1 // Copyright (C) 2007-2012 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.
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 : implementaion of SMESH idl descriptions
24 // File : SMESH_Gen.cxx
25 // Author : Paul RASCLE, EDF
31 #include "SMESH_Gen.hxx"
33 #include "SMDS_Mesh.hxx"
34 #include "SMDS_MeshElement.hxx"
35 #include "SMDS_MeshNode.hxx"
36 #include "SMESHDS_Document.hxx"
37 #include "SMESH_HypoFilter.hxx"
38 #include "SMESH_MesherHelper.hxx"
39 #include "SMESH_subMesh.hxx"
41 #include "utilities.h"
43 #include "Utils_ExceptHandlers.hxx"
45 #include <TopoDS_Iterator.hxx>
46 #include <LDOMParser.hxx>
56 //=============================================================================
60 //=============================================================================
62 SMESH_Gen::SMESH_Gen()
64 MESSAGE("SMESH_Gen::SMESH_Gen");
67 _segmentation = _nbSegments = 10;
68 SMDS_Mesh::_meshList.clear();
69 MESSAGE(SMDS_Mesh::_meshList.size());
70 _counters = new counters(100);
71 #ifdef WITH_SMESH_CANCEL_COMPUTE
72 _compute_canceled = false;
77 //=============================================================================
81 //=============================================================================
83 SMESH_Gen::~SMESH_Gen()
85 MESSAGE("SMESH_Gen::~SMESH_Gen");
88 //=============================================================================
90 * Creates a mesh in a study.
91 * if (theIsEmbeddedMode) { mesh modification commands are not logged }
93 //=============================================================================
95 SMESH_Mesh* SMESH_Gen::CreateMesh(int theStudyId, bool theIsEmbeddedMode)
96 throw(SALOME_Exception)
98 Unexpect aCatch(SalomeException);
99 MESSAGE("SMESH_Gen::CreateMesh");
101 // Get studyContext, create it if it does'nt exist, with a SMESHDS_Document
102 StudyContextStruct *aStudyContext = GetStudyContext(theStudyId);
104 // create a new SMESH_mesh object
105 SMESH_Mesh *aMesh = new SMESH_Mesh(_localId++,
109 aStudyContext->myDocument);
110 aStudyContext->mapMesh[_localId-1] = aMesh;
115 //=============================================================================
119 //=============================================================================
121 bool SMESH_Gen::Compute(SMESH_Mesh & aMesh,
122 const TopoDS_Shape & aShape,
124 const ::MeshDimension aDim,
125 TSetOfInt* aShapesId)
127 MESSAGE("SMESH_Gen::Compute");
132 SMESH_subMesh *sm = aMesh.GetSubMesh(aShape);
134 const bool includeSelf = true;
135 const bool complexShapeFirst = true;
136 const int globalAlgoDim = 100;
138 SMESH_subMeshIteratorPtr smIt;
140 if ( anUpward ) // is called from below code here
142 // -----------------------------------------------
143 // mesh all the sub-shapes starting from vertices
144 // -----------------------------------------------
145 smIt = sm->getDependsOnIterator(includeSelf, !complexShapeFirst);
146 while ( smIt->more() )
148 SMESH_subMesh* smToCompute = smIt->next();
150 // do not mesh vertices of a pseudo shape
151 const TopAbs_ShapeEnum aShType = smToCompute->GetSubShape().ShapeType();
152 if ( !aMesh.HasShapeToMesh() && aShType == TopAbs_VERTEX )
155 // check for preview dimension limitations
156 if ( aShapesId && GetShapeDim( aShType ) > (int)aDim )
158 // clear compute state to not show previous compute errors
159 // if preview invoked less dimension less than previous
160 smToCompute->ComputeStateEngine( SMESH_subMesh::CHECK_COMPUTE_STATE );
164 if (smToCompute->GetComputeState() == SMESH_subMesh::READY_TO_COMPUTE)
166 #ifdef WITH_SMESH_CANCEL_COMPUTE
167 if (_compute_canceled)
169 _sm_current = smToCompute;
171 smToCompute->ComputeStateEngine( SMESH_subMesh::COMPUTE );
172 #ifdef WITH_SMESH_CANCEL_COMPUTE
177 // we check all the submeshes here and detect if any of them failed to compute
178 if (smToCompute->GetComputeState() == SMESH_subMesh::FAILED_TO_COMPUTE)
180 else if ( aShapesId )
181 aShapesId->insert( smToCompute->GetId() );
183 //aMesh.GetMeshDS()->Modified();
188 // -----------------------------------------------------------------
189 // apply algos that DO NOT require Discreteized boundaries and DO NOT
190 // support submeshes, starting from the most complex shapes
191 // and collect submeshes with algos that DO support submeshes
192 // -----------------------------------------------------------------
193 list< SMESH_subMesh* > smWithAlgoSupportingSubmeshes;
195 // map to sort sm with same dim algos according to dim of
196 // the shape the algo assigned to (issue 0021217)
197 multimap< int, SMESH_subMesh* > shDim2sm;
198 multimap< int, SMESH_subMesh* >::reverse_iterator shDim2smIt;
199 TopoDS_Shape algoShape;
200 int prevShapeDim = -1;
202 smIt = sm->getDependsOnIterator(includeSelf, complexShapeFirst);
203 while ( smIt->more() )
205 SMESH_subMesh* smToCompute = smIt->next();
206 if ( smToCompute->GetComputeState() != SMESH_subMesh::READY_TO_COMPUTE )
209 const TopoDS_Shape& aSubShape = smToCompute->GetSubShape();
210 int aShapeDim = GetShapeDim( aSubShape );
211 if ( aShapeDim < 1 ) break;
213 // check for preview dimension limitations
214 if ( aShapesId && aShapeDim > (int)aDim )
217 SMESH_Algo* algo = GetAlgo( aMesh, aSubShape, &algoShape );
218 if ( algo && !algo->NeedDiscreteBoundary() )
220 if ( algo->SupportSubmeshes() )
222 // reload sub-meshes from shDim2sm into smWithAlgoSupportingSubmeshes
223 // so that more local algos to go first
224 if ( prevShapeDim != aShapeDim )
226 prevShapeDim = aShapeDim;
227 for ( shDim2smIt = shDim2sm.rbegin(); shDim2smIt != shDim2sm.rend(); ++shDim2smIt )
228 if ( shDim2smIt->first == globalAlgoDim )
229 smWithAlgoSupportingSubmeshes.push_back( shDim2smIt->second );
231 smWithAlgoSupportingSubmeshes.push_front( shDim2smIt->second );
234 // add smToCompute to shDim2sm map
235 if ( algoShape.IsSame( aMesh.GetShapeToMesh() ))
237 aShapeDim = globalAlgoDim; // to compute last
241 aShapeDim = GetShapeDim( algoShape );
242 if ( algoShape.ShapeType() == TopAbs_COMPOUND )
244 TopoDS_Iterator it( algoShape );
245 aShapeDim += GetShapeDim( it.Value() );
248 shDim2sm.insert( make_pair( aShapeDim, smToCompute ));
252 #ifdef WITH_SMESH_CANCEL_COMPUTE
253 if (_compute_canceled)
255 _sm_current = smToCompute;
257 smToCompute->ComputeStateEngine( SMESH_subMesh::COMPUTE );
258 #ifdef WITH_SMESH_CANCEL_COMPUTE
262 aShapesId->insert( smToCompute->GetId() );
266 // reload sub-meshes from shDim2sm into smWithAlgoSupportingSubmeshes
267 for ( shDim2smIt = shDim2sm.rbegin(); shDim2smIt != shDim2sm.rend(); ++shDim2smIt )
268 if ( shDim2smIt->first == globalAlgoDim )
269 smWithAlgoSupportingSubmeshes.push_back( shDim2smIt->second );
271 smWithAlgoSupportingSubmeshes.push_front( shDim2smIt->second );
273 // ------------------------------------------------------------
274 // sort list of submeshes according to mesh order
275 // ------------------------------------------------------------
276 aMesh.SortByMeshOrder( smWithAlgoSupportingSubmeshes );
278 // ------------------------------------------------------------
279 // compute submeshes under shapes with algos that DO NOT require
280 // Discreteized boundaries and DO support submeshes
281 // ------------------------------------------------------------
282 list< SMESH_subMesh* >::iterator subIt, subEnd;
283 subIt = smWithAlgoSupportingSubmeshes.begin();
284 subEnd = smWithAlgoSupportingSubmeshes.end();
285 // start from lower shapes
286 for ( ; subIt != subEnd; ++subIt )
290 // get a shape the algo is assigned to
291 if ( !GetAlgo( aMesh, sm->GetSubShape(), & algoShape ))
292 continue; // strange...
294 // look for more local algos
295 smIt = sm->getDependsOnIterator(!includeSelf, !complexShapeFirst);
296 while ( smIt->more() )
298 SMESH_subMesh* smToCompute = smIt->next();
300 const TopoDS_Shape& aSubShape = smToCompute->GetSubShape();
301 const int aShapeDim = GetShapeDim( aSubShape );
302 //if ( aSubShape.ShapeType() == TopAbs_VERTEX ) continue;
303 if ( aShapeDim < 1 ) continue;
305 // check for preview dimension limitations
306 if ( aShapesId && GetShapeDim( aSubShape.ShapeType() ) > (int)aDim )
309 SMESH_HypoFilter filter( SMESH_HypoFilter::IsAlgo() );
311 .And( SMESH_HypoFilter::IsApplicableTo( aSubShape ))
312 .And( SMESH_HypoFilter::IsMoreLocalThan( algoShape, aMesh ));
314 if ( SMESH_Algo* subAlgo = (SMESH_Algo*) aMesh.GetHypothesis( aSubShape, filter, true )) {
315 SMESH_Hypothesis::Hypothesis_Status status;
316 if ( subAlgo->CheckHypothesis( aMesh, aSubShape, status ))
317 // mesh a lower smToCompute starting from vertices
318 Compute( aMesh, aSubShape, /*anUpward=*/true, aDim, aShapesId );
322 // ----------------------------------------------------------
323 // apply the algos that do not require Discreteized boundaries
324 // ----------------------------------------------------------
325 for ( subIt = smWithAlgoSupportingSubmeshes.begin(); subIt != subEnd; ++subIt )
328 if ( sm->GetComputeState() == SMESH_subMesh::READY_TO_COMPUTE)
330 const TopAbs_ShapeEnum aShType = sm->GetSubShape().ShapeType();
331 // check for preview dimension limitations
332 if ( aShapesId && GetShapeDim( aShType ) > (int)aDim )
335 #ifdef WITH_SMESH_CANCEL_COMPUTE
336 if (_compute_canceled)
340 sm->ComputeStateEngine( SMESH_subMesh::COMPUTE );
341 #ifdef WITH_SMESH_CANCEL_COMPUTE
345 aShapesId->insert( sm->GetId() );
348 // -----------------------------------------------
349 // mesh the rest sub-shapes starting from vertices
350 // -----------------------------------------------
351 ret = Compute( aMesh, aShape, /*anUpward=*/true, aDim, aShapesId );
354 MESSAGE( "VSR - SMESH_Gen::Compute() finished, OK = " << ret);
357 SMESHDS_Mesh *myMesh = aMesh.GetMeshDS();
358 MESSAGE("*** compactMesh after compute");
359 myMesh->compactMesh();
361 // fix quadratic mesh by bending iternal links near concave boundary
362 if ( aShape.IsSame( aMesh.GetShapeToMesh() ) &&
363 !aShapesId ) // not preview
365 SMESH_MesherHelper aHelper( aMesh );
366 if ( aHelper.IsQuadraticMesh() != SMESH_MesherHelper::LINEAR )
368 aHelper.FixQuadraticElements( sm->GetComputeError() );
375 #ifdef WITH_SMESH_CANCEL_COMPUTE
376 //=============================================================================
378 * Prepare Compute a mesh
380 //=============================================================================
381 void SMESH_Gen::PrepareCompute(SMESH_Mesh & aMesh,
382 const TopoDS_Shape & aShape)
384 _compute_canceled = false;
387 //=============================================================================
389 * Cancel Compute a mesh
391 //=============================================================================
392 void SMESH_Gen::CancelCompute(SMESH_Mesh & aMesh,
393 const TopoDS_Shape & aShape)
395 _compute_canceled = true;
398 _sm_current->ComputeStateEngine( SMESH_subMesh::COMPUTE_CANCELED );
403 //=============================================================================
407 //=============================================================================
409 bool SMESH_Gen::Evaluate(SMESH_Mesh & aMesh,
410 const TopoDS_Shape & aShape,
411 MapShapeNbElems& aResMap,
413 TSetOfInt* aShapesId)
415 MESSAGE("SMESH_Gen::Evaluate");
419 SMESH_subMesh *sm = aMesh.GetSubMesh(aShape);
421 const bool includeSelf = true;
422 const bool complexShapeFirst = true;
423 SMESH_subMeshIteratorPtr smIt;
425 if ( anUpward ) { // is called from below code here
426 // -----------------------------------------------
427 // mesh all the sub-shapes starting from vertices
428 // -----------------------------------------------
429 smIt = sm->getDependsOnIterator(includeSelf, !complexShapeFirst);
430 while ( smIt->more() ) {
431 SMESH_subMesh* smToCompute = smIt->next();
433 // do not mesh vertices of a pseudo shape
434 const TopAbs_ShapeEnum aShType = smToCompute->GetSubShape().ShapeType();
435 //if ( !aMesh.HasShapeToMesh() && aShType == TopAbs_VERTEX )
437 if ( !aMesh.HasShapeToMesh() ) {
438 if( aShType == TopAbs_VERTEX || aShType == TopAbs_WIRE ||
439 aShType == TopAbs_SHELL )
443 smToCompute->Evaluate(aResMap);
445 aShapesId->insert( smToCompute->GetId() );
450 // -----------------------------------------------------------------
451 // apply algos that DO NOT require Discreteized boundaries and DO NOT
452 // support submeshes, starting from the most complex shapes
453 // and collect submeshes with algos that DO support submeshes
454 // -----------------------------------------------------------------
455 list< SMESH_subMesh* > smWithAlgoSupportingSubmeshes;
456 smIt = sm->getDependsOnIterator(includeSelf, complexShapeFirst);
457 while ( smIt->more() ) {
458 SMESH_subMesh* smToCompute = smIt->next();
459 const TopoDS_Shape& aSubShape = smToCompute->GetSubShape();
460 const int aShapeDim = GetShapeDim( aSubShape );
461 if ( aShapeDim < 1 ) break;
463 SMESH_Algo* algo = GetAlgo( aMesh, aSubShape );
464 if ( algo && !algo->NeedDiscreteBoundary() ) {
465 if ( algo->SupportSubmeshes() ) {
466 smWithAlgoSupportingSubmeshes.push_front( smToCompute );
469 smToCompute->Evaluate(aResMap);
471 aShapesId->insert( smToCompute->GetId() );
476 // ------------------------------------------------------------
477 // sort list of meshes according to mesh order
478 // ------------------------------------------------------------
479 aMesh.SortByMeshOrder( smWithAlgoSupportingSubmeshes );
481 // ------------------------------------------------------------
482 // compute submeshes under shapes with algos that DO NOT require
483 // Discreteized boundaries and DO support submeshes
484 // ------------------------------------------------------------
485 list< SMESH_subMesh* >::iterator subIt, subEnd;
486 subIt = smWithAlgoSupportingSubmeshes.begin();
487 subEnd = smWithAlgoSupportingSubmeshes.end();
488 // start from lower shapes
489 for ( ; subIt != subEnd; ++subIt ) {
492 // get a shape the algo is assigned to
493 TopoDS_Shape algoShape;
494 if ( !GetAlgo( aMesh, sm->GetSubShape(), & algoShape ))
495 continue; // strange...
497 // look for more local algos
498 smIt = sm->getDependsOnIterator(!includeSelf, !complexShapeFirst);
499 while ( smIt->more() ) {
500 SMESH_subMesh* smToCompute = smIt->next();
502 const TopoDS_Shape& aSubShape = smToCompute->GetSubShape();
503 const int aShapeDim = GetShapeDim( aSubShape );
504 if ( aShapeDim < 1 ) continue;
506 //const TopAbs_ShapeEnum aShType = smToCompute->GetSubShape().ShapeType();
508 SMESH_HypoFilter filter( SMESH_HypoFilter::IsAlgo() );
510 .And( SMESH_HypoFilter::IsApplicableTo( aSubShape ))
511 .And( SMESH_HypoFilter::IsMoreLocalThan( algoShape, aMesh ));
513 if ( SMESH_Algo* subAlgo = (SMESH_Algo*) aMesh.GetHypothesis( aSubShape, filter, true )) {
514 SMESH_Hypothesis::Hypothesis_Status status;
515 if ( subAlgo->CheckHypothesis( aMesh, aSubShape, status ))
516 // mesh a lower smToCompute starting from vertices
517 Evaluate( aMesh, aSubShape, aResMap, /*anUpward=*/true, aShapesId );
521 // ----------------------------------------------------------
522 // apply the algos that do not require Discreteized boundaries
523 // ----------------------------------------------------------
524 for ( subIt = smWithAlgoSupportingSubmeshes.begin(); subIt != subEnd; ++subIt )
527 sm->Evaluate(aResMap);
529 aShapesId->insert( sm->GetId() );
532 // -----------------------------------------------
533 // mesh the rest sub-shapes starting from vertices
534 // -----------------------------------------------
535 ret = Evaluate( aMesh, aShape, aResMap, /*anUpward=*/true, aShapesId );
538 MESSAGE( "VSR - SMESH_Gen::Evaluate() finished, OK = " << ret);
543 //=======================================================================
544 //function : checkConformIgnoredAlgos
546 //=======================================================================
548 static bool checkConformIgnoredAlgos(SMESH_Mesh& aMesh,
549 SMESH_subMesh* aSubMesh,
550 const SMESH_Algo* aGlobIgnoAlgo,
551 const SMESH_Algo* aLocIgnoAlgo,
553 set<SMESH_subMesh*>& aCheckedMap,
554 list< SMESH_Gen::TAlgoStateError > & theErrors)
557 if ( aSubMesh->GetSubShape().ShapeType() == TopAbs_VERTEX)
563 const list<const SMESHDS_Hypothesis*>& listHyp =
564 aMesh.GetMeshDS()->GetHypothesis( aSubMesh->GetSubShape() );
565 list<const SMESHDS_Hypothesis*>::const_iterator it=listHyp.begin();
566 for ( ; it != listHyp.end(); it++)
568 const SMESHDS_Hypothesis * aHyp = *it;
569 if (aHyp->GetType() == SMESHDS_Hypothesis::PARAM_ALGO)
572 const SMESH_Algo* algo = dynamic_cast<const SMESH_Algo*> (aHyp);
575 if ( aLocIgnoAlgo ) // algo is hidden by a local algo of upper dim
577 theErrors.push_back( SMESH_Gen::TAlgoStateError() );
578 theErrors.back().Set( SMESH_Hypothesis::HYP_HIDDEN_ALGO, algo, false );
579 INFOS( "Local <" << algo->GetName() << "> is hidden by local <"
580 << aLocIgnoAlgo->GetName() << ">");
584 bool isGlobal = (aMesh.IsMainShape( aSubMesh->GetSubShape() ));
585 int dim = algo->GetDim();
586 int aMaxGlobIgnoDim = ( aGlobIgnoAlgo ? aGlobIgnoAlgo->GetDim() : -1 );
588 if ( dim < aMaxGlobIgnoDim )
590 // algo is hidden by a global algo
591 theErrors.push_back( SMESH_Gen::TAlgoStateError() );
592 theErrors.back().Set( SMESH_Hypothesis::HYP_HIDDEN_ALGO, algo, true );
593 INFOS( ( isGlobal ? "Global" : "Local" )
594 << " <" << algo->GetName() << "> is hidden by global <"
595 << aGlobIgnoAlgo->GetName() << ">");
597 else if ( !algo->NeedDiscreteBoundary() && !isGlobal)
599 // local algo is not hidden and hides algos on sub-shapes
600 if (checkConform && !aSubMesh->IsConform( algo ))
603 checkConform = false; // no more check conformity
604 INFOS( "ERROR: Local <" << algo->GetName() <<
605 "> would produce not conform mesh: "
606 "<Not Conform Mesh Allowed> hypotesis is missing");
607 theErrors.push_back( SMESH_Gen::TAlgoStateError() );
608 theErrors.back().Set( SMESH_Hypothesis::HYP_NOTCONFORM, algo, false );
611 // sub-algos will be hidden by a local <algo>
612 SMESH_subMeshIteratorPtr revItSub =
613 aSubMesh->getDependsOnIterator( /*includeSelf=*/false, /*complexShapeFirst=*/true);
614 bool checkConform2 = false;
615 while ( revItSub->more() )
617 SMESH_subMesh* sm = revItSub->next();
618 checkConformIgnoredAlgos (aMesh, sm, aGlobIgnoAlgo,
619 algo, checkConform2, aCheckedMap, theErrors);
620 aCheckedMap.insert( sm );
629 //=======================================================================
630 //function : checkMissing
631 //purpose : notify on missing hypothesis
632 // Return false if algo or hipothesis is missing
633 //=======================================================================
635 static bool checkMissing(SMESH_Gen* aGen,
637 SMESH_subMesh* aSubMesh,
638 const int aTopAlgoDim,
640 const bool checkNoAlgo,
641 set<SMESH_subMesh*>& aCheckedMap,
642 list< SMESH_Gen::TAlgoStateError > & theErrors)
644 if ( aSubMesh->GetSubShape().ShapeType() == TopAbs_VERTEX ||
645 aCheckedMap.count( aSubMesh ))
648 //MESSAGE("=====checkMissing");
651 SMESH_Algo* algo = 0;
653 switch (aSubMesh->GetAlgoState())
655 case SMESH_subMesh::NO_ALGO: {
658 // should there be any algo?
659 int shapeDim = SMESH_Gen::GetShapeDim( aSubMesh->GetSubShape() );
660 if (aTopAlgoDim > shapeDim)
662 MESSAGE( "ERROR: " << shapeDim << "D algorithm is missing" );
664 theErrors.push_back( SMESH_Gen::TAlgoStateError() );
665 theErrors.back().Set( SMESH_Hypothesis::HYP_MISSING, shapeDim, true );
670 case SMESH_subMesh::MISSING_HYP: {
671 // notify if an algo missing hyp is attached to aSubMesh
672 algo = aGen->GetAlgo( aMesh, aSubMesh->GetSubShape() );
674 bool IsGlobalHypothesis = aGen->IsGlobalHypothesis( algo, aMesh );
675 if (!IsGlobalHypothesis || !globalChecked[ algo->GetDim() ])
677 TAlgoStateErrorName errName = SMESH_Hypothesis::HYP_MISSING;
678 SMESH_Hypothesis::Hypothesis_Status status;
679 algo->CheckHypothesis( aMesh, aSubMesh->GetSubShape(), status );
680 if ( status == SMESH_Hypothesis::HYP_BAD_PARAMETER ) {
681 MESSAGE( "ERROR: hypothesis of " << (IsGlobalHypothesis ? "Global " : "Local ")
682 << "<" << algo->GetName() << "> has a bad parameter value");
684 } else if ( status == SMESH_Hypothesis::HYP_BAD_GEOMETRY ) {
685 MESSAGE( "ERROR: " << (IsGlobalHypothesis ? "Global " : "Local ")
686 << "<" << algo->GetName() << "> assigned to mismatching geometry");
689 MESSAGE( "ERROR: " << (IsGlobalHypothesis ? "Global " : "Local ")
690 << "<" << algo->GetName() << "> misses some hypothesis");
692 if (IsGlobalHypothesis)
693 globalChecked[ algo->GetDim() ] = true;
694 theErrors.push_back( SMESH_Gen::TAlgoStateError() );
695 theErrors.back().Set( errName, algo, IsGlobalHypothesis );
700 case SMESH_subMesh::HYP_OK:
701 algo = aSubMesh->GetAlgo();
703 if (!algo->NeedDiscreteBoundary())
705 SMESH_subMeshIteratorPtr itsub = aSubMesh->getDependsOnIterator( /*includeSelf=*/false,
706 /*complexShapeFirst=*/false);
707 while ( itsub->more() )
708 aCheckedMap.insert( itsub->next() );
714 // do not check under algo that hides sub-algos or
715 // re-start checking NO_ALGO state
717 bool isTopLocalAlgo =
718 ( aTopAlgoDim <= algo->GetDim() && !aGen->IsGlobalHypothesis( algo, aMesh ));
719 if (!algo->NeedDiscreteBoundary() || isTopLocalAlgo)
721 bool checkNoAlgo2 = ( algo->NeedDiscreteBoundary() );
722 SMESH_subMeshIteratorPtr itsub = aSubMesh->getDependsOnIterator( /*includeSelf=*/false,
723 /*complexShapeFirst=*/false);
724 while ( itsub->more() )
726 // sub-meshes should not be checked further more
727 SMESH_subMesh* sm = itsub->next();
731 //check algo on sub-meshes
732 int aTopAlgoDim2 = algo->GetDim();
733 if (!checkMissing (aGen, aMesh, sm, aTopAlgoDim2,
734 globalChecked, checkNoAlgo2, aCheckedMap, theErrors))
737 if (sm->GetAlgoState() == SMESH_subMesh::NO_ALGO )
738 checkNoAlgo2 = false;
741 aCheckedMap.insert( sm );
747 //=======================================================================
748 //function : CheckAlgoState
749 //purpose : notify on bad state of attached algos, return false
750 // if Compute() would fail because of some algo bad state
751 //=======================================================================
753 bool SMESH_Gen::CheckAlgoState(SMESH_Mesh& aMesh, const TopoDS_Shape& aShape)
755 list< TAlgoStateError > errors;
756 return GetAlgoState( aMesh, aShape, errors );
759 //=======================================================================
760 //function : GetAlgoState
761 //purpose : notify on bad state of attached algos, return false
762 // if Compute() would fail because of some algo bad state
763 // theErrors list contains problems description
764 //=======================================================================
766 bool SMESH_Gen::GetAlgoState(SMESH_Mesh& theMesh,
767 const TopoDS_Shape& theShape,
768 list< TAlgoStateError > & theErrors)
770 //MESSAGE("SMESH_Gen::CheckAlgoState");
773 bool hasAlgo = false;
775 SMESH_subMesh* sm = theMesh.GetSubMesh(theShape);
776 const SMESHDS_Mesh* meshDS = theMesh.GetMeshDS();
777 TopoDS_Shape mainShape = meshDS->ShapeToMesh();
783 const SMESH_Algo* aGlobAlgoArr[] = {0,0,0,0};
785 const list<const SMESHDS_Hypothesis*>& listHyp = meshDS->GetHypothesis( mainShape );
786 list<const SMESHDS_Hypothesis*>::const_iterator it=listHyp.begin();
787 for ( ; it != listHyp.end(); it++)
789 const SMESHDS_Hypothesis * aHyp = *it;
790 if (aHyp->GetType() == SMESHDS_Hypothesis::PARAM_ALGO)
793 const SMESH_Algo* algo = dynamic_cast<const SMESH_Algo*> (aHyp);
796 int dim = algo->GetDim();
797 aGlobAlgoArr[ dim ] = algo;
802 // --------------------------------------------------------
803 // info on algos that will be ignored because of ones that
804 // don't NeedDiscreteBoundary() attached to super-shapes,
805 // check that a conform mesh will be produced
806 // --------------------------------------------------------
809 // find a global algo possibly hiding sub-algos
811 const SMESH_Algo* aGlobIgnoAlgo = 0;
812 for (dim = 3; dim > 0; dim--)
814 if (aGlobAlgoArr[ dim ] &&
815 !aGlobAlgoArr[ dim ]->NeedDiscreteBoundary())
817 aGlobIgnoAlgo = aGlobAlgoArr[ dim ];
822 set<SMESH_subMesh*> aCheckedSubs;
823 bool checkConform = ( !theMesh.IsNotConformAllowed() );
825 // loop on theShape and its sub-shapes
826 SMESH_subMeshIteratorPtr revItSub = sm->getDependsOnIterator( /*includeSelf=*/true,
827 /*complexShapeFirst=*/true);
828 while ( revItSub->more() )
830 SMESH_subMesh* smToCheck = revItSub->next();
831 if ( smToCheck->GetSubShape().ShapeType() == TopAbs_VERTEX)
834 if ( aCheckedSubs.insert( smToCheck ).second ) // not yet checked
835 if (!checkConformIgnoredAlgos (theMesh, smToCheck, aGlobIgnoAlgo,
836 0, checkConform, aCheckedSubs, theErrors))
839 if ( smToCheck->GetAlgoState() != SMESH_subMesh::NO_ALGO )
843 // ----------------------------------------------------------------
844 // info on missing hypothesis and find out if all needed algos are
846 // ----------------------------------------------------------------
848 //MESSAGE( "---info on missing hypothesis and find out if all needed algos are");
850 // find max dim of global algo
852 for (dim = 3; dim > 0; dim--)
854 if (aGlobAlgoArr[ dim ])
860 bool checkNoAlgo = theMesh.HasShapeToMesh() ? bool( aTopAlgoDim ) : false;
861 bool globalChecked[] = { false, false, false, false };
863 // loop on theShape and its sub-shapes
864 aCheckedSubs.clear();
865 revItSub = sm->getDependsOnIterator( /*includeSelf=*/true, /*complexShapeFirst=*/true);
866 while ( revItSub->more() )
868 SMESH_subMesh* smToCheck = revItSub->next();
869 if ( smToCheck->GetSubShape().ShapeType() == TopAbs_VERTEX)
872 if ( aCheckedSubs.insert( smToCheck ).second ) // not yet checked
873 if (!checkMissing (this, theMesh, smToCheck, aTopAlgoDim,
874 globalChecked, checkNoAlgo, aCheckedSubs, theErrors))
877 if (smToCheck->GetAlgoState() == SMESH_subMesh::NO_ALGO )
884 INFOS( "None algorithm attached" );
885 theErrors.push_back( TAlgoStateError() );
886 theErrors.back().Set( SMESH_Hypothesis::HYP_MISSING, 1, true );
892 //=======================================================================
893 //function : IsGlobalHypothesis
894 //purpose : check if theAlgo is attached to the main shape
895 //=======================================================================
897 bool SMESH_Gen::IsGlobalHypothesis(const SMESH_Hypothesis* theHyp, SMESH_Mesh& aMesh)
899 SMESH_HypoFilter filter( SMESH_HypoFilter::Is( theHyp ));
900 return aMesh.GetHypothesis( aMesh.GetMeshDS()->ShapeToMesh(), filter, false );
903 //================================================================================
905 * \brief Return paths to xml files of plugins
907 //================================================================================
909 std::vector< std::string > SMESH_Gen::GetPluginXMLPaths()
911 // Get paths to xml files of plugins
912 vector< string > xmlPaths;
914 if ( const char* meshersList = getenv("SMESH_MeshersList") )
916 string meshers = meshersList, plugin;
917 string::size_type from = 0, pos;
918 while ( from < meshers.size() )
920 // cut off plugin name
921 pos = meshers.find( ':', from );
922 if ( pos != string::npos )
923 plugin = meshers.substr( from, pos-from );
925 plugin = meshers.substr( from ), pos = meshers.size();
928 // get PLUGIN_ROOT_DIR path
929 string rootDirVar, pluginSubDir = plugin;
930 if ( plugin == "StdMeshers" )
931 rootDirVar = "SMESH", pluginSubDir = "smesh";
933 for ( pos = 0; pos < plugin.size(); ++pos )
934 rootDirVar += toupper( plugin[pos] );
935 rootDirVar += "_ROOT_DIR";
937 const char* rootDir = getenv( rootDirVar.c_str() );
938 if ( !rootDir || strlen(rootDir) == 0 )
940 rootDirVar = plugin + "_ROOT_DIR"; // HexoticPLUGIN_ROOT_DIR
941 rootDir = getenv( rootDirVar.c_str() );
942 if ( !rootDir || strlen(rootDir) == 0 ) continue;
945 // get a separator from rootDir
946 for ( pos = strlen( rootDir )-1; pos >= 0 && sep.empty(); --pos )
947 if ( rootDir[pos] == '/' || rootDir[pos] == '\\' )
953 if (sep.empty() ) sep = "\\";
955 if (sep.empty() ) sep = "/";
958 // get a path to resource file
959 string xmlPath = rootDir;
960 if ( xmlPath[ xmlPath.size()-1 ] != sep[0] )
962 xmlPath += "share" + sep + "salome" + sep + "resources" + sep;
963 for ( pos = 0; pos < pluginSubDir.size(); ++pos )
964 xmlPath += tolower( pluginSubDir[pos] );
965 xmlPath += sep + plugin + ".xml";
968 fileOK = (GetFileAttributes(xmlPath.c_str()) != INVALID_FILE_ATTRIBUTES);
970 fileOK = (access(xmlPath.c_str(), F_OK) == 0);
973 xmlPaths.push_back( xmlPath );
980 //=======================================================================
981 namespace // Access to type of input and output of an algorithm
982 //=======================================================================
987 set<SMDSAbs_GeometryType> _inElemTypes; // acceptable types of input mesh element
988 set<SMDSAbs_GeometryType> _outElemTypes; // produced types of mesh elements
990 bool IsCompatible( const AlgoData& algo2 ) const
992 if ( _dim > algo2._dim ) return algo2.IsCompatible( *this );
993 // algo2 is of highter dimension
994 if ( _outElemTypes.empty() || algo2._inElemTypes.empty() )
996 bool compatible = true;
997 set<SMDSAbs_GeometryType>::const_iterator myOutType = _outElemTypes.begin();
998 for ( ; myOutType != _outElemTypes.end() && compatible; ++myOutType )
999 compatible = algo2._inElemTypes.count( *myOutType );
1004 //================================================================================
1006 * \brief Return AlgoData of the algorithm
1008 //================================================================================
1010 const AlgoData& getAlgoData( const SMESH_Algo* algo )
1012 static map< string, AlgoData > theDataByName;
1013 if ( theDataByName.empty() )
1015 // Read Plugin.xml files
1016 vector< string > xmlPaths = SMESH_Gen::GetPluginXMLPaths();
1017 LDOMParser xmlParser;
1018 for ( size_t iXML = 0; iXML < xmlPaths.size(); ++iXML )
1020 bool error = xmlParser.parse( xmlPaths[iXML].c_str() );
1023 TCollection_AsciiString data;
1024 INFOS( xmlParser.GetError(data) );
1027 // <algorithm type="Regular_1D"
1030 // output="QUAD,TRIA">
1032 LDOM_Document xmlDoc = xmlParser.getDocument();
1033 LDOM_NodeList algoNodeList = xmlDoc.getElementsByTagName( "algorithm" );
1034 for ( int i = 0; i < algoNodeList.getLength(); ++i )
1036 LDOM_Node algoNode = algoNodeList.item( i );
1037 LDOM_Element& algoElem = (LDOM_Element&) algoNode;
1038 TCollection_AsciiString algoType = algoElem.getAttribute("type");
1039 TCollection_AsciiString input = algoElem.getAttribute("input");
1040 TCollection_AsciiString output = algoElem.getAttribute("output");
1041 TCollection_AsciiString dim = algoElem.getAttribute("dim");
1042 if ( algoType.IsEmpty() ) continue;
1043 AlgoData & data = theDataByName[ algoType.ToCString() ];
1044 data._dim = dim.IntegerValue();
1045 for ( int isInput = 0; isInput < 2; ++isInput )
1047 TCollection_AsciiString& typeStr = isInput ? input : output;
1048 set<SMDSAbs_GeometryType>& typeSet = isInput ? data._inElemTypes : data._outElemTypes;
1050 while ( beg <= typeStr.Length() )
1052 while ( beg < typeStr.Length() && !isalpha( typeStr.Value( beg ) ))
1055 while ( end < typeStr.Length() && isalpha( typeStr.Value( end + 1 ) ))
1059 TCollection_AsciiString typeName = typeStr.SubString( beg, end );
1060 if ( typeName == "EDGE" ) typeSet.insert( SMDSGeom_EDGE );
1061 else if ( typeName == "TRIA" ) typeSet.insert( SMDSGeom_TRIANGLE );
1062 else if ( typeName == "QUAD" ) typeSet.insert( SMDSGeom_QUADRANGLE );
1070 return theDataByName[ algo->GetName() ];
1074 //=============================================================================
1076 * Finds algo to mesh a shape. Optionally returns a shape the found algo is bound to
1078 //=============================================================================
1080 SMESH_Algo *SMESH_Gen::GetAlgo(SMESH_Mesh & aMesh,
1081 const TopoDS_Shape & aShape,
1082 TopoDS_Shape* assignedTo)
1084 SMESH_HypoFilter filter( SMESH_HypoFilter::IsAlgo() );
1085 filter.And( filter.IsApplicableTo( aShape ));
1087 TopoDS_Shape assignedToShape;
1089 (SMESH_Algo*) aMesh.GetHypothesis( aShape, filter, true, &assignedToShape );
1092 aShape.ShapeType() == TopAbs_FACE &&
1093 !aShape.IsSame( assignedToShape ) &&
1094 SMESH_MesherHelper::NbAncestors( aShape, aMesh, TopAbs_SOLID ) > 1 )
1096 // Issue 0021559. If there is another 2D algo with different types of output
1097 // elements that can be used to mesh aShape, and 3D algos on adjacent SOLIDs
1098 // have different types of input elements, we choose a most appropriate 2D algo.
1100 // try to find a concurrent 2D algo
1101 filter.AndNot( filter.Is( algo ));
1102 TopoDS_Shape assignedToShape2;
1104 (SMESH_Algo*) aMesh.GetHypothesis( aShape, filter, true, &assignedToShape2 );
1105 if ( algo2 && // algo found
1106 !assignedToShape2.IsSame( aMesh.GetShapeToMesh() ) && // algo is local
1107 ( SMESH_MesherHelper::GetGroupType( assignedToShape2 ) == // algo of the same level
1108 SMESH_MesherHelper::GetGroupType( assignedToShape )) &&
1109 aMesh.IsOrderOK( aMesh.GetSubMesh( assignedToShape2 ), // no forced order
1110 aMesh.GetSubMesh( assignedToShape )))
1112 // get algos on the adjacent SOLIDs
1113 filter.Init( filter.IsAlgo() ).And( filter.HasDim( 3 ));
1114 vector< SMESH_Algo* > algos3D;
1115 PShapeIteratorPtr solidIt = SMESH_MesherHelper::GetAncestors( aShape, aMesh,
1117 while ( const TopoDS_Shape* solid = solidIt->next() )
1118 if ( SMESH_Algo* algo3D = (SMESH_Algo*) aMesh.GetHypothesis( *solid, filter, true ))
1120 algos3D.push_back( algo3D );
1121 filter.AndNot( filter.HasName( algo3D->GetName() ));
1123 // check compatibility of algos
1124 if ( algos3D.size() > 1 )
1126 const AlgoData& algoData = getAlgoData( algo );
1127 const AlgoData& algoData2 = getAlgoData( algo2 );
1128 const AlgoData& algoData3d0 = getAlgoData( algos3D[0] );
1129 const AlgoData& algoData3d1 = getAlgoData( algos3D[1] );
1130 if (( algoData2.IsCompatible( algoData3d0 ) &&
1131 algoData2.IsCompatible( algoData3d1 ))
1133 !(algoData.IsCompatible( algoData3d0 ) &&
1134 algoData.IsCompatible( algoData3d1 )))
1140 if ( assignedTo && algo )
1141 * assignedTo = assignedToShape;
1146 //=============================================================================
1148 * Returns StudyContextStruct for a study
1150 //=============================================================================
1152 StudyContextStruct *SMESH_Gen::GetStudyContext(int studyId)
1154 // Get studyContext, create it if it does'nt exist, with a SMESHDS_Document
1156 if (_mapStudyContext.find(studyId) == _mapStudyContext.end())
1158 _mapStudyContext[studyId] = new StudyContextStruct;
1159 _mapStudyContext[studyId]->myDocument = new SMESHDS_Document(studyId);
1161 StudyContextStruct *myStudyContext = _mapStudyContext[studyId];
1162 return myStudyContext;
1165 //================================================================================
1167 * \brief Return shape dimension by TopAbs_ShapeEnum
1169 //================================================================================
1171 int SMESH_Gen::GetShapeDim(const TopAbs_ShapeEnum & aShapeType)
1173 static vector<int> dim;
1176 dim.resize( TopAbs_SHAPE, -1 );
1177 dim[ TopAbs_COMPOUND ] = MeshDim_3D;
1178 dim[ TopAbs_COMPSOLID ] = MeshDim_3D;
1179 dim[ TopAbs_SOLID ] = MeshDim_3D;
1180 dim[ TopAbs_SHELL ] = MeshDim_2D;
1181 dim[ TopAbs_FACE ] = MeshDim_2D;
1182 dim[ TopAbs_WIRE ] = MeshDim_1D;
1183 dim[ TopAbs_EDGE ] = MeshDim_1D;
1184 dim[ TopAbs_VERTEX ] = MeshDim_0D;
1186 return dim[ aShapeType ];
1189 //=============================================================================
1191 * Genarate a new id unique withing this Gen
1193 //=============================================================================
1195 int SMESH_Gen::GetANewId()