220 if ( _alwaysComputed )
221 _computeState = COMPUTE_OK;
223 ComputeStateEngine( CHECK_COMPUTE_STATE );
226 //=======================================================================
228 * \brief Return true if no mesh entities is bound to the submesh
230 //=======================================================================
232 bool SMESH_subMesh::IsEmpty() const
234 if (SMESHDS_SubMesh * subMeshDS = ((SMESH_subMesh*)this)->GetSubMeshDS())
235 return (!subMeshDS->NbElements() && !subMeshDS->NbNodes());
239 //=======================================================================
240 //function : IsMeshComputed
241 //purpose : check if _subMeshDS contains mesh elements
242 //=======================================================================
244 bool SMESH_subMesh::IsMeshComputed() const
246 if ( _alwaysComputed )
248 // algo may bind a sub-mesh not to _subShape, eg 3D algo
249 // sets nodes on SHELL while _subShape may be SOLID
251 SMESHDS_Mesh* meshDS = _father->GetMeshDS();
252 int dim = SMESH_Gen::GetShapeDim( _subShape );
253 int type = _subShape.ShapeType();
254 for ( ; type <= TopAbs_VERTEX; type++) {
255 if ( dim == SMESH_Gen::GetShapeDim( (TopAbs_ShapeEnum) type ))
257 TopExp_Explorer exp( _subShape, (TopAbs_ShapeEnum) type );
258 for ( ; exp.More(); exp.Next() )
260 if ( SMESHDS_SubMesh * smDS = meshDS->MeshElements( exp.Current() ) )
262 bool computed = (dim > 0) ? smDS->NbElements() : smDS->NbNodes();
275 //================================================================================
277 * \brief Check if any upper level sub-shape is not computed.
278 * Used to update a sub-mesh icon
280 //================================================================================
282 bool SMESH_subMesh::IsComputedPartially() const
284 SMESH_subMeshIteratorPtr smIt = getDependsOnIterator(/*includeSelf=*/true,
285 /*SolidFirst=*/true);
286 bool allComputed = true;
287 TopAbs_ShapeEnum readyType = TopAbs_VERTEX; // max value
288 while ( smIt->more() && allComputed )
290 SMESH_subMesh* sm = smIt->next();
292 if ( sm->GetSubShape().ShapeType() > readyType )
293 break; // lower dimension -> stop
294 if ( sm->GetComputeState() != SMESH_subMesh::NOT_READY )
295 readyType = sm->GetSubShape().ShapeType();
297 switch ( sm->GetComputeState() )
299 case SMESH_subMesh::READY_TO_COMPUTE:
300 case SMESH_subMesh::FAILED_TO_COMPUTE:
301 allComputed = false;// sm->IsMeshComputed();
303 case SMESH_subMesh::NOT_READY:
304 case SMESH_subMesh::COMPUTE_OK:
311 //=============================================================================
313 * Return true if all sub-meshes have been meshed
315 //=============================================================================
317 bool SMESH_subMesh::SubMeshesComputed(bool * isFailedToCompute/*=0*/) const
319 int myDim = SMESH_Gen::GetShapeDim( _subShape );
320 int dimToCheck = myDim - 1;
321 bool subMeshesComputed = true;
322 if ( isFailedToCompute ) *isFailedToCompute = false;
323 // check sub-meshes with upper dimension => reverse iteration
324 SMESH_subMeshIteratorPtr smIt = getDependsOnIterator(false,true);
325 while ( smIt->more() )
327 SMESH_subMesh *sm = smIt->next();
328 if ( sm->_alwaysComputed )
330 const TopoDS_Shape & ss = sm->GetSubShape();
332 // MSV 07.04.2006: restrict checking to myDim-1 only. Ex., there is no sense
333 // in checking of existence of edges if the algo needs only faces. Moreover,
334 // degenerated edges may have no sub-mesh, as after computing NETGEN_2D.
335 if ( !_algo || _algo->NeedDiscreteBoundary() ) {
336 int dim = SMESH_Gen::GetShapeDim( ss );
337 if (dim < dimToCheck)
338 break; // the rest sub-meshes are all of less dimension
340 SMESHDS_SubMesh * ds = sm->GetSubMeshDS();
341 bool computeOk = ((sm->GetComputeState() == COMPUTE_OK ) ||
342 (ds && ( dimToCheck ? ds->NbElements() : ds->NbNodes() )));
345 subMeshesComputed = false;
347 if ( isFailedToCompute && !(*isFailedToCompute) )
348 *isFailedToCompute = ( sm->GetComputeState() == FAILED_TO_COMPUTE );
350 if ( !isFailedToCompute )
354 return subMeshesComputed;
357 //================================================================================
359 * \brief Return cost of computing this sub-mesh. If hypotheses are not well defined,
361 * \return int - the computation cost in abstract units.
363 //================================================================================
365 int SMESH_subMesh::GetComputeCost() const
367 return _realComputeCost;
370 //================================================================================
372 * \brief Return cost of computing this sub-mesh. The cost depends on the shape type
373 * and number of sub-meshes this one DependsOn().
374 * \return int - the computation cost in abstract units.
376 //================================================================================
378 int SMESH_subMesh::computeCost() const
383 switch ( _subShape.ShapeType() ) {
385 case TopAbs_SHELL: computeCost = 5000; break;
386 case TopAbs_FACE: computeCost = 500; break;
387 case TopAbs_EDGE: computeCost = 2; break;
388 default: computeCost = 1;
390 SMESH_subMeshIteratorPtr childIt = getDependsOnIterator(/*includeSelf=*/false);
391 while ( childIt->more() )
392 computeCost += childIt->next()->computeCost();
394 ((SMESH_subMesh*)this)->_computeCost = computeCost;
399 //=============================================================================
401 * Returns all sub-meshes this one depend on
403 //=============================================================================
405 const std::map < int, SMESH_subMesh * >& SMESH_subMesh::DependsOn()
407 if ( _dependenceAnalysed || !_father->HasShapeToMesh() )
410 int type = _subShape.ShapeType();
413 case TopAbs_COMPOUND:
415 list< TopoDS_Shape > compounds( 1, _subShape );
416 list< TopoDS_Shape >::iterator comp = compounds.begin();
417 for ( ; comp != compounds.end(); ++comp )
419 for ( TopoDS_Iterator sub( *comp ); sub.More(); sub.Next() )
420 switch ( sub.Value().ShapeType() )
422 case TopAbs_COMPOUND: compounds.push_back( sub.Value() ); break;
423 case TopAbs_COMPSOLID: insertDependence( sub.Value(), TopAbs_SOLID ); break;
424 case TopAbs_SOLID: insertDependence( sub.Value(), TopAbs_SOLID ); break;
425 case TopAbs_SHELL: insertDependence( sub.Value(), TopAbs_FACE ); break;
426 case TopAbs_FACE: insertDependence( sub.Value(), TopAbs_FACE ); break;
427 case TopAbs_WIRE: insertDependence( sub.Value(), TopAbs_EDGE ); break;
428 case TopAbs_EDGE: insertDependence( sub.Value(), TopAbs_EDGE ); break;
429 case TopAbs_VERTEX: insertDependence( sub.Value(), TopAbs_VERTEX ); break;
435 case TopAbs_COMPSOLID: insertDependence( _subShape, TopAbs_SOLID ); break;
436 case TopAbs_SOLID: insertDependence( _subShape, TopAbs_FACE );
437 { /*internal EDGE*/ insertDependence( _subShape, TopAbs_EDGE, TopAbs_WIRE ); break; }
438 case TopAbs_SHELL: insertDependence( _subShape, TopAbs_FACE ); break;
439 case TopAbs_FACE: insertDependence( _subShape, TopAbs_EDGE ); break;
440 case TopAbs_WIRE: insertDependence( _subShape, TopAbs_EDGE ); break;
441 case TopAbs_EDGE: insertDependence( _subShape, TopAbs_VERTEX ); break;
444 _dependenceAnalysed = true;
448 //================================================================================
450 * \brief Return a key for SMESH_subMesh::_mapDepend map
452 //================================================================================
456 int dependsOnMapKey( TopAbs_ShapeEnum type, int shapeID )
458 int ordType = 9 - int(type); // 2 = Vertex, 8 = CompSolid
460 cle += 10000000 * ordType; // sort map by ordType then index
463 int dependsOnMapKey( const SMESH_subMesh* sm )
465 return dependsOnMapKey( sm->GetSubShape().ShapeType(), sm->GetId() );
469 //=============================================================================
471 * Add sub-meshes on sub-shapes of a given type into the dependence map.
473 //=============================================================================
475 void SMESH_subMesh::insertDependence(const TopoDS_Shape aShape,
476 TopAbs_ShapeEnum aSubType,
477 TopAbs_ShapeEnum avoidType)
479 TopExp_Explorer sub( aShape, aSubType, avoidType );
480 for ( ; sub.More(); sub.Next() )
482 SMESH_subMesh *aSubMesh = _father->GetSubMesh( sub.Current() );
483 if ( aSubMesh->GetId() == 0 )
484 continue; // not a sub-shape of the shape to mesh
485 int cle = dependsOnMapKey( aSubMesh );
486 if ( _mapDepend.find( cle ) == _mapDepend.end())
488 _mapDepend[cle] = aSubMesh;
489 const map < int, SMESH_subMesh * > & subMap = aSubMesh->DependsOn();
490 _mapDepend.insert( subMap.begin(), subMap.end() );
495 //================================================================================
497 * \brief Return \c true if \a this sub-mesh depends on \a other
499 //================================================================================
501 bool SMESH_subMesh::DependsOn( const SMESH_subMesh* other ) const
503 return other ? _mapDepend.count( dependsOnMapKey( other )) : false;
506 //================================================================================
508 * \brief Return \c true if \a this sub-mesh depends on a \a shape
510 //================================================================================
512 bool SMESH_subMesh::DependsOn( const int shapeID ) const
514 return DependsOn( _father->GetSubMeshContaining( shapeID ));
517 //=============================================================================
519 * Return a shape of \a this sub-mesh
521 //=============================================================================
523 const TopoDS_Shape & SMESH_subMesh::GetSubShape() const
528 //=======================================================================
529 //function : CanAddHypothesis
530 //purpose : return true if theHypothesis can be attached to me:
531 // its dimension is checked
532 //=======================================================================
534 bool SMESH_subMesh::CanAddHypothesis(const SMESH_Hypothesis* theHypothesis) const
536 int aHypDim = theHypothesis->GetDim();
537 int aShapeDim = SMESH_Gen::GetShapeDim(_subShape);
538 // issue 21106. Forbid 3D mesh on the SHELL
539 // if (aHypDim == 3 && aShapeDim == 3) {
540 // // check case of open shell
541 // //if (_subShape.ShapeType() == TopAbs_SHELL && !_subShape.Closed())
542 // if (_subShape.ShapeType() == TopAbs_SHELL && !BRep_Tool::IsClosed(_subShape))
545 if ( aHypDim <= aShapeDim )
551 //=======================================================================
552 //function : IsApplicableHypothesis
553 //purpose : check if this sub-mesh can be computed using a hypothesis
554 //=======================================================================
556 bool SMESH_subMesh::IsApplicableHypothesis(const SMESH_Hypothesis* theHypothesis) const
558 if ( !_father->HasShapeToMesh() && _subShape.ShapeType() == TopAbs_SOLID )
559 return true; // true for the PseudoShape
561 return IsApplicableHypothesis( theHypothesis, _subShape.ShapeType() );
564 //=======================================================================
565 //function : IsApplicableHypothesis
566 //purpose : compare shape type and hypothesis type
567 //=======================================================================
569 bool SMESH_subMesh::IsApplicableHypothesis(const SMESH_Hypothesis* theHypothesis,
570 const TopAbs_ShapeEnum theShapeType)
572 if ( theHypothesis->GetType() > SMESHDS_Hypothesis::PARAM_ALGO)
575 if ( theHypothesis->GetShapeType() & (1<< theShapeType))
576 // issue 21106. Forbid 3D mesh on the SHELL
577 return !( theHypothesis->GetDim() == 3 && theShapeType == TopAbs_SHELL );
583 switch ( theShapeType ) {
588 return SMESH_Gen::GetShapeDim( theShapeType ) == theHypothesis->GetDim();
591 // Special case for algorithms, building 2D mesh on a whole shell.
592 // Before this fix there was a problem after restoring from study,
593 // because in that case algorithm is assigned before hypothesis
594 // (on shell in problem case) and hypothesis is checked on faces
595 // (because it is 2D), where we have NO_ALGO state.
596 // Now 2D hypothesis is also applicable to shells.
597 return (theHypothesis->GetDim() == 2 || theHypothesis->GetDim() == 3);
600 // case TopAbs_COMPSOLID:
601 // case TopAbs_COMPOUND:
607 //================================================================================
609 * \brief Treats modification of hypotheses definition
610 * \param [in] event - what happens
611 * \param [in] anHyp - a hypothesis
612 * \return SMESH_Hypothesis::Hypothesis_Status - a treatment result.
614 * Optional description of a problematic situation (if any) can be retrieved
615 * via GetComputeError().
617 //================================================================================
619 SMESH_Hypothesis::Hypothesis_Status
620 SMESH_subMesh::AlgoStateEngine(algo_event event, SMESH_Hypothesis * anHyp)
622 // **** les retour des evenement shape sont significatifs
623 // (add ou remove fait ou non)
624 // le retour des evenement father n'indiquent pas que add ou remove fait
626 SMESH_Hypothesis::Hypothesis_Status aux_ret, ret = SMESH_Hypothesis::HYP_OK;
627 if ( _Id == 0 ) return ret; // not a sub-shape of the shape to mesh
629 SMESHDS_Mesh* meshDS =_father->GetMeshDS();
630 SMESH_Algo* algo = 0;
633 if (_subShape.ShapeType() == TopAbs_VERTEX )
635 if ( anHyp->GetDim() != 0) {
636 if (event == ADD_HYP || event == ADD_ALGO)
637 return SMESH_Hypothesis::HYP_BAD_DIM;
639 return SMESH_Hypothesis::HYP_OK;
642 else if ( _algoState == HYP_OK ) {
643 // update default _algoState
644 if ( event != REMOVE_FATHER_ALGO )
646 _algoState = NO_ALGO;
649 _algoState = MISSING_HYP;
650 if ( event == REMOVE_FATHER_HYP ||
651 algo->CheckHypothesis(*_father,_subShape, aux_ret))
658 int oldAlgoState = _algoState;
659 bool modifiedHyp = (event == MODIF_HYP); // if set to true, force event MODIF_ALGO_STATE
660 SMESH_Algo* algoRequiringCleaning = 0;
662 bool isApplicableHyp = IsApplicableHypothesis( anHyp );
664 if (event == ADD_ALGO || event == ADD_FATHER_ALGO)
666 // -------------------------------------------
667 // check if a shape needed by algo is present
668 // -------------------------------------------
669 algo = static_cast< SMESH_Algo* >( anHyp );
670 if ( !_father->HasShapeToMesh() && algo->NeedShape() )
671 return SMESH_Hypothesis::HYP_NEED_SHAPE;
672 // ----------------------
673 // check mesh conformity
674 // ----------------------
675 if (isApplicableHyp && !_father->IsNotConformAllowed() && !IsConform( algo ))
676 return SMESH_Hypothesis::HYP_NOTCONFORM;
678 // check if all-dimensional algo is hidden by other local one
679 if ( event == ADD_ALGO ) {
680 SMESH_HypoFilter filter( SMESH_HypoFilter::HasType( algo->GetType() ));
681 filter.Or( SMESH_HypoFilter::HasType( algo->GetType()+1 ));
682 filter.Or( SMESH_HypoFilter::HasType( algo->GetType()+2 ));
683 if ( SMESH_Algo * curAlgo = (SMESH_Algo*)_father->GetHypothesis( this, filter, true ))
684 if ( !curAlgo->NeedDiscreteBoundary() && curAlgo != anHyp )
685 algoRequiringCleaning = curAlgo;
689 // ----------------------------------
690 // add a hypothesis to DS if possible
691 // ----------------------------------
692 if (event == ADD_HYP || event == ADD_ALGO)
694 if ( ! CanAddHypothesis( anHyp )) // check dimension
695 return SMESH_Hypothesis::HYP_BAD_DIM;
697 if ( !anHyp->IsAuxiliary() && getSimilarAttached( _subShape, anHyp ) )
698 return SMESH_Hypothesis::HYP_ALREADY_EXIST;
700 if ( !meshDS->AddHypothesis(_subShape, anHyp))
701 return SMESH_Hypothesis::HYP_ALREADY_EXIST;
704 // --------------------------
705 // remove a hypothesis from DS
706 // --------------------------
707 if (event == REMOVE_HYP || event == REMOVE_ALGO)
709 if (!meshDS->RemoveHypothesis(_subShape, anHyp))
710 return SMESH_Hypothesis::HYP_OK; // nothing changes
712 if (event == REMOVE_ALGO)
714 algo = dynamic_cast<SMESH_Algo*> (anHyp);
715 if (!algo->NeedDiscreteBoundary())
716 algoRequiringCleaning = algo;
720 // ------------------
721 // analyse algo state
722 // ------------------
723 if (!isApplicableHyp)
724 return ret; // not applicable hypotheses do not change algo state
726 if (( algo = GetAlgo()))
727 algo->InitComputeError();
732 // ----------------------------------------------------------------------
741 if (algo->CheckHypothesis((*_father),_subShape, aux_ret))
742 setAlgoState(HYP_OK);
743 else if ( algo->IsStatusFatal( aux_ret )) {
744 meshDS->RemoveHypothesis(_subShape, anHyp);
748 setAlgoState(MISSING_HYP);
755 case ADD_FATHER_ALGO: { // Algo just added in father
758 if ( algo == anHyp ) {
759 if ( algo->CheckHypothesis((*_father),_subShape, aux_ret))
760 setAlgoState(HYP_OK);
762 setAlgoState(MISSING_HYP);
766 case REMOVE_FATHER_HYP:
768 case REMOVE_FATHER_ALGO: {
772 if ( algo->CheckHypothesis((*_father),_subShape, aux_ret ))
773 setAlgoState(HYP_OK);
775 setAlgoState(MISSING_HYP);
779 case MODIF_HYP: break;
786 // ----------------------------------------------------------------------
794 if ( algo->CheckHypothesis((*_father),_subShape, ret ))
795 setAlgoState(HYP_OK);
796 if (SMESH_Hypothesis::IsStatusFatal( ret ))
797 meshDS->RemoveHypothesis(_subShape, anHyp);
798 else if (!_father->IsUsedHypothesis( anHyp, this ))
800 meshDS->RemoveHypothesis(_subShape, anHyp);
801 ret = SMESH_Hypothesis::HYP_INCOMPATIBLE;
805 case ADD_ALGO: { //already existing algo : on father ?
808 if ( algo->CheckHypothesis((*_father),_subShape, aux_ret ))// ignore hyp status
809 setAlgoState(HYP_OK);
810 else if ( algo->IsStatusFatal( aux_ret )) {
811 meshDS->RemoveHypothesis(_subShape, anHyp);
815 setAlgoState(MISSING_HYP);
820 case REMOVE_ALGO: { // perhaps a father algo applies ?
822 if (algo == NULL) // no more algo applying on sub-shape...
824 setAlgoState(NO_ALGO);
828 if ( algo->CheckHypothesis((*_father),_subShape, aux_ret ))
829 setAlgoState(HYP_OK);
831 setAlgoState(MISSING_HYP);
835 case MODIF_HYP: // assigned hypothesis value may become good
836 case ADD_FATHER_HYP: {
839 if ( algo->CheckHypothesis((*_father),_subShape, aux_ret ))
840 setAlgoState(HYP_OK);
842 setAlgoState(MISSING_HYP);
845 case ADD_FATHER_ALGO: { // new father algo
848 if ( algo == anHyp ) {
849 if ( algo->CheckHypothesis((*_father),_subShape, aux_ret ))
850 setAlgoState(HYP_OK);
852 setAlgoState(MISSING_HYP);
856 case REMOVE_FATHER_HYP: // nothing to do
858 case REMOVE_FATHER_ALGO: {
860 if (algo == NULL) // no more applying algo on father
862 setAlgoState(NO_ALGO);
866 if ( algo->CheckHypothesis((*_father),_subShape , aux_ret ))
867 setAlgoState(HYP_OK);
869 setAlgoState(MISSING_HYP);
879 // ----------------------------------------------------------------------
887 if (!algo->CheckHypothesis((*_father),_subShape, ret ))
889 if ( !SMESH_Hypothesis::IsStatusFatal( ret ))
890 // ret should be fatal: anHyp was not added
891 ret = SMESH_Hypothesis::HYP_INCOMPATIBLE;
893 else if (!_father->IsUsedHypothesis( anHyp, this ))
894 ret = SMESH_Hypothesis::HYP_INCOMPATIBLE;
896 if (SMESH_Hypothesis::IsStatusFatal( ret ))
898 MESSAGE("do not add extra hypothesis");
899 meshDS->RemoveHypothesis(_subShape, anHyp);
907 case ADD_ALGO: { //already existing algo : on father ?
909 if ( algo->CheckHypothesis((*_father),_subShape, aux_ret )) {
910 // check if algo changes
912 f.Init( SMESH_HypoFilter::IsAlgo() );
913 f.And( SMESH_HypoFilter::IsApplicableTo( _subShape ));
914 f.AndNot( SMESH_HypoFilter::Is( algo ));
915 const SMESH_Hypothesis * prevAlgo = _father->GetHypothesis( this, f, true );
917 string( algo->GetName()) != prevAlgo->GetName())
919 oldAlgoState = NO_ALGO; // force setting event listener (#16648)
924 setAlgoState(MISSING_HYP);
930 if ( algo->CheckHypothesis((*_father),_subShape, aux_ret ))
931 setAlgoState(HYP_OK);
933 setAlgoState(MISSING_HYP);
937 case REMOVE_ALGO: { // perhaps a father algo applies ?
939 if (algo == NULL) // no more algo applying on sub-shape...
941 setAlgoState(NO_ALGO);
945 if ( algo->CheckHypothesis((*_father),_subShape, aux_ret )) {
946 // check if algo remains
947 if ( anHyp != algo && strcmp( anHyp->GetName(), algo->GetName()) )
951 setAlgoState(MISSING_HYP);
955 case MODIF_HYP: // hypothesis value may become bad
956 case ADD_FATHER_HYP: { // new father hypothesis ?
959 if ( algo->CheckHypothesis((*_father),_subShape, aux_ret ))
961 if (_father->IsUsedHypothesis( anHyp, this )) // new Hyp
965 setAlgoState(MISSING_HYP);
968 case ADD_FATHER_ALGO: {
970 if ( algo == anHyp ) { // a new algo on father
971 if ( algo->CheckHypothesis((*_father),_subShape, aux_ret )) {
972 // check if algo changes
974 f.Init( SMESH_HypoFilter::IsAlgo() );
975 f.And( SMESH_HypoFilter::IsApplicableTo( _subShape ));
976 f.AndNot( SMESH_HypoFilter::Is( algo ));
977 const SMESH_Hypothesis* prevAlgo = _father->GetHypothesis( this, f, true );
979 string(algo->GetName()) != string(prevAlgo->GetName()) )
983 setAlgoState(MISSING_HYP);
987 case REMOVE_FATHER_HYP: {
990 if ( algo->CheckHypothesis((*_father),_subShape, aux_ret )) {
991 // is there the same local hyp or maybe a new father algo applied?
992 if ( !getSimilarAttached( _subShape, anHyp ) )
996 setAlgoState(MISSING_HYP);
999 case REMOVE_FATHER_ALGO: {
1000 // IPAL21346. Edges not removed when Netgen 1d-2d is removed from a SOLID.
1001 // CLEAN was not called at event REMOVE_ALGO because the algo is not applicable to SOLID.
1002 algo = dynamic_cast<SMESH_Algo*> (anHyp);
1003 if (!algo->NeedDiscreteBoundary())
1004 algoRequiringCleaning = algo;
1006 if (algo == NULL) // no more applying algo on father
1008 setAlgoState(NO_ALGO);
1012 if ( algo->CheckHypothesis((*_father),_subShape, aux_ret )) {
1013 // check if algo changes
1014 if ( string(algo->GetName()) != string( anHyp->GetName()) )
1018 setAlgoState(MISSING_HYP);
1028 // ----------------------------------------------------------------------
1035 // detect algorithm hiding
1037 if ( ret == SMESH_Hypothesis::HYP_OK &&
1038 ( event == ADD_ALGO || event == ADD_FATHER_ALGO ) && algo &&
1039 algo->GetName() == anHyp->GetName() )
1042 SMESH_Gen* gen = _father->GetGen();
1043 const std::vector< SMESH_subMesh * > & ancestors = GetAncestors();
1044 for ( size_t iA = 0; ( ret == SMESH_Hypothesis::HYP_OK && iA < ancestors.size()); ++iA ) {
1045 if ( SMESH_Algo* upperAlgo = ancestors[ iA ]->GetAlgo() )
1046 if ( !upperAlgo->NeedDiscreteBoundary() && !upperAlgo->SupportSubmeshes())
1047 ret = SMESH_Hypothesis::HYP_HIDDEN_ALGO;
1050 if ( ret == SMESH_Hypothesis::HYP_OK &&
1051 !algo->NeedDiscreteBoundary() &&
1052 !algo->SupportSubmeshes())
1054 TopoDS_Shape algoAssignedTo, otherAssignedTo;
1055 gen->GetAlgo( this, &algoAssignedTo );
1056 map<int, SMESH_subMesh*>::reverse_iterator i_sm = _mapDepend.rbegin();
1057 for ( ; ( ret == SMESH_Hypothesis::HYP_OK && i_sm != _mapDepend.rend()) ; ++i_sm )
1058 if ( gen->GetAlgo( i_sm->second, &otherAssignedTo ) &&
1059 SMESH_MesherHelper::IsSubShape( /*sub=*/otherAssignedTo, /*main=*/algoAssignedTo ))
1060 ret = SMESH_Hypothesis::HYP_HIDING_ALGO;
1064 if ( _algo ) { // get an error description set by _algo->CheckHypothesis()
1065 _computeError = _algo->GetComputeError();
1066 _algo->InitComputeError();
1069 bool stateChange = ( _algoState != oldAlgoState );
1071 if ( stateChange && _algoState == HYP_OK ) // hyp becomes OK
1072 algo->SetEventListener( this );
1074 if ( event == REMOVE_ALGO || event == REMOVE_FATHER_ALGO )
1077 notifyListenersOnEvent( event, ALGO_EVENT, anHyp );
1079 if ( stateChange && oldAlgoState == HYP_OK ) { // hyp becomes KO
1080 deleteOwnListeners();
1081 SetIsAlwaysComputed( false );
1082 if (_subShape.ShapeType() == TopAbs_VERTEX ) {
1083 // restore default states
1084 _algoState = HYP_OK;
1085 _computeState = READY_TO_COMPUTE;
1089 if ( algoRequiringCleaning ) {
1090 // added or removed algo is all-dimensional
1091 ComputeStateEngine( CLEAN );
1092 cleanDependsOn( algoRequiringCleaning );
1093 ComputeSubMeshStateEngine( CHECK_COMPUTE_STATE );
1096 if ( stateChange || modifiedHyp )
1097 ComputeStateEngine( MODIF_ALGO_STATE );
1099 _realComputeCost = ( _algoState == HYP_OK ) ? computeCost() : 0;
1104 //=======================================================================
1105 //function : IsConform
1106 //purpose : check if a conform mesh will be produced by the Algo
1107 //=======================================================================
1109 bool SMESH_subMesh::IsConform(const SMESH_Algo* theAlgo)
1111 // MESSAGE( "SMESH_subMesh::IsConform" );
1112 if ( !theAlgo ) return false;
1114 // Suppose that theAlgo is applicable to _subShape, do not check it here
1115 //if ( !IsApplicableHypothesis( theAlgo )) return false;
1117 // check only algo that doesn't NeedDiscreteBoundary(): because mesh made
1118 // on a sub-shape will be ignored by theAlgo
1119 if ( theAlgo->NeedDiscreteBoundary() ||
1120 !theAlgo->OnlyUnaryInput() ) // all adjacent shapes will be meshed by this algo?
1123 // only local algo is to be checked
1124 //if ( gen->IsGlobalHypothesis( theAlgo, *_father ))
1125 if ( _subShape.ShapeType() == _father->GetMeshDS()->ShapeToMesh().ShapeType() )
1128 // check algo attached to adjacent shapes
1130 // loop on one level down sub-meshes
1131 TopoDS_Iterator itsub( _subShape );
1132 for (; itsub.More(); itsub.Next())
1134 // loop on adjacent subShapes
1135 const std::vector< SMESH_subMesh * > & ancestors = GetAncestors();
1136 for ( size_t iA = 0; iA < ancestors.size(); ++iA )
1138 const TopoDS_Shape& adjacent = ancestors[ iA ]->GetSubShape();
1139 if ( _subShape.IsSame( adjacent )) continue;
1140 if ( adjacent.ShapeType() != _subShape.ShapeType())
1143 // check algo attached to smAdjacent
1144 SMESH_Algo * algo = ancestors[ iA ]->GetAlgo();
1146 !algo->NeedDiscreteBoundary() &&
1147 algo->OnlyUnaryInput())
1148 return false; // NOT CONFORM MESH WILL BE PRODUCED
1155 //=============================================================================
1159 //=============================================================================
1161 void SMESH_subMesh::setAlgoState(algo_state state)
1166 //================================================================================
1168 * \brief Send an event to sub-meshes
1169 * \param [in] event - the event
1170 * \param [in] anHyp - an hypothesis
1171 * \param [in] exitOnFatal - to stop iteration on sub-meshes if a sub-mesh
1172 * reports a fatal result
1173 * \return SMESH_Hypothesis::Hypothesis_Status - the worst result
1175 * Optional description of a problematic situation (if any) can be retrieved
1176 * via GetComputeError().
1178 //================================================================================
1180 SMESH_Hypothesis::Hypothesis_Status
1181 SMESH_subMesh::SubMeshesAlgoStateEngine(algo_event event,
1182 SMESH_Hypothesis * anHyp,
1185 SMESH_Hypothesis::Hypothesis_Status ret = SMESH_Hypothesis::HYP_OK;
1186 //EAP: a wire (dim==1) should notify edges (dim==1)
1187 //EAP: int dim = SMESH_Gen::GetShapeDim(_subShape);
1188 //if (_subShape.ShapeType() < TopAbs_EDGE ) // wire,face etc
1190 SMESH_subMeshIteratorPtr smIt = getDependsOnIterator(false,false);
1191 while ( smIt->more() ) {
1192 SMESH_subMesh* sm = smIt->next();
1193 SMESH_Hypothesis::Hypothesis_Status ret2 = sm->AlgoStateEngine(event, anHyp);
1197 _computeError = sm->_computeError;
1198 sm->_computeError.reset();
1199 if ( exitOnFatal && SMESH_Hypothesis::IsStatusFatal( ret ))
1207 //================================================================================
1209 * \brief Remove elements from sub-meshes.
1210 * \param algoRequiringCleaning - an all-dimensional algorithm whose presence
1211 * causes the cleaning.
1213 //================================================================================
1215 void SMESH_subMesh::cleanDependsOn( SMESH_Algo* algoRequiringCleaning/*=0*/ )
1217 SMESH_subMeshIteratorPtr smIt = getDependsOnIterator(false,
1218 /*complexShapeFirst=*/true);
1219 if ( _father->NbNodes() == 0 )
1221 while ( smIt->more() )
1222 smIt->next()->ComputeStateEngine(CHECK_COMPUTE_STATE);
1224 else if ( !algoRequiringCleaning || !algoRequiringCleaning->SupportSubmeshes() )
1226 while ( smIt->more() )
1227 smIt->next()->ComputeStateEngine(CLEAN);
1229 else if ( algoRequiringCleaning && algoRequiringCleaning->SupportSubmeshes() )
1231 // find sub-meshes to keep elements on
1232 set< SMESH_subMesh* > smToKeep;
1233 TopAbs_ShapeEnum prevShapeType = TopAbs_SHAPE;
1234 bool toKeepPrevShapeType = false;
1235 while ( smIt->more() )
1237 SMESH_subMesh* sm = smIt->next();
1238 sm->ComputeStateEngine(CHECK_COMPUTE_STATE);
1239 if ( !sm->IsEmpty() )
1241 const bool sameShapeType = ( prevShapeType == sm->GetSubShape().ShapeType() );
1242 bool keepSubMeshes = ( sameShapeType && toKeepPrevShapeType );
1243 if ( !sameShapeType )
1245 // check if the algo allows presence of global algos of dimension the algo
1246 // can generate it-self;
1247 // always keep a node on VERTEX, as this node can be shared by segments
1248 // lying on EDGEs not shared by the VERTEX of sm, due to MergeNodes (PAL23068)
1249 int shapeDim = SMESH_Gen::GetShapeDim( sm->GetSubShape() );
1250 keepSubMeshes = ( algoRequiringCleaning->NeedLowerHyps( shapeDim ) || shapeDim == 0 );
1251 prevShapeType = sm->GetSubShape().ShapeType();
1252 toKeepPrevShapeType = keepSubMeshes;
1254 if ( !keepSubMeshes )
1256 // look for a local algo used to mesh sm
1257 TopoDS_Shape algoShape = SMESH_MesherHelper::GetShapeOfHypothesis
1258 ( algoRequiringCleaning, _subShape, _father );
1259 SMESH_HypoFilter moreLocalAlgo;
1260 moreLocalAlgo.Init( SMESH_HypoFilter::IsMoreLocalThan( algoShape, *_father ));
1261 moreLocalAlgo.And ( SMESH_HypoFilter::IsAlgo() );
1262 bool localAlgoFound = _father->GetHypothesis( sm->_subShape, moreLocalAlgo, true );
1263 keepSubMeshes = localAlgoFound;
1265 // remember all sub-meshes of sm
1266 if ( keepSubMeshes )
1268 SMESH_subMeshIteratorPtr smIt2 = sm->getDependsOnIterator(true);
1269 while ( smIt2->more() )
1270 smToKeep.insert( smIt2->next() );
1275 SMESH_subMeshIteratorPtr smIt = getDependsOnIterator(false,true);
1276 while ( smIt->more() )
1278 SMESH_subMesh* sm = smIt->next();
1279 if ( !smToKeep.count( sm ))
1280 sm->ComputeStateEngine(CLEAN);
1285 //=============================================================================
1289 //=============================================================================
1291 void SMESH_subMesh::DumpAlgoState(bool isMain)
1295 const map < int, SMESH_subMesh * >&subMeshes = DependsOn();
1297 map < int, SMESH_subMesh * >::const_iterator itsub;
1298 for (itsub = subMeshes.begin(); itsub != subMeshes.end(); itsub++)
1300 SMESH_subMesh *sm = (*itsub).second;
1301 sm->DumpAlgoState(false);
1304 MESSAGE("dim = " << SMESH_Gen::GetShapeDim(_subShape) <<
1305 " type of shape " << _subShape.ShapeType());
1308 case NO_ALGO : MESSAGE(" AlgoState = NO_ALGO"); break;
1309 case MISSING_HYP : MESSAGE(" AlgoState = MISSING_HYP"); break;
1310 case HYP_OK : MESSAGE(" AlgoState = HYP_OK");break;
1312 switch (_computeState)
1314 case NOT_READY : MESSAGE(" ComputeState = NOT_READY");break;
1315 case READY_TO_COMPUTE : MESSAGE(" ComputeState = READY_TO_COMPUTE");break;
1316 case COMPUTE_OK : MESSAGE(" ComputeState = COMPUTE_OK");break;
1317 case FAILED_TO_COMPUTE: MESSAGE(" ComputeState = FAILED_TO_COMPUTE");break;
1321 //================================================================================
1323 * \brief Remove nodes and elements bound to submesh
1324 * \param subMesh - submesh containing nodes and elements
1326 //================================================================================
1328 static void cleanSubMesh( SMESH_subMesh * subMesh )
1331 if (SMESHDS_SubMesh * subMeshDS = subMesh->GetSubMeshDS())
1333 SMESHDS_Mesh * meshDS = subMesh->GetFather()->GetMeshDS();
1334 smIdType nbElems = subMeshDS->NbElements();
1336 for ( SMDS_ElemIteratorPtr ite = subMeshDS->GetElements(); ite->more(); )
1337 meshDS->RemoveFreeElement( ite->next(), subMeshDS );
1339 smIdType nbNodes = subMeshDS->NbNodes();
1341 for ( SMDS_NodeIteratorPtr itn = subMeshDS->GetNodes(); itn->more() ; )
1343 const SMDS_MeshNode * node = itn->next();
1344 if ( node->NbInverseElements() == 0 )
1345 meshDS->RemoveFreeNode( node, subMeshDS );
1346 else // for StdMeshers_CompositeSegment_1D: node in one submesh, edge in another
1347 meshDS->RemoveNode( node );
1354 //=============================================================================
1358 //=============================================================================
1360 bool SMESH_subMesh::ComputeStateEngine(compute_event event)
1363 case MODIF_ALGO_STATE:
1365 case COMPUTE_SUBMESH:
1366 //case COMPUTE_CANCELED:
1368 //case SUBMESH_COMPUTED:
1369 //case SUBMESH_RESTORED:
1370 //case SUBMESH_LOADED:
1371 //case MESH_ENTITY_REMOVED:
1372 //case CHECK_COMPUTE_STATE:
1373 _computeError.reset(); break;
1377 if ( event == CLEAN )
1378 _alwaysComputed = false; // Unset 'true' set by MergeNodes() (issue 0022182)
1380 if (_subShape.ShapeType() == TopAbs_VERTEX)
1382 _computeState = READY_TO_COMPUTE;
1383 SMESHDS_SubMesh* smDS = GetSubMeshDS();
1384 if ( smDS && smDS->NbNodes() )
1386 if ( event == CLEAN ) {
1388 cleanSubMesh( this );
1391 _computeState = COMPUTE_OK;
1393 else if (( event == COMPUTE || event == COMPUTE_SUBMESH )
1394 && !_alwaysComputed )
1396 SMESH_MeshLocker myLocker(_father);
1397 const TopoDS_Vertex & V = TopoDS::Vertex( _subShape );
1398 gp_Pnt P = BRep_Tool::Pnt(V);
1399 if ( SMDS_MeshNode * n = _father->GetMeshDS()->AddNode(P.X(), P.Y(), P.Z()) ) {
1400 _father->GetMeshDS()->SetNodeOnVertex(n,_Id);
1401 _computeState = COMPUTE_OK;
1404 if ( event == MODIF_ALGO_STATE )
1408 SMESH_Gen *gen = _father->GetGen();
1409 SMESH_Algo *algo = 0;
1411 SMESH_Hypothesis::Hypothesis_Status hyp_status;
1412 //algo_state oldAlgoState = (algo_state) GetAlgoState();
1414 switch (_computeState)
1417 // ----------------------------------------------------------------------
1422 case MODIF_ALGO_STATE:
1424 if (algo && !algo->NeedDiscreteBoundary())
1425 cleanDependsOn( algo ); // clean sub-meshes with event CLEAN
1426 if ( _algoState == HYP_OK )
1427 _computeState = READY_TO_COMPUTE;
1429 case COMPUTE: // nothing to do
1430 case COMPUTE_SUBMESH:
1432 case COMPUTE_CANCELED: // nothing to do
1436 removeSubMeshElementsAndNodes();
1438 case SUBMESH_COMPUTED: // nothing to do
1440 case SUBMESH_RESTORED:
1441 ComputeSubMeshStateEngine( SUBMESH_RESTORED );
1443 case MESH_ENTITY_REMOVED:
1445 case SUBMESH_LOADED:
1446 loadDependentMeshes();
1447 ComputeSubMeshStateEngine( SUBMESH_LOADED );
1450 case CHECK_COMPUTE_STATE:
1451 if ( IsMeshComputed() )
1452 _computeState = COMPUTE_OK;
1460 // ----------------------------------------------------------------------
1462 case READY_TO_COMPUTE:
1465 case MODIF_ALGO_STATE:
1466 _computeState = NOT_READY;
1470 if (!algo->NeedDiscreteBoundary())
1471 cleanDependsOn( algo ); // clean sub-meshes with event CLEAN
1472 if ( _algoState == HYP_OK )
1473 _computeState = READY_TO_COMPUTE;
1477 case COMPUTE_NOGEOM: // no geometry; can be several algos
1478 if ( !_father->HasShapeToMesh() )
1480 algo = GetAlgo(); // current algo
1483 // apply algos in the order of increasing dimension
1484 std::list< const SMESHDS_Hypothesis * > algos = _father->GetHypothesisList( _subShape );
1485 for ( int t = SMESHDS_Hypothesis::ALGO_1D; t <= SMESHDS_Hypothesis::ALGO_3D; ++t )
1487 std::list<const SMESHDS_Hypothesis *>::iterator al = algos.begin();
1488 for ( ; al != algos.end(); ++al )
1489 if ( (*al)->GetType() == t )
1491 _algo = (SMESH_Algo*) *al;
1492 _computeState = READY_TO_COMPUTE;
1493 if ( !ComputeStateEngine( COMPUTE ))
1497 _algo = algo; // restore
1503 case COMPUTE_SUBMESH:
1507 ret = algo->CheckHypothesis((*_father), _subShape, hyp_status);
1510 MESSAGE("***** verify compute state *****");
1511 _computeState = NOT_READY;
1512 setAlgoState(MISSING_HYP);
1515 TopoDS_Shape shape = _subShape;
1516 algo->setSubMeshesToCompute(this);
1517 // check submeshes needed
1518 // In parallel there would be no submesh to check
1519 if (_father->HasShapeToMesh() && !_father->IsParallel()) {
1520 bool subComputed = false, subFailed = false;
1521 if (!algo->OnlyUnaryInput()) {
1522 // --- commented for bos#22320 to compute all sub-shapes at once if possible;
1523 // --- in case COMPUTE_SUBMESH, set of sub-shapes is limited
1524 // --- by calling SetAllowedSubShapes()
1525 // if ( event == COMPUTE )
1526 // shape = getCollection( gen, algo, subComputed, subFailed, algo->SubMeshesToComput;
1528 // subComputed = SubMeshesComputed( & subFailed );
1529 shape = getCollection( gen, algo, subComputed, subFailed, algo->SubMeshesToCompute());
1532 subComputed = SubMeshesComputed();
1534 ret = ( algo->NeedDiscreteBoundary() ? subComputed :
1535 algo->SupportSubmeshes() ? !subFailed :
1536 ( !subComputed || _father->IsNotConformAllowed() ));
1539 _computeState = FAILED_TO_COMPUTE;
1540 if ( !algo->NeedDiscreteBoundary() && !subFailed )
1542 SMESH_ComputeError::New(COMPERR_BAD_INPUT_MESH,
1543 "Unexpected computed sub-mesh",algo);
1549 // to restore cout that may be redirected by algo
1550 std::streambuf* coutBuffer = std::cout.rdbuf();
1552 //cleanDependants(); for "UseExisting_*D" algos
1553 //removeSubMeshElementsAndNodes();
1554 loadDependentMeshes();
1556 _computeState = FAILED_TO_COMPUTE;
1557 _computeError = SMESH_ComputeError::New(COMPERR_OK,"",algo);
1561 algo->InitComputeError();
1563 MemoryReserve aMemoryReserve;
1564 SMDS_Mesh::CheckMemory();
1565 Kernel_Utils::Localizer loc;
1566 if ( !_father->HasShapeToMesh() ) // no shape
1568 SMESH_MesherHelper helper( *_father );
1569 helper.SetSubShape( shape );
1570 helper.SetElementsOnShape( true );
1571 ret = algo->Compute(*_father, &helper );
1575 ret = algo->Compute((*_father), shape);
1577 // algo can set _computeError of submesh
1578 _computeError = SMESH_ComputeError::Worst( _computeError, algo->GetComputeError() );
1580 catch ( ::SMESH_ComputeError& comperr ) {
1581 MESSAGE(" SMESH_ComputeError caught");
1582 if ( !_computeError ) _computeError = SMESH_ComputeError::New();
1583 *_computeError = comperr;
1585 catch ( std::bad_alloc& exc ) {
1586 MESSAGE("std::bad_alloc thrown inside algo->Compute()");
1587 if ( _computeError ) {
1588 _computeError->myName = COMPERR_MEMORY_PB;
1590 cleanSubMesh( this );
1593 catch ( Standard_OutOfMemory& exc ) {
1594 MESSAGE("Standard_OutOfMemory thrown inside algo->Compute()");
1595 if ( _computeError ) {
1596 _computeError->myName = COMPERR_MEMORY_PB;
1598 cleanSubMesh( this );
1599 throw std::bad_alloc();
1601 catch (Standard_Failure& ex) {
1602 if ( !_computeError ) _computeError = SMESH_ComputeError::New();
1603 _computeError->myName = COMPERR_OCC_EXCEPTION;
1604 _computeError->myComment += ex.DynamicType()->Name();
1605 if ( ex.GetMessageString() && strlen( ex.GetMessageString() )) {
1606 _computeError->myComment += ": ";
1607 _computeError->myComment += ex.GetMessageString();
1610 catch ( SALOME_Exception& S_ex ) {
1611 const int skipSalomeShift = 7; /* to skip "Salome " of
1612 "Salome Exception" prefix returned
1613 by SALOME_Exception::what() */
1614 if ( !_computeError ) _computeError = SMESH_ComputeError::New();
1615 _computeError->myName = COMPERR_SLM_EXCEPTION;
1616 _computeError->myComment = S_ex.what() + skipSalomeShift;
1618 catch ( std::exception& exc ) {
1619 if ( !_computeError ) _computeError = SMESH_ComputeError::New();
1620 _computeError->myName = COMPERR_STD_EXCEPTION;
1621 _computeError->myComment = exc.what();
1624 if ( _computeError )
1625 _computeError->myName = COMPERR_EXCEPTION;
1629 std::cout.rdbuf( coutBuffer ); // restore cout that could be redirected by algo
1631 // check if an error reported on any sub-shape
1632 bool isComputeErrorSet = !checkComputeError( algo, ret, shape );
1633 if ( isComputeErrorSet )
1635 // check if anything was built
1636 TopExp_Explorer subS(shape, _subShape.ShapeType());
1639 for (; ret && subS.More(); subS.Next())
1640 if ( !_father->GetSubMesh( subS.Current() )->IsMeshComputed() &&
1641 ( _subShape.ShapeType() != TopAbs_EDGE ||
1642 !algo->isDegenerated( TopoDS::Edge( subS.Current() ))))
1645 #ifdef PRINT_WHO_COMPUTE_WHAT
1646 for (subS.ReInit(); subS.More(); subS.Next())
1648 SMESH_MeshLocker myLocker(_father);
1649 const std::list <const SMESHDS_Hypothesis *> & hyps =
1650 _algo->GetUsedHypothesis( *_father, _subShape );
1651 SMESH_Comment hypStr;
1652 if ( !hyps.empty() )
1654 hypStr << hyps.front()->GetName() << " ";
1655 ((SMESHDS_Hypothesis*)hyps.front())->SaveTo( hypStr.Stream() );
1658 cout << _father->GetSubMesh( subS.Current() )->GetId()
1659 << " " << ( ret ? "OK" : "FAIL" )
1660 << " " << _algo->GetName()
1661 << " " << hypStr << endl;
1664 // Set _computeError
1665 if ( !ret && !isComputeErrorSet )
1667 for ( subS.ReInit(); subS.More(); subS.Next() )
1669 SMESH_subMesh* sm = _father->GetSubMesh( subS.Current() );
1670 if ( !sm->IsMeshComputed() )
1672 if ( !sm->_computeError )
1673 sm->_computeError = SMESH_ComputeError::New();
1674 if ( sm->_computeError->IsOK() )
1675 sm->_computeError->myName = COMPERR_ALGO_FAILED;
1676 sm->_computeState = FAILED_TO_COMPUTE;
1677 sm->_computeError->myAlgo = algo;
1681 if ( ret && _computeError && _computeError->myName != COMPERR_WARNING )
1683 _computeError.reset();
1686 // transform errors into warnings if it is caused by mesh edition (imp 0023068)
1687 if (!ret && _father->GetIsModified() )
1689 for (subS.ReInit(); subS.More(); subS.Next())
1691 SMESH_subMesh* sm = _father->GetSubMesh( subS.Current() );
1692 if ( !sm->IsMeshComputed() && sm->_computeError )
1694 // check if there is a VERTEX w/o nodes
1695 // with READY_TO_COMPUTE state (after MergeNodes())
1696 SMESH_subMeshIteratorPtr smIt = sm->getDependsOnIterator(false,false);
1697 while ( smIt->more() )
1699 SMESH_subMesh * vertSM = smIt->next();
1700 if ( vertSM->_subShape.ShapeType() != TopAbs_VERTEX ) break;
1701 if ( vertSM->GetComputeState() == READY_TO_COMPUTE )
1703 SMESHDS_SubMesh * ds = vertSM->GetSubMeshDS();
1704 if ( !ds || ds->NbNodes() == 0 )
1706 sm->_computeState = READY_TO_COMPUTE;
1707 sm->_computeError->myName = COMPERR_WARNING;
1716 // send event SUBMESH_COMPUTED
1718 if ( !algo->NeedDiscreteBoundary() )
1719 // send SUBMESH_COMPUTED to dependants of all sub-meshes of shape
1720 for (subS.ReInit(); subS.More(); subS.Next())
1722 SMESH_subMesh* sm = _father->GetSubMesh( subS.Current() );
1723 SMESH_subMeshIteratorPtr smIt = sm->getDependsOnIterator(false,false);
1724 while ( smIt->more() ) {
1726 if ( sm->GetSubShape().ShapeType() == TopAbs_VERTEX )
1727 sm->updateDependantsState( SUBMESH_COMPUTED );
1733 updateDependantsState( SUBMESH_COMPUTED );
1735 // let algo clear its data gathered while algo->Compute()
1736 algo->CheckHypothesis((*_father), _subShape, hyp_status);
1739 case COMPUTE_CANCELED: // nothing to do
1743 removeSubMeshElementsAndNodes();
1744 _computeState = NOT_READY;
1748 ret = algo->CheckHypothesis((*_father), _subShape, hyp_status);
1750 _computeState = READY_TO_COMPUTE;
1752 setAlgoState(MISSING_HYP);
1755 case SUBMESH_COMPUTED: // nothing to do
1757 case SUBMESH_RESTORED:
1758 // check if a mesh is already computed that may
1759 // happen after retrieval from a file
1760 ComputeStateEngine( CHECK_COMPUTE_STATE );
1761 ComputeSubMeshStateEngine( SUBMESH_RESTORED );
1763 if (algo) algo->SubmeshRestored( this );
1765 case MESH_ENTITY_REMOVED:
1767 case SUBMESH_LOADED:
1768 loadDependentMeshes();
1769 ComputeSubMeshStateEngine( SUBMESH_LOADED );
1772 case CHECK_COMPUTE_STATE:
1773 if ( IsMeshComputed() )
1774 _computeState = COMPUTE_OK;
1775 else if ( _computeError && _computeError->IsKO() )
1776 _computeState = FAILED_TO_COMPUTE;
1784 // ----------------------------------------------------------------------
1789 case MODIF_ALGO_STATE:
1790 ComputeStateEngine( CLEAN );
1792 if (algo && !algo->NeedDiscreteBoundary())
1793 cleanDependsOn( algo ); // clean sub-meshes with event CLEAN
1795 case COMPUTE: // nothing to do
1797 case COMPUTE_SUBMESH: // nothing to do
1799 case COMPUTE_CANCELED: // nothing to do
1802 cleanDependants(); // clean sub-meshes, dependent on this one, with event CLEAN
1803 removeSubMeshElementsAndNodes();
1804 _computeState = NOT_READY;
1805 if ( _algoState == HYP_OK )
1806 _computeState = READY_TO_COMPUTE;
1808 case SUBMESH_COMPUTED: // nothing to do
1810 case SUBMESH_RESTORED:
1811 ComputeStateEngine( CHECK_COMPUTE_STATE );
1812 ComputeSubMeshStateEngine( SUBMESH_RESTORED );
1814 if (algo) algo->SubmeshRestored( this );
1816 case MESH_ENTITY_REMOVED:
1817 updateDependantsState ( CHECK_COMPUTE_STATE );
1818 ComputeStateEngine ( CHECK_COMPUTE_STATE );
1819 ComputeSubMeshStateEngine( CHECK_COMPUTE_STATE );
1821 case CHECK_COMPUTE_STATE:
1822 if ( !IsMeshComputed() ) {
1823 if (_algoState == HYP_OK)
1824 _computeState = READY_TO_COMPUTE;
1826 _computeState = NOT_READY;
1829 case SUBMESH_LOADED:
1830 // already treated event, thanks to which _computeState == COMPUTE_OK
1838 // ----------------------------------------------------------------------
1840 case FAILED_TO_COMPUTE:
1843 case MODIF_ALGO_STATE:
1845 ComputeStateEngine( CLEAN );
1847 if (algo && !algo->NeedDiscreteBoundary())
1848 cleanDependsOn( algo ); // clean sub-meshes with event CLEAN
1849 if (_algoState == HYP_OK)
1850 _computeState = READY_TO_COMPUTE;
1852 _computeState = NOT_READY;
1854 case COMPUTE: // nothing to do
1855 case COMPUTE_SUBMESH:
1857 case COMPUTE_CANCELED:
1860 algo->CancelCompute();
1864 cleanDependants(); // submeshes dependent on me should be cleaned as well
1865 removeSubMeshElementsAndNodes();
1867 case SUBMESH_COMPUTED: // allow retry compute
1868 if ( IsEmpty() ) // 23061
1870 if (_algoState == HYP_OK)
1871 _computeState = READY_TO_COMPUTE;
1873 _computeState = NOT_READY;
1876 case SUBMESH_RESTORED:
1877 ComputeSubMeshStateEngine( SUBMESH_RESTORED );
1879 case MESH_ENTITY_REMOVED:
1881 case CHECK_COMPUTE_STATE:
1882 if ( IsMeshComputed() )
1883 _computeState = COMPUTE_OK;
1885 if (_algoState == HYP_OK)
1886 _computeState = READY_TO_COMPUTE;
1888 _computeState = NOT_READY;
1890 // case SUBMESH_LOADED:
1898 // ----------------------------------------------------------------------
1904 notifyListenersOnEvent( event, COMPUTE_EVENT );
1910 //=============================================================================
1914 //=============================================================================
1916 bool SMESH_subMesh::Evaluate(MapShapeNbElems& aResMap)
1918 _computeError.reset();
1922 if (_subShape.ShapeType() == TopAbs_VERTEX) {
1923 vector<smIdType> aVec(SMDSEntity_Last,0);
1924 aVec[SMDSEntity_Node] = 1;
1925 aResMap.insert(make_pair(this,aVec));
1929 //SMESH_Gen *gen = _father->GetGen();
1930 SMESH_Algo *algo = 0;
1931 SMESH_Hypothesis::Hypothesis_Status hyp_status;
1934 if( algo && !aResMap.count( this ))
1936 ret = algo->CheckHypothesis((*_father), _subShape, hyp_status);
1937 if (!ret) return false;
1939 if (_father->HasShapeToMesh() && algo->NeedDiscreteBoundary() )
1941 // check submeshes needed
1942 bool subMeshEvaluated = true;
1943 int dimToCheck = SMESH_Gen::GetShapeDim( _subShape ) - 1;
1944 SMESH_subMeshIteratorPtr smIt = getDependsOnIterator(false,/*complexShapeFirst=*/true);
1945 while ( smIt->more() && subMeshEvaluated )
1947 SMESH_subMesh* sm = smIt->next();
1948 int dim = SMESH_Gen::GetShapeDim( sm->GetSubShape() );
1949 if (dim < dimToCheck) break; // the rest subMeshes are all of less dimension
1950 const vector<smIdType> & nbs = aResMap[ sm ];
1951 subMeshEvaluated = (std::accumulate( nbs.begin(), nbs.end(), 0 ) > 0 );
1953 if ( !subMeshEvaluated )
1956 _computeError = SMESH_ComputeError::New(COMPERR_OK,"",algo);
1958 if ( IsMeshComputed() )
1960 vector<smIdType> & nbEntities = aResMap[ this ];
1961 nbEntities.resize( SMDSEntity_Last, 0 );
1962 if ( SMESHDS_SubMesh* sm = GetSubMeshDS() )
1964 nbEntities[ SMDSEntity_Node ] = sm->NbNodes();
1965 SMDS_ElemIteratorPtr elemIt = sm->GetElements();
1966 while ( elemIt->more() )
1967 nbEntities[ elemIt->next()->GetEntityType() ]++;
1972 ret = algo->Evaluate((*_father), _subShape, aResMap);
1974 aResMap.insert( make_pair( this,vector<smIdType>(0)));
1981 //=======================================================================
1983 * \brief Update compute_state by _computeError and send proper events to
1984 * dependent submeshes
1985 * \retval bool - true if _computeError is NOT set
1987 //=======================================================================
1989 bool SMESH_subMesh::checkComputeError(SMESH_Algo* theAlgo,
1990 const bool theComputeOK,
1991 const TopoDS_Shape& theShape)
1993 bool noErrors = true;
1995 if ( !theShape.IsNull() )
1997 // Check state of submeshes
1998 if ( !theAlgo->NeedDiscreteBoundary())
2000 SMESH_subMeshIteratorPtr smIt = getDependsOnIterator(false,false);
2001 while ( smIt->more() )
2002 if ( !smIt->next()->checkComputeError( theAlgo, theComputeOK ))
2006 // Check state of neighbours
2007 if ( !theAlgo->OnlyUnaryInput() &&
2008 theShape.ShapeType() == TopAbs_COMPOUND &&
2009 !theShape.IsSame( _subShape ))
2011 for (TopoDS_Iterator subIt( theShape ); subIt.More(); subIt.Next()) {
2012 SMESH_subMesh* sm = _father->GetSubMesh( subIt.Value() );
2014 if ( !sm->checkComputeError( theAlgo, theComputeOK, sm->GetSubShape() ))
2016 updateDependantsState( SUBMESH_COMPUTED ); // send event SUBMESH_COMPUTED
2023 // Set my _computeState
2025 if ( !_computeError || _computeError->IsOK() )
2027 // no error description is set to this sub-mesh, check if any mesh is computed
2028 _computeState = IsMeshComputed() ? COMPUTE_OK : FAILED_TO_COMPUTE;
2029 if ( _computeState != COMPUTE_OK )
2031 if ( _subShape.ShapeType() == TopAbs_EDGE &&
2032 SMESH_Algo::isDegenerated( TopoDS::Edge( _subShape )) )
2033 _computeState = COMPUTE_OK;
2034 else if ( theComputeOK )
2035 _computeError = SMESH_ComputeError::New(COMPERR_NO_MESH_ON_SHAPE,"",theAlgo);
2039 if ( _computeError && !_computeError->IsOK() )
2041 if ( !_computeError->myAlgo )
2042 _computeError->myAlgo = theAlgo;
2046 text << theAlgo->GetName() << " failed on sub-shape #" << _Id << " with error ";
2047 if (_computeError->IsCommon() )
2048 text << _computeError->CommonName();
2050 text << _computeError->myName;
2051 if ( _computeError->myComment.size() > 0 )
2052 text << " \"" << _computeError->myComment << "\"";
2056 _computeState = _computeError->IsKO() ? FAILED_TO_COMPUTE : COMPUTE_OK;
2064 //=======================================================================
2065 //function : updateSubMeshState
2067 //=======================================================================
2069 void SMESH_subMesh::updateSubMeshState(const compute_state theState)
2071 SMESH_subMeshIteratorPtr smIt = getDependsOnIterator(false,false);
2072 while ( smIt->more() )
2073 smIt->next()->_computeState = theState;
2076 //=======================================================================
2077 //function : ComputeSubMeshStateEngine
2079 //=======================================================================
2081 void SMESH_subMesh::ComputeSubMeshStateEngine(compute_event event, const bool includeSelf)
2083 SMESH_subMeshIteratorPtr smIt = getDependsOnIterator(includeSelf,false);
2084 while ( smIt->more() )
2085 smIt->next()->ComputeStateEngine(event);
2088 //=======================================================================
2089 //function : updateDependantsState
2091 //=======================================================================
2093 void SMESH_subMesh::updateDependantsState(const compute_event theEvent)
2095 const std::vector< SMESH_subMesh * > & ancestors = GetAncestors();
2096 for ( size_t iA = 0; iA < ancestors.size(); ++iA )
2098 ancestors[ iA ]->ComputeStateEngine( theEvent );
2102 //=======================================================================
2103 //function : cleanDependants
2105 //=======================================================================
2107 void SMESH_subMesh::cleanDependants()
2109 int dimToClean = SMESH_Gen::GetShapeDim( _subShape ) + 1;
2111 const std::vector< SMESH_subMesh * > & ancestors = GetAncestors();
2112 for ( size_t iA = 0; iA < ancestors.size(); ++iA )
2114 const TopoDS_Shape& ancestor = ancestors[ iA ]->GetSubShape();
2115 if ( SMESH_Gen::GetShapeDim( ancestor ) == dimToClean )
2117 // PAL8021. do not go upper than SOLID, else ComputeStateEngine(CLEAN)
2118 // will erase mesh on other shapes in a compound
2119 if ( ancestor.ShapeType() >= TopAbs_SOLID &&
2120 !ancestors[ iA ]->IsEmpty() ) // prevent infinite CLEAN via event lesteners
2121 ancestors[ iA ]->ComputeStateEngine(CLEAN);
2126 //=======================================================================
2127 //function : removeSubMeshElementsAndNodes
2129 //=======================================================================
2131 void SMESH_subMesh::removeSubMeshElementsAndNodes()
2133 cleanSubMesh( this );
2135 // algo may bind a submesh not to _subShape, eg 3D algo
2136 // sets nodes on SHELL while _subShape may be SOLID
2138 int dim = SMESH_Gen::GetShapeDim( _subShape );
2139 int type = _subShape.ShapeType() + 1;
2140 for ( ; type <= TopAbs_EDGE; type++) {
2141 if ( dim == SMESH_Gen::GetShapeDim( (TopAbs_ShapeEnum) type ))
2143 TopExp_Explorer exp( _subShape, (TopAbs_ShapeEnum) type );
2144 for ( ; exp.More(); exp.Next() )
2145 cleanSubMesh( _father->GetSubMeshContaining( exp.Current() ));
2152 //=======================================================================
2153 //function : getCollection
2154 //purpose : return a shape containing all sub-shapes of the MainShape that can be
2155 // meshed at once along with _subShape
2156 //=======================================================================
2158 TopoDS_Shape SMESH_subMesh::getCollection(SMESH_Gen * /*theGen*/,
2159 SMESH_Algo* theAlgo,
2160 bool & theSubComputed,
2161 bool & theSubFailed,
2162 std::vector<SMESH_subMesh*>& theSubs)
2164 theSubComputed = SubMeshesComputed( & theSubFailed );
2166 TopoDS_Shape mainShape = _father->GetMeshDS()->ShapeToMesh();
2168 if ( mainShape.IsSame( _subShape ))
2171 const bool skipAuxHyps = false;
2172 list<const SMESHDS_Hypothesis*> usedHyps =
2173 theAlgo->GetUsedHypothesis( *_father, _subShape, skipAuxHyps ); // copy
2174 std::list < TopoDS_Shape > assiShapes = theAlgo->GetAssignedShapes();
2176 // put in a compound all shapes with the same hypothesis assigned
2177 // and a good ComputeState
2179 TopoDS_Compound aCompound;
2180 BRep_Builder aBuilder;
2181 aBuilder.MakeCompound( aCompound );
2185 SMESH_subMeshIteratorPtr smIt = _father->GetSubMesh( mainShape )->getDependsOnIterator(false);
2186 while ( smIt->more() )
2188 SMESH_subMesh* subMesh = smIt->next();
2189 const TopoDS_Shape& S = subMesh->_subShape;
2190 if ( S.ShapeType() != this->_subShape.ShapeType() )
2192 if ( _allowedSubShapes && !_allowedSubShapes->IsEmpty() && !_allowedSubShapes->Contains( S ))
2194 if ( subMesh == this )
2196 aBuilder.Add( aCompound, S );
2197 theSubs.push_back( subMesh );
2199 else if ( subMesh->GetComputeState() == READY_TO_COMPUTE )
2201 SMESH_Algo* anAlgo = subMesh->GetAlgo();
2202 if (( anAlgo->IsSameName( *theAlgo )) && // same algo
2203 ( anAlgo->GetUsedHypothesis( *_father, S, skipAuxHyps ) == usedHyps ) && // same hyps
2204 ( anAlgo->GetAssignedShapes() == assiShapes ) && // on same sub-shapes
2205 ( _algoShape == subMesh->_algoShape ))
2207 aBuilder.Add( aCompound, S );
2208 if ( !subMesh->SubMeshesComputed() )
2209 theSubComputed = false;
2210 theSubs.push_back( subMesh );
2215 return theSubs.size() == 1 ? theSubs[0]->GetSubShape() : aCompound;
2218 //=======================================================================
2219 //function : getSimilarAttached
2220 //purpose : return a hypothesis attached to theShape.
2221 // If theHyp is provided, similar but not same hypotheses
2222 // is returned; else only applicable ones having theHypType
2224 //=======================================================================
2226 const SMESH_Hypothesis* SMESH_subMesh::getSimilarAttached(const TopoDS_Shape& theShape,
2227 const SMESH_Hypothesis * theHyp,
2228 const int theHypType)
2230 SMESH_HypoFilter hypoKind;
2231 hypoKind.Init( hypoKind.HasType( theHyp ? theHyp->GetType() : theHypType ));
2233 hypoKind.And ( hypoKind.HasDim( theHyp->GetDim() ));
2234 hypoKind.AndNot( hypoKind.Is( theHyp ));
2235 if ( theHyp->IsAuxiliary() )
2236 hypoKind.And( hypoKind.HasName( theHyp->GetName() ));
2238 hypoKind.AndNot( hypoKind.IsAuxiliary());
2241 hypoKind.And( hypoKind.IsApplicableTo( theShape ));
2244 return _father->GetHypothesis( theShape, hypoKind, false );
2247 //=======================================================================
2248 //function : CheckConcurrentHypothesis
2249 //purpose : check if there are several applicable hypothesis attached to
2251 //=======================================================================
2253 SMESH_Hypothesis::Hypothesis_Status
2254 SMESH_subMesh::CheckConcurrentHypothesis( SMESH_Hypothesis* theHypothesis)
2256 // is there local hypothesis on me?
2257 if ( getSimilarAttached( _subShape, theHypothesis ) )
2258 return SMESH_Hypothesis::HYP_OK;
2261 TopoDS_Shape aPrevWithHyp;
2262 const SMESH_Hypothesis* aPrevHyp = 0;
2263 TopTools_ListIteratorOfListOfShape it( _father->GetAncestors( _subShape ));
2264 for (; it.More(); it.Next())
2266 const TopoDS_Shape& ancestor = it.Value();
2267 const SMESH_Hypothesis* hyp = getSimilarAttached( ancestor, theHypothesis );
2270 if ( aPrevWithHyp.IsNull() || aPrevWithHyp.IsSame( ancestor ))
2272 aPrevWithHyp = ancestor;
2275 else if ( aPrevWithHyp.ShapeType() == ancestor.ShapeType() && aPrevHyp != hyp )
2276 return SMESH_Hypothesis::HYP_CONCURRENT;
2278 return SMESH_Hypothesis::HYP_OK;
2281 return SMESH_Hypothesis::HYP_OK;
2284 //================================================================================
2286 * \brief Constructor of OwnListenerData
2288 //================================================================================
2290 SMESH_subMesh::OwnListenerData::OwnListenerData( SMESH_subMesh* sm, EventListener* el):
2292 myMeshID( sm ? sm->GetFather()->GetId() : -1 ),
2293 mySubMeshID( sm ? sm->GetId() : -1 ),
2298 //================================================================================
2300 * \brief Sets an event listener and its data to a submesh
2301 * \param listener - the listener to store
2302 * \param data - the listener data to store
2303 * \param where - the submesh to store the listener and it's data
2305 * It remembers the submesh where it puts the listener in order to delete
2306 * them when HYP_OK algo_state is lost
2307 * After being set, event listener is notified on each event of where submesh.
2309 //================================================================================
2311 void SMESH_subMesh::SetEventListener(EventListener* listener,
2312 EventListenerData* data,
2313 SMESH_subMesh* where)
2315 if ( listener && where ) {
2316 where->setEventListener( listener, data );
2317 _ownListeners.push_back( OwnListenerData( where, listener ));
2321 //================================================================================
2323 * \brief Sets an event listener and its data to a submesh
2324 * \param listener - the listener to store
2325 * \param data - the listener data to store
2327 * After being set, event listener is notified on each event of a submesh.
2329 //================================================================================
2331 void SMESH_subMesh::setEventListener(EventListener* listener,
2332 EventListenerData* data)
2334 map< EventListener*, EventListenerData* >::iterator l_d =
2335 _eventListeners.find( listener );
2336 if ( l_d != _eventListeners.end() ) {
2337 EventListenerData* curData = l_d->second;
2339 if ( curData && curData != data && curData->IsDeletable() )
2344 for ( l_d = _eventListeners.begin(); l_d != _eventListeners.end(); ++l_d )
2345 if ( listener->GetName() == l_d->first->GetName() )
2347 EventListenerData* curData = l_d->second;
2349 if ( curData && curData != data && curData->IsDeletable() )
2351 if ( l_d->first != listener && l_d->first->IsDeletable() )
2353 _eventListeners.erase( l_d );
2356 _eventListeners.insert( make_pair( listener, data ));
2360 //================================================================================
2362 * \brief Return an event listener data
2363 * \param listener - the listener whose data is
2364 * \param myOwn - if \c true, returns a listener set by this sub-mesh,
2365 * else returns a listener listening to events of this sub-mesh
2366 * \retval EventListenerData* - found data, maybe NULL
2368 //================================================================================
2370 EventListenerData* SMESH_subMesh::GetEventListenerData(EventListener* listener,
2371 const bool myOwn) const
2375 list< OwnListenerData >::const_iterator d;
2376 for ( d = _ownListeners.begin(); d != _ownListeners.end(); ++d )
2378 if ( d->myListener == listener && _father->MeshExists( d->myMeshID ))
2379 return d->mySubMesh->GetEventListenerData( listener, !myOwn );
2384 map< EventListener*, EventListenerData* >::const_iterator l_d =
2385 _eventListeners.find( listener );
2386 if ( l_d != _eventListeners.end() )
2392 //================================================================================
2394 * \brief Return an event listener data
2395 * \param listenerName - the listener name
2396 * \param myOwn - if \c true, returns a listener set by this sub-mesh,
2397 * else returns a listener listening to events of this sub-mesh
2398 * \retval EventListenerData* - found data, maybe NULL
2400 //================================================================================
2402 EventListenerData* SMESH_subMesh::GetEventListenerData(const string& listenerName,
2403 const bool myOwn) const
2407 list< OwnListenerData >::const_iterator d;
2408 for ( d = _ownListeners.begin(); d != _ownListeners.end(); ++d )
2410 if ( _father->MeshExists( d->myMeshID ) && listenerName == d->myListener->GetName())
2411 return d->mySubMesh->GetEventListenerData( listenerName, !myOwn );
2416 map< EventListener*, EventListenerData* >::const_iterator l_d = _eventListeners.begin();
2417 for ( ; l_d != _eventListeners.end(); ++l_d )
2418 if ( listenerName == l_d->first->GetName() )
2424 //================================================================================
2426 * \brief Notify stored event listeners on the occurred event
2427 * \param event - algo_event or compute_event itself
2428 * \param eventType - algo_event or compute_event
2429 * \param hyp - hypothesis, if eventType is algo_event
2431 //================================================================================
2433 void SMESH_subMesh::notifyListenersOnEvent( const int event,
2434 const event_type eventType,
2435 SMESH_Hypothesis* hyp)
2437 list< pair< EventListener*, EventListenerData* > > eventListeners( _eventListeners.begin(),
2438 _eventListeners.end());
2439 list< pair< EventListener*, EventListenerData* > >::iterator l_d = eventListeners.begin();
2440 for ( ; l_d != eventListeners.end(); ++l_d )
2442 std::pair< EventListener*, EventListenerData* > li_da = *l_d;
2443 if ( !_eventListeners.count( li_da.first )) continue;
2445 if ( li_da.first->myBusySM.insert( this ).second )
2447 const bool isDeletable = li_da.first->IsDeletable();
2449 li_da.first->ProcessEvent( event, eventType, this, li_da.second, hyp );
2451 if ( !isDeletable || _eventListeners.count( li_da.first ))
2452 li_da.first->myBusySM.erase( this ); // a listener is hopefully not dead
2457 //================================================================================
2459 * \brief Unregister the listener and delete listener's data
2460 * \param listener - the event listener
2462 //================================================================================
2464 void SMESH_subMesh::DeleteEventListener(EventListener* listener)
2466 map< EventListener*, EventListenerData* >::iterator l_d =
2467 _eventListeners.find( listener );
2468 if ( l_d != _eventListeners.end() && l_d->first )
2470 if ( l_d->second && l_d->second->IsDeletable() )
2474 l_d->first->myBusySM.erase( this );
2475 if ( l_d->first->IsDeletable() )
2477 l_d->first->BeforeDelete( this, l_d->second );
2480 _eventListeners.erase( l_d );
2484 //================================================================================
2486 * \brief Delete event listeners depending on algo of this submesh
2488 //================================================================================
2490 void SMESH_subMesh::deleteOwnListeners()
2492 list< OwnListenerData >::iterator d;
2493 for ( d = _ownListeners.begin(); d != _ownListeners.end(); ++d )
2495 SMESH_Mesh* mesh = _father->FindMesh( d->myMeshID );
2496 if ( !mesh || !mesh->GetSubMeshContaining( d->mySubMeshID ))
2498 d->mySubMesh->DeleteEventListener( d->myListener );
2500 _ownListeners.clear();
2503 //=======================================================================
2504 //function : loadDependentMeshes
2505 //purpose : loads dependent meshes on SUBMESH_LOADED event
2506 //=======================================================================
2508 void SMESH_subMesh::loadDependentMeshes()
2510 list< OwnListenerData >::iterator d;
2511 for ( d = _ownListeners.begin(); d != _ownListeners.end(); ++d )
2512 if ( _father != d->mySubMesh->_father &&
2513 _father->FindMesh( d->myMeshID ))
2514 d->mySubMesh->_father->Load();
2516 // map< EventListener*, EventListenerData* >::iterator l_d = _eventListeners.begin();
2517 // for ( ; l_d != _eventListeners.end(); ++l_d )
2518 // if ( l_d->second )
2520 // const list<SMESH_subMesh*>& smList = l_d->second->mySubMeshes;
2521 // list<SMESH_subMesh*>::const_iterator sm = smList.begin();
2522 // for ( ; sm != smList.end(); ++sm )
2523 // if ( _father != (*sm)->_father )
2524 // (*sm)->_father->Load();
2528 //================================================================================
2530 * \brief Do something on a certain event
2531 * \param event - algo_event or compute_event itself
2532 * \param eventType - algo_event or compute_event
2533 * \param subMesh - the submesh where the event occurs
2534 * \param data - listener data stored in the subMesh
2535 * \param hyp - hypothesis, if eventType is algo_event
2537 * The base implementation translates CLEAN event to the subMesh
2538 * stored in listener data. Also it sends SUBMESH_COMPUTED event in case of
2539 * successful COMPUTE event.
2541 //================================================================================
2543 void SMESH_subMeshEventListener::ProcessEvent(const int event,
2544 const int eventType,
2545 SMESH_subMesh* subMesh,
2546 EventListenerData* data,
2547 const SMESH_Hypothesis* /*hyp*/)
2549 if ( data && !data->mySubMeshes.empty() &&
2550 eventType == SMESH_subMesh::COMPUTE_EVENT)
2552 ASSERT( data->mySubMeshes.front() != subMesh );
2553 list<SMESH_subMesh*>::iterator smIt = data->mySubMeshes.begin();
2554 list<SMESH_subMesh*>::iterator smEnd = data->mySubMeshes.end();
2556 case SMESH_subMesh::CLEAN:
2557 for ( ; smIt != smEnd; ++ smIt)
2558 (*smIt)->ComputeStateEngine( SMESH_subMesh::compute_event( event ));
2560 case SMESH_subMesh::COMPUTE:
2561 case SMESH_subMesh::COMPUTE_SUBMESH:
2562 if ( subMesh->GetComputeState() == SMESH_subMesh::COMPUTE_OK )
2563 for ( ; smIt != smEnd; ++ smIt)
2564 (*smIt)->ComputeStateEngine( SMESH_subMesh::SUBMESH_COMPUTED );
2573 //================================================================================
2575 * \brief Iterator over submeshes and optionally prepended or appended one
2577 //================================================================================
2579 struct _Iterator : public SMDS_Iterator<SMESH_subMesh*>
2581 _Iterator(SMDS_Iterator<SMESH_subMesh*>* subIt,
2582 SMESH_subMesh* prepend,
2583 SMESH_subMesh* append): myAppend(append), myIt(subIt)
2585 myCur = prepend ? prepend : myIt->more() ? myIt->next() : append;
2586 if ( myCur == append ) append = 0;
2588 /// Return true if and only if there are other object in this iterator
2593 /// Return the current object and step to the next one
2594 virtual SMESH_subMesh* next()
2596 SMESH_subMesh* res = myCur;
2597 if ( myIt->more() ) { myCur = myIt->next(); }
2598 else { myCur = myAppend; myAppend = 0; }
2605 SMESH_subMesh *myAppend, *myCur;
2606 SMDS_Iterator<SMESH_subMesh*> *myIt;
2610 //================================================================================
2612 * \brief Return iterator on the submeshes this one depends on
2613 * \param includeSelf - this submesh to be returned also
2614 * \param reverse - if true, complex shape submeshes go first
2616 //================================================================================
2618 SMESH_subMeshIteratorPtr SMESH_subMesh::getDependsOnIterator(const bool includeSelf,
2619 const bool reverse) const
2621 SMESH_subMesh *me = (SMESH_subMesh*) this;
2622 SMESH_subMesh *prepend=0, *append=0;
2623 if ( includeSelf ) {
2624 if ( reverse ) prepend = me;
2627 typedef map < int, SMESH_subMesh * > TMap;
2630 return SMESH_subMeshIteratorPtr
2631 ( new _Iterator( new SMDS_mapReverseIterator<TMap>( me->DependsOn() ), prepend, append ));
2634 return SMESH_subMeshIteratorPtr
2635 ( new _Iterator( new SMDS_mapIterator<TMap>( me->DependsOn() ), prepend, append ));
2639 //================================================================================
2641 * \brief Returns ancestor sub-meshes. Finds them if not yet found.
2643 //================================================================================
2645 const std::vector< SMESH_subMesh * > & SMESH_subMesh::GetAncestors() const
2647 if ( _ancestors.empty() &&
2648 !_subShape.IsSame( _father->GetShapeToMesh() ))
2650 const TopTools_ListOfShape& ancShapes = _father->GetAncestors( _subShape );
2652 SMESH_subMesh* me = const_cast< SMESH_subMesh* >( this );
2653 me->_ancestors.reserve( ancShapes.Extent() );
2655 // assure that all sub-meshes exist
2656 TopoDS_Shape mainShape = _father->GetShapeToMesh();
2657 if ( !mainShape.IsNull() )
2658 _father->GetSubMesh( mainShape )->DependsOn();
2660 TopTools_MapOfShape map;
2662 for ( TopTools_ListIteratorOfListOfShape it( ancShapes ); it.More(); it.Next() )
2663 if ( SMESH_subMesh* sm = _father->GetSubMeshContaining( it.Value() ))
2664 if ( map.Add( it.Value() ))
2665 me->_ancestors.push_back( sm );
2671 //================================================================================
2673 * \brief Clears the vector of ancestor sub-meshes
2675 //================================================================================
2677 void SMESH_subMesh::ClearAncestors()
2682 //================================================================================
2684 * \brief Find common submeshes (based on shared sub-shapes with other
2685 * \param theOther submesh to check
2686 * \param theSetOfCommon set of common submesh
2688 //================================================================================
2690 bool SMESH_subMesh::FindIntersection(const SMESH_subMesh* theOther,
2691 std::set<const SMESH_subMesh*>& theSetOfCommon ) const
2693 size_t oldNb = theSetOfCommon.size();
2695 // check main submeshes
2696 const map <int, SMESH_subMesh*>::const_iterator otherEnd = theOther->_mapDepend.end();
2697 if ( theOther->_mapDepend.find(this->GetId()) != otherEnd )
2698 theSetOfCommon.insert( this );
2699 if ( _mapDepend.find(theOther->GetId()) != _mapDepend.end() )
2700 theSetOfCommon.insert( theOther );
2702 // check common submeshes
2703 map <int, SMESH_subMesh*>::const_iterator mapIt = _mapDepend.begin();
2704 for( ; mapIt != _mapDepend.end(); mapIt++ )
2705 if ( theOther->_mapDepend.find((*mapIt).first) != otherEnd )
2706 theSetOfCommon.insert( (*mapIt).second );
2707 return oldNb < theSetOfCommon.size();