From: eap Date: Fri, 12 Jul 2019 12:15:38 +0000 (+0300) Subject: IPAL54529: Hexahedron(ijk) fails on a block with composite sides if Viscous Layers... X-Git-Tag: V9_4_0a1~23 X-Git-Url: http://git.salome-platform.org/gitweb/?a=commitdiff_plain;h=a87bde2a084268d40af501d4b8b5c9e8d48c8323;p=modules%2Fsmesh.git IPAL54529: Hexahedron(ijk) fails on a block with composite sides if Viscous Layers assigned + In Create Mesh dialog define enabled tabs by SMESH_Algo::IsApplicable( shape ) + Extract SMESH_Indexer from StdMeshers_HexaFromSkin_3D.cxx --- diff --git a/doc/salome/examples/defining_hypotheses_ex14.py b/doc/salome/examples/defining_hypotheses_ex14.py index b0ef9f6af..d33e1e155 100644 --- a/doc/salome/examples/defining_hypotheses_ex14.py +++ b/doc/salome/examples/defining_hypotheses_ex14.py @@ -2,11 +2,10 @@ import salome salome.salome_init() -import GEOM + from salome.geom import geomBuilder geompy = geomBuilder.New() -import SMESH, SALOMEDS from salome.smesh import smeshBuilder smesh = smeshBuilder.New() @@ -14,20 +13,20 @@ smesh = smeshBuilder.New() Box_1 = geompy.MakeBoxDXDYDZ(100, 100, 100) Disk_1 = geompy.MakeDiskR(100, 1) Common_1 = geompy.MakeCommon(Disk_1, Box_1) -geompy.addToStudy( Disk_1, "Disk_1" ) -geompy.addToStudy( Box_1, "Box_1" ) +triaVertex = geompy.GetVertexNearPoint( Common_1, geompy.MakeVertex(0,0,0) ) geompy.addToStudy( Common_1, "Common_1" ) +geompy.addToStudyInFather( Common_1, triaVertex, "triaVertex" ) + # Set the Geometry for meshing Mesh_1 = smesh.Mesh(Common_1) - -# Define 1D hypothesis and compute the mesh +# Define 1D hypothesis Regular_1D = Mesh_1.Segment() Nb_Segments_1 = Regular_1D.NumberOfSegments(10) -Nb_Segments_1.SetDistrType( 0 ) # Create Quadrangle parameters and define the Base Vertex. -Quadrangle_2D = Mesh_1.Quadrangle().TriangleVertex( 8 ) +Quadrangle_2D = Mesh_1.Quadrangle().TriangleVertex( triaVertex ) +# Compute the mesh Mesh_1.Compute() diff --git a/doc/salome/examples/defining_hypotheses_ex15.py b/doc/salome/examples/defining_hypotheses_ex15.py index 80b430e2a..5a32a1da5 100644 --- a/doc/salome/examples/defining_hypotheses_ex15.py +++ b/doc/salome/examples/defining_hypotheses_ex15.py @@ -2,14 +2,10 @@ import salome salome.salome_init() -import GEOM from salome.geom import geomBuilder geompy = geomBuilder.New() - -import SMESH, SALOMEDS from salome.smesh import smeshBuilder smesh = smeshBuilder.New() -from salome.StdMeshers import StdMeshersBuilder # Make quadrangle face and explode it on edges. Vertex_1 = geompy.MakeVertex(0, 0, 0) @@ -18,10 +14,6 @@ Vertex_3 = geompy.MakeVertex(40, 30, 0) Vertex_4 = geompy.MakeVertex(0, 30, 0) Quadrangle_Face_1 = geompy.MakeQuad4Vertices(Vertex_1, Vertex_4, Vertex_3, Vertex_2) [Edge_1,Edge_2,Edge_3,Edge_4] = geompy.SubShapeAllSorted(Quadrangle_Face_1, geompy.ShapeType["EDGE"]) -geompy.addToStudy( Vertex_1, "Vertex_1" ) -geompy.addToStudy( Vertex_2, "Vertex_2" ) -geompy.addToStudy( Vertex_3, "Vertex_3" ) -geompy.addToStudy( Vertex_4, "Vertex_4" ) geompy.addToStudy( Quadrangle_Face_1, "Quadrangle Face_1" ) geompy.addToStudyInFather( Quadrangle_Face_1, Edge_2, "Edge_2" ) @@ -30,25 +22,20 @@ Mesh_1 = smesh.Mesh(Quadrangle_Face_1) # Create Quadrangle parameters and # define the Type as Quadrangle Preference -Quadrangle_Parameters_1 = smesh.CreateHypothesis('QuadrangleParams') -Quadrangle_Parameters_1.SetQuadType( StdMeshersBuilder.QUAD_QUADRANGLE_PREF ) +Quad_algo = Mesh_1.Quadrangle() +Quadrangle_Parameters_1 = Quad_algo.QuadrangleParameters( smeshBuilder.QUAD_QUADRANGLE_PREF ) # Define other hypotheses and algorithms Regular_1D = Mesh_1.Segment() Nb_Segments_1 = Regular_1D.NumberOfSegments(4) -Nb_Segments_1.SetDistrType( 0 ) -status = Mesh_1.AddHypothesis(Quadrangle_Parameters_1) -Quadrangle_2D = Mesh_1.Quadrangle() # Define submesh on one edge to provide different number of segments Regular_1D_1 = Mesh_1.Segment(geom=Edge_2) Nb_Segments_2 = Regular_1D_1.NumberOfSegments(10) -Nb_Segments_2.SetDistrType( 0 ) -SubMesh_1 = Regular_1D_1.GetSubMesh() # Compute mesh (with Quadrangle Preference type) isDone = Mesh_1.Compute() # Change type to Reduced and compute again -Quadrangle_Parameters_1.SetQuadType( StdMeshersBuilder.QUAD_REDUCED ) +Quadrangle_Parameters_1.SetQuadType( smeshBuilder.QUAD_REDUCED ) isDone = Mesh_1.Compute() diff --git a/src/SMESH/SMESH_Algo.hxx b/src/SMESH/SMESH_Algo.hxx index e35a47120..85ba38426 100644 --- a/src/SMESH/SMESH_Algo.hxx +++ b/src/SMESH/SMESH_Algo.hxx @@ -89,6 +89,7 @@ class SMESH_EXPORT SMESH_Algo : public SMESH_Hypothesis std::set _outElemTypes; // produced types of mesh elements std::string _label; // GUI type name + Features(): _dim( -1 ) {} bool IsCompatible( const Features& algo2 ) const; }; /*! diff --git a/src/SMESHGUI/SMESHGUI_Hypotheses.cxx b/src/SMESHGUI/SMESHGUI_Hypotheses.cxx index db3aa0e48..5940ed795 100644 --- a/src/SMESHGUI/SMESHGUI_Hypotheses.cxx +++ b/src/SMESHGUI/SMESHGUI_Hypotheses.cxx @@ -830,7 +830,7 @@ bool HypothesesSet::isAlgo() const void HypothesesSet::init( bool isAlgo ) { myIsAlgo = isAlgo; - myIndex = -1; + myIndex = 0; } bool HypothesesSet::more() const @@ -864,8 +864,7 @@ int HypothesesSet::maxDim() const int dim = -1; for ( int isAlgo = 0; isAlgo < 2; ++isAlgo ) { - thisSet->init( isAlgo ); - while ( thisSet->next(), thisSet->more() ) + for ( thisSet->init( isAlgo ); thisSet->more(); thisSet->next() ) if ( HypothesisData* hypData = SMESH::GetHypothesisData( thisSet->current() )) for ( int i = 0; i < hypData->Dim.count(); ++i ) dim = qMax( dim, hypData->Dim[i] ); diff --git a/src/SMESHGUI/SMESHGUI_Hypotheses.h b/src/SMESHGUI/SMESHGUI_Hypotheses.h index 14858061e..e75b82262 100644 --- a/src/SMESHGUI/SMESHGUI_Hypotheses.h +++ b/src/SMESHGUI/SMESHGUI_Hypotheses.h @@ -228,9 +228,8 @@ public: bool isAlgo() const; - //this method sets internal index to -1, thus before any data access it is necessary to call next() + // CASCADE-like iteration void init( bool ); - bool more() const; void next(); QString current() const; diff --git a/src/SMESHGUI/SMESHGUI_HypothesesUtils.cxx b/src/SMESHGUI/SMESHGUI_HypothesesUtils.cxx index 96055aa7e..eaaad911c 100644 --- a/src/SMESHGUI/SMESHGUI_HypothesesUtils.cxx +++ b/src/SMESHGUI/SMESHGUI_HypothesesUtils.cxx @@ -668,7 +668,7 @@ namespace SMESH int res = SMESH::HYP_UNKNOWN_FATAL; SUIT_OverrideCursor wc; - if (!aSubMesh->_is_nil() && ! aHyp->_is_nil()) { + if ( !aSubMesh->_is_nil() && !aHyp->_is_nil() ) { try { SMESH::SMESH_Mesh_var aMesh = aSubMesh->GetFather(); _PTR(SObject) SsubM = SMESH::FindSObject(aSubMesh); diff --git a/src/SMESHGUI/SMESHGUI_MeshDlg.cxx b/src/SMESHGUI/SMESHGUI_MeshDlg.cxx index adc8a64bf..a1ee4ec9f 100644 --- a/src/SMESHGUI/SMESHGUI_MeshDlg.cxx +++ b/src/SMESHGUI/SMESHGUI_MeshDlg.cxx @@ -828,6 +828,17 @@ bool SMESHGUI_MeshDlg::isTabEnabled(const int theTabId) const return myTabWg->isTabEnabled( myTabWg->indexOf( myTabs[ theTabId ] ) ); } +//================================================================================ +/*! + * \brief Return index of a current tab + * \return tab ID + */ +//================================================================================ +int SMESHGUI_MeshDlg::currentTab() const +{ + return Dim3D - myTabWg->currentIndex(); +} + //================================================================================ /*! * \brief SLOT called when a Geom selection button is clicked @@ -900,5 +911,8 @@ int SMESHGUI_MeshDlg::currentMeshType( ) //================================================================================ void SMESHGUI_MeshDlg::setCurrentMeshType( const int theIndex ) { - myMeshType->setCurrentIndex( theIndex ); + if ( theIndex < myMeshType->count() ) + myMeshType->setCurrentIndex( theIndex ); + else + myMeshType->setCurrentIndex( 0 ); } diff --git a/src/SMESHGUI/SMESHGUI_MeshDlg.h b/src/SMESHGUI/SMESHGUI_MeshDlg.h index d079956ff..3dd5b0697 100644 --- a/src/SMESHGUI/SMESHGUI_MeshDlg.h +++ b/src/SMESHGUI/SMESHGUI_MeshDlg.h @@ -66,20 +66,23 @@ public: SMESHGUI_MeshDlg( const bool, const bool ); virtual ~SMESHGUI_MeshDlg(); - SMESHGUI_MeshTab* tab( const int ) const; void reset(); - void setCurrentTab( const int ); - void setMaxHypoDim( const int ); + void setTitile( const bool, const bool ); void setHypoSets( const QStringList& ); void setGeomPopupEnabled( const bool ); - void disableTab(const int); + int getActiveObject(); + + SMESHGUI_MeshTab* tab( const int ) const; void enableTab(const int); + void disableTab(const int); bool isTabEnabled(const int) const; - int getActiveObject(); + void setCurrentTab( const int ); + int currentTab() const; + void setMaxHypoDim( const int ); + void setAvailableMeshType(const QStringList& ); - int currentMeshType(); void setCurrentMeshType( const int ); - void setTitile( const bool, const bool ); + int currentMeshType(); signals: void hypoSet( const QString& ); diff --git a/src/SMESHGUI/SMESHGUI_MeshOp.cxx b/src/SMESHGUI/SMESHGUI_MeshOp.cxx index a49979d62..5d097f23b 100644 --- a/src/SMESHGUI/SMESHGUI_MeshOp.cxx +++ b/src/SMESHGUI/SMESHGUI_MeshOp.cxx @@ -73,10 +73,6 @@ #include #include -// IDL includes -#include -#include CORBA_CLIENT_HEADER(SMESH_Gen) - //================================================================================ /*! * \brief Constructor @@ -92,8 +88,7 @@ SMESHGUI_MeshOp::SMESHGUI_MeshOp( const bool theToCreate, const bool theIsMesh ) myShapeByMeshOp( 0 ), myToCreate( theToCreate ), myIsMesh( theIsMesh ), - myIsInvalidSubMesh( false ), - myHypoSet( 0 ) + myIsInvalidSubMesh( false ) { if ( GeometryGUI::GetGeomGen()->_is_nil() )// check that GEOM_Gen exists GeometryGUI::InitGeomGen(); @@ -218,6 +213,7 @@ void SMESHGUI_MeshOp::startOperation() connect( myDlg, SIGNAL( hypoSet( const QString& )), SLOT( onHypoSet( const QString& ))); connect( myDlg, SIGNAL( geomSelectionByMesh( bool )), SLOT( onGeomSelectionByMesh( bool ))); connect( myDlg, SIGNAL( selectMeshType( const int, const int ) ), SLOT( onAlgoSetByMeshType( const int, const int))); + if ( myToCreate ) { if ( myIsMesh ) myHelpFileName = "constructing_meshes.html"; else myHelpFileName = "constructing_submeshes.html"; @@ -227,22 +223,20 @@ void SMESHGUI_MeshOp::startOperation() } } SMESHGUI_SelectionOp::startOperation(); - // iterate through dimensions and get available algorithms, set them to the dialog - _PTR(SComponent) aFather = SMESH::getStudy()->FindComponent( "SMESH" ); + + // clear available hypotheses + QStringList hypList; for ( int i = SMESH::DIM_0D; i <= SMESH::DIM_3D; i++ ) { SMESHGUI_MeshTab* aTab = myDlg->tab( i ); - QStringList hypList; - // clear available hypotheses + // set algos + aTab->setAvailableHyps( Algo, hypList ); aTab->setAvailableHyps( MainHyp, hypList ); aTab->setAvailableHyps( AddHyp, hypList ); aTab->setExistingHyps( MainHyp, hypList ); aTab->setExistingHyps( AddHyp, hypList ); myExistingHyps[ i ][ MainHyp ].clear(); myExistingHyps[ i ][ AddHyp ].clear(); - // set algos - availableHyps( i, Algo, hypList, myAvailableHypData[i][Algo] ); - aTab->setAvailableHyps( Algo, hypList ); } if ( myToCreate ) { @@ -253,18 +247,17 @@ void SMESHGUI_MeshOp::startOperation() { myDlg->activateObject( SMESHGUI_MeshDlg::Obj ); } - myDlg->setCurrentTab( SMESH::DIM_3D ); - QStringList TypeMeshList; - createMeshTypeList( TypeMeshList ); - setAvailableMeshType( TypeMeshList ); + updateMeshTypeList(); + myDlg->setCurrentMeshType( MT_ANY ); - myDlg->show(); + myDlg->setCurrentTab( SMESH::DIM_3D ); myDlg->setGeomPopupEnabled(false); + myDlg->show(); + selectionDone(); myHasConcurrentSubBefore = false; - myObjectToSelect.clear(); } @@ -446,7 +439,7 @@ char* SMESHGUI_MeshOp::isSubmeshIgnored() const !algo->IsSupportSubmeshes ) return CORBA::string_dup( algoNames[0].toUtf8().data() ); } -// } + // } } } return 0; @@ -460,42 +453,37 @@ char* SMESHGUI_MeshOp::isSubmeshIgnored() const //================================================================================ _PTR(SObject) SMESHGUI_MeshOp::getSubmeshByGeom() const { - QString aMeshEntry = myDlg->selectedObject( SMESHGUI_MeshDlg::Mesh ); - QString aGeomEntry = myDlg->selectedObject( SMESHGUI_MeshDlg::Geom ); + QString aMeshEntry = myDlg->selectedObject( SMESHGUI_MeshDlg::Mesh ); _PTR(SObject) pMesh = SMESH::getStudy()->FindObjectID( aMeshEntry.toUtf8().data() ); - _PTR(SObject) pGeom = SMESH::getStudy()->FindObjectID( aGeomEntry.toUtf8().data() ); - if ( pMesh && pGeom ) { - GEOM::GEOM_Object_var geom = SMESH::SObjectToInterface( pGeom ); - if ( !geom->_is_nil() ) { - int tag = -1; - switch ( geom->GetShapeType() ) { - case GEOM::VERTEX: tag = SMESH::Tag_SubMeshOnVertex; break; - case GEOM::EDGE: tag = SMESH::Tag_SubMeshOnEdge; break; - case GEOM::WIRE: tag = SMESH::Tag_SubMeshOnWire; break; - case GEOM::FACE: tag = SMESH::Tag_SubMeshOnFace; break; - case GEOM::SHELL: tag = SMESH::Tag_SubMeshOnShell; break; - case GEOM::SOLID: tag = SMESH::Tag_SubMeshOnSolid; break; - case GEOM::COMPOUND: tag = SMESH::Tag_SubMeshOnCompound; break; - default:; - } - _PTR(GenericAttribute) anAttr; - _PTR(SObject) aSubmeshRoot; - _PTR(Study) aStudy = SMESH::getStudy(); - if ( pMesh->FindSubObject( tag, aSubmeshRoot ) ) + if ( pMesh && !myGeom->_is_nil() ) { + int tag = -1; + switch ( myGeom->GetShapeType() ) { + case GEOM::VERTEX: tag = SMESH::Tag_SubMeshOnVertex; break; + case GEOM::EDGE: tag = SMESH::Tag_SubMeshOnEdge; break; + case GEOM::WIRE: tag = SMESH::Tag_SubMeshOnWire; break; + case GEOM::FACE: tag = SMESH::Tag_SubMeshOnFace; break; + case GEOM::SHELL: tag = SMESH::Tag_SubMeshOnShell; break; + case GEOM::SOLID: tag = SMESH::Tag_SubMeshOnSolid; break; + case GEOM::COMPOUND: tag = SMESH::Tag_SubMeshOnCompound; break; + default:; + } + _PTR(GenericAttribute) anAttr; + _PTR(SObject) aSubmeshRoot; + _PTR(Study) aStudy = SMESH::getStudy(); + if ( pMesh->FindSubObject( tag, aSubmeshRoot ) ) + { + _PTR(ChildIterator) smIter = aStudy->NewChildIterator( aSubmeshRoot ); + for ( ; smIter->More(); smIter->Next() ) { - _PTR(ChildIterator) smIter = aStudy->NewChildIterator( aSubmeshRoot ); - for ( ; smIter->More(); smIter->Next() ) - { - _PTR(SObject) aSmObj = smIter->Value(); - if ( ! aSmObj->FindAttribute( anAttr, "AttributeIOR" )) - continue; - _PTR(ChildIterator) anIter1 = aStudy->NewChildIterator(aSmObj); - for ( ; anIter1->More(); anIter1->Next()) { - _PTR(SObject) pGeom2 = anIter1->Value(); - if ( pGeom2->ReferencedObject( pGeom2 ) && - pGeom2->GetID() == pGeom->GetID() ) - return aSmObj; - } + _PTR(SObject) aSmObj = smIter->Value(); + if ( ! aSmObj->FindAttribute( anAttr, "AttributeIOR" )) + continue; + _PTR(ChildIterator) anIter1 = aStudy->NewChildIterator(aSmObj); + for ( ; anIter1->More(); anIter1->Next()) { + _PTR(SObject) pGeom2 = anIter1->Value(); + if ( pGeom2->ReferencedObject( pGeom2 ) && + myGeomEntry == pGeom2->GetID().c_str() ) + return aSmObj; } } } @@ -517,232 +505,130 @@ void SMESHGUI_MeshOp::selectionDone() SMESHGUI_SelectionOp::selectionDone(); + myGeomEntry.clear(); + myGeom = GEOM::GEOM_Object::_nil(); + myIsInvalidSubMesh = false; + myIsOnGeometry = true; + try { - myIsOnGeometry = true; - myIsInvalidSubMesh = false; - - //Check geometry for mesh - QString anObjEntry = myDlg->selectedObject(SMESHGUI_MeshDlg::Obj); - _PTR(SObject) pObj = SMESH::getStudy()->FindObjectID(anObjEntry.toUtf8().data()); - if (pObj) + // allow selecting multiple geom objects only for sub-mesh creation + QStringList aGEOMs; + myDlg->selectedObject( SMESHGUI_MeshDlg::Geom, aGEOMs ); + int nbGeoms = aGEOMs.count(); + if ( nbGeoms > 0 ) { - SMESH::SMESH_Mesh_var aMeshVar = - SMESH::SMESH_Mesh::_narrow(_CAST(SObject,pObj)->GetObject()); - if (!aMeshVar->_is_nil()) { - if (!myToCreate && !aMeshVar->HasShapeToMesh()) - myIsOnGeometry = false; + myGeomEntry = aGEOMs[0]; + _PTR(SObject) pGeom = SMESH::getStudy()->FindObjectID( myGeomEntry.toUtf8().data() ); + if ( nbGeoms > 1 && myToCreate && myIsMesh ) + { + selectObject( pGeom ); + selectionDone(); + return; } + myGeom = SMESH::SObjectToInterface< GEOM::GEOM_Object >( pGeom ); // creation case } - if (myIsOnGeometry) - { - // Enable tabs according to shape dimension - - int shapeDim = 3; + QString anObjEntry = myDlg->selectedObject( SMESHGUI_MeshDlg::Obj ); + _PTR(SObject) pObj = SMESH::getStudy()->FindObjectID( anObjEntry.toUtf8().data() ); - QStringList aGEOMs; - myDlg->selectedObject(SMESHGUI_MeshDlg::Geom, aGEOMs); - GEOM::ListOfGO_var aSeq = new GEOM::ListOfGO; + SMESH::SMESH_Mesh_var mesh = SMESH::SObjectToInterface< SMESH::SMESH_Mesh >( pObj ); + SMESH::SMESH_subMesh_var subMesh; - if (aGEOMs.count() > 0) { - // one or more GEOM shape selected - aSeq->length(aGEOMs.count()); - QStringList::const_iterator aSubShapesIter = aGEOMs.begin(); - int iSubSh = 0; - for ( ; aSubShapesIter != aGEOMs.end(); aSubShapesIter++, iSubSh++) { - QString aSubGeomEntry = (*aSubShapesIter); - _PTR(SObject) pSubGeom = SMESH::getStudy()->FindObjectID(aSubGeomEntry.toUtf8().data()); - - if( pSubGeom ) { - SALOMEDS_SObject* sobj = _CAST(SObject,pSubGeom); - if( sobj ) { - GEOM::GEOM_Object_var aSubGeomVar = - GEOM::GEOM_Object::_narrow(sobj->GetObject()); - if( !aSubGeomVar->_is_nil() ){ - aSeq[iSubSh] = aSubGeomVar; - } - } - } + if ( !myToCreate ) // edition: read hypotheses + { + if ( pObj ) + { + subMesh = SMESH::SObjectToInterface< SMESH::SMESH_subMesh >( pObj ); + myIsMesh = subMesh->_is_nil(); + myGeom = SMESH::GetShapeOnMeshOrSubMesh( pObj ); + myIsInvalidSubMesh = ( !myIsMesh && subMesh->GetId() < 1 ); + if ( !mesh->_is_nil() && !mesh->HasShapeToMesh() ) + { + myIsOnGeometry = false; + myGeom = GEOM::GEOM_Object::_nil(); } - } else { - // get geometry by selected sub-mesh - QString anObjEntry = myDlg->selectedObject( SMESHGUI_MeshDlg::Obj ); - _PTR(SObject) pObj = SMESH::getStudy()->FindObjectID( anObjEntry.toUtf8().data() ); - GEOM::GEOM_Object_var aGeomVar = SMESH::GetShapeOnMeshOrSubMesh( pObj ); - if (!aGeomVar->_is_nil()) { - aSeq->length(1); - aSeq[0] = aGeomVar; + if ( !myGeom->_is_nil() ) + myGeomEntry = myGeom->GetStudyEntry(); + + myDlg->setTitile( myToCreate, myIsMesh ); + myDlg->setObjectShown( SMESHGUI_MeshDlg::Mesh, !subMesh->_is_nil() ); + myDlg->setObjectShown( SMESHGUI_MeshDlg::Geom, !myGeom->_is_nil() ); + myDlg->objectWg( SMESHGUI_MeshDlg::Mesh, SMESHGUI_MeshDlg::Btn )->hide(); + if ( myIsInvalidSubMesh ) + { + // it is necessary to select a new geometry + myDlg->objectWg( SMESHGUI_MeshDlg::Geom, SMESHGUI_MeshDlg::Btn )->show(); + myDlg->activateObject( SMESHGUI_MeshDlg::Geom ); } - } - - if (aSeq->length() > 0) { - shapeDim = -1; - for ( CORBA::ULong iss = 0; iss < aSeq->length() && shapeDim < 3; iss++) { - GEOM::GEOM_Object_var aGeomVar = aSeq[iss]; - switch ( aGeomVar->GetShapeType() ) { - case GEOM::SOLID: shapeDim = 3; break; - case GEOM::SHELL: - // Bug 0016155: EDF PAL 447: If the shape is a Shell, disable 3D tab - // { - // TopoDS_Shape aShape; - // bool isClosed = GEOMBase::GetShape(aGeomVar, aShape) && /*aShape.Closed()*/BRep_Tool::IsClosed(aShape); - // shapeDim = qMax(isClosed ? 3 : 2, shapeDim); - // } - // break; - case GEOM::FACE: shapeDim = qMax(2, shapeDim); break; - case GEOM::WIRE: - case GEOM::EDGE: shapeDim = qMax(1, shapeDim); break; - case GEOM::VERTEX: shapeDim = qMax(0, shapeDim); break; - default: - { - TopoDS_Shape aShape; - if (GEOMBase::GetShape(aGeomVar, aShape)) - { - TopExp_Explorer exp (aShape, TopAbs_SOLID); - if (exp.More()) { - shapeDim = 3; - } - // Bug 0016155: EDF PAL 447: If the shape is a Shell, disable 3D tab - // else if ( exp.Init( aShape, TopAbs_SHELL ), exp.More() ) - // { - // shapeDim = 2; - // for (; exp.More() && shapeDim == 2; exp.Next()) { - // if (/*exp.Current().Closed()*/BRep_Tool::IsClosed(exp.Current())) - // shapeDim = 3; - // } - // } - else if ( exp.Init( aShape, TopAbs_FACE ), exp.More() ) - shapeDim = qMax(2, shapeDim); - else if ( exp.Init( aShape, TopAbs_EDGE ), exp.More() ) - shapeDim = qMax(1, shapeDim); - else if ( exp.Init( aShape, TopAbs_VERTEX ), exp.More() ) - shapeDim = qMax(0, shapeDim); - } - } - } - if ( shapeDim == 3 ) - break; + else + { + myDlg->objectWg( SMESHGUI_MeshDlg::Geom, SMESHGUI_MeshDlg::Btn )->hide(); } + myDlg->updateGeometry(); + myDlg->adjustSize(); + readMesh(); } - for (int i = SMESH::DIM_3D; i > shapeDim; i--) { - // reset algos before disabling tabs (0020138) - onAlgoSelected(-1, i); - } - myDlg->setMaxHypoDim( shapeDim ); - myMaxShapeDim = shapeDim; - myDlg->setHypoSets( SMESH::GetHypothesesSets( shapeDim )); - - if (!myToCreate) // edition: read hypotheses - { - if (pObj != 0) + else + myDlg->reset(); + } + else if ( !myIsMesh ) // sub-mesh creation + { + // if a submesh on the selected shape already exist, pass to submesh edition mode + if ( _PTR(SObject) pSubmesh = getSubmeshByGeom() ) { + subMesh = SMESH::SObjectToInterface( pSubmesh ); + bool editSubmesh = ( !subMesh->_is_nil() && + SUIT_MessageBox::question( myDlg, tr( "SMESH_WARNING" ), + tr( "EDIT_SUBMESH_QUESTION"), + SUIT_MessageBox::Yes | + SUIT_MessageBox::No, + SUIT_MessageBox::No ) + == SUIT_MessageBox::Yes ); + if ( editSubmesh ) { - SMESH::SMESH_subMesh_var submeshVar = - SMESH::SMESH_subMesh::_narrow( _CAST( SObject,pObj )->GetObject() ); - myIsMesh = submeshVar->_is_nil(); - myIsInvalidSubMesh = ( !myIsMesh && submeshVar->GetId() < 1 ); - myDlg->setTitile( myToCreate, myIsMesh ); - myDlg->setObjectShown( SMESHGUI_MeshDlg::Mesh, !submeshVar->_is_nil() ); - myDlg->setObjectShown( SMESHGUI_MeshDlg::Geom, true ); - myDlg->objectWg( SMESHGUI_MeshDlg::Mesh, SMESHGUI_MeshDlg::Btn )->hide(); - if ( myIsInvalidSubMesh ) - { - // it is necessary to select a new geometry - myDlg->objectWg( SMESHGUI_MeshDlg::Geom, SMESHGUI_MeshDlg::Btn )->show(); - myDlg->activateObject( SMESHGUI_MeshDlg::Geom ); - } - else - { - myDlg->objectWg( SMESHGUI_MeshDlg::Geom, SMESHGUI_MeshDlg::Btn )->hide(); - } - myDlg->updateGeometry(); - myDlg->adjustSize(); - readMesh(); + selectionMgr()->clearFilters(); + selectObject( pSubmesh ); + SMESHGUI::GetSMESHGUI()->switchToOperation( SMESHOp::OpEditMeshOrSubMesh ); + return; } else - myDlg->reset(); - } - else if ( !myIsMesh ) // submesh creation - { - // if a submesh on the selected shape already exist, pass to submesh edition mode - if ( _PTR(SObject) pSubmesh = getSubmeshByGeom() ) { - SMESH::SMESH_subMesh_var sm = - SMESH::SObjectToInterface( pSubmesh ); - bool editSubmesh = ( !sm->_is_nil() && - SUIT_MessageBox::question( myDlg, tr( "SMESH_WARNING" ), - tr( "EDIT_SUBMESH_QUESTION"), - SUIT_MessageBox::Yes | - SUIT_MessageBox::No, - SUIT_MessageBox::No ) - == SUIT_MessageBox::Yes ); - if ( editSubmesh ) - { - selectionMgr()->clearFilters(); - selectObject( pSubmesh ); - SMESHGUI::GetSMESHGUI()->switchToOperation( SMESHOp::OpEditMeshOrSubMesh ); - return; - } - else - { - myDlg->selectObject( "", SMESHGUI_MeshDlg::Geom, "" ); - selectObject( _PTR(SObject)() ); - selectionDone(); - return; - } - } - // discard selected mesh if submesh creation not allowed because of - // a global algorithm that does not support submeshes - if ( char* algoName = isSubmeshIgnored() ) { - SUIT_MessageBox::warning( myDlg, tr( "SMESH_ERROR" ), - tr("SUBMESH_NOT_ALLOWED").arg(algoName)); - CORBA::string_free( algoName ); - myDlg->selectObject( "", SMESHGUI_MeshDlg::Mesh, "" ); + { + myDlg->selectObject( "", SMESHGUI_MeshDlg::Geom, "" ); selectObject( _PTR(SObject)() ); selectionDone(); return; } - - // enable/disable popup for choice of geom selection way - bool enable = false; - QString aMeshEntry = myDlg->selectedObject( SMESHGUI_MeshDlg::Mesh ); - if ( _PTR(SObject) pMesh = SMESH::getStudy()->FindObjectID( aMeshEntry.toUtf8().data() )) { - SMESH::SMESH_Mesh_var mesh = SMESH::SObjectToInterface( pMesh ); - if ( !mesh->_is_nil() ) { - //rnv: issue 21056: EDF 1608 SMESH: Dialog Box "Create Sub Mesh": focus should automatically switch to geometry - QString aGeomEntry = myDlg->selectedObject( SMESHGUI_MeshDlg::Geom ); - _PTR(SObject) pGeom = SMESH::getStudy()->FindObjectID( aGeomEntry.toUtf8().data() ); - if ( !pGeom || GEOM::GEOM_Object::_narrow( _CAST( SObject,pGeom )->GetObject() )->_is_nil() ) - myDlg->activateObject(SMESHGUI_MeshDlg::Geom); - enable = ( shapeDim > 1 ) && ( mesh->NbEdges() > 0 ); - } - } - myDlg->setGeomPopupEnabled( enable ); } - } - else { // no geometry defined + // discard selected mesh if submesh creation not allowed because of + // a global algorithm that does not support submeshes + if ( char* algoName = isSubmeshIgnored() ) { + SUIT_MessageBox::warning( myDlg, tr( "SMESH_ERROR" ), + tr("SUBMESH_NOT_ALLOWED").arg(algoName)); + CORBA::string_free( algoName ); + myDlg->selectObject( "", SMESHGUI_MeshDlg::Mesh, "" ); + selectObject( _PTR(SObject)() ); + selectionDone(); + return; + } - QStringList hypList; - for ( int dim = SMESH::DIM_0D; dim <= SMESH::DIM_3D; dim++ ) + // enable/disable popup for choice of geom selection way + bool enable = false; + QString aMeshEntry = myDlg->selectedObject( SMESHGUI_MeshDlg::Mesh ); + if ( _PTR(SObject) pMesh = SMESH::getStudy()->FindObjectID( aMeshEntry.toLatin1().data() )) { - availableHyps( dim, Algo, hypList, myAvailableHypData[dim][Algo]); - myDlg->tab( dim )->setAvailableHyps( Algo, hypList ); - if ( hypList.empty() ) myDlg->disableTab( dim ); - else myDlg->enableTab( dim ); + mesh = SMESH::SObjectToInterface( pMesh ); + if ( !mesh->_is_nil() ) + enable = /*( shapeDim > 1 ) && */( mesh->NbEdges() > 0 ); } - myMaxShapeDim = -1; - //Hide labels and fields (Mesh and Geometry) - myDlg->setObjectShown( SMESHGUI_MeshDlg::Mesh, false ); - myDlg->setObjectShown( SMESHGUI_MeshDlg::Geom, false ); - myDlg->adjustSize(); - readMesh(); + myDlg->setGeomPopupEnabled( enable ); + + //rnv: issue 21056: "Create Sub Mesh": focus should automatically switch to geometry + if ( pObj && myGeomEntry.isEmpty() ) + myDlg->activateObject( SMESHGUI_MeshDlg::Geom ); } - int curIndex = myDlg->currentMeshType( ); - QStringList TypeMeshList; - createMeshTypeList( TypeMeshList ); - setAvailableMeshType( TypeMeshList ); - curIndex =( curIndex >= TypeMeshList.count() ) ? 0 : curIndex; - myDlg->setCurrentMeshType( curIndex ); - setFilteredAlgoData( myMaxShapeDim, curIndex); + + setFilteredAlgoData(); + } catch ( const SALOME::SALOME_Exception& S_ex ) { @@ -795,7 +681,7 @@ bool SMESHGUI_MeshOp::isValid( QString& theMess ) const }*/ // Geom - if ( myToCreate ) + if ( myToCreate || myIsInvalidSubMesh ) { QString aGeomEntry = myDlg->selectedObject( SMESHGUI_MeshDlg::Geom ); if ( aGeomEntry.isEmpty() ) @@ -850,11 +736,10 @@ bool SMESHGUI_MeshOp::isValid( QString& theMess ) const //================================================================================ /*! * \brief check compatibility of the algorithm and another algorithm or hypothesis - * \param theAlgoData - algorithm data - * \param theHypData - hypothesis data - * \param theHypType - hypothesis type - * \param theHypTypeName - hypothesis type name, must be provided if 2-nd arg is not algo - * \retval bool - check result + * \param theAlgoData - algorithm data + * \param theHypData - hypothesis data + * \param theHypType - hypothesis type + * \retval bool - check result */ //================================================================================ static bool isCompatible(const HypothesisData* theAlgoData, @@ -864,41 +749,40 @@ static bool isCompatible(const HypothesisData* theAlgoData, if ( !theAlgoData ) return true; - if ( theHypType == SMESHGUI_MeshOp::Algo ) + if ( theHypType == SMESHGUI_MeshOp::Algo ) // compatibility of 2 algos return SMESH::IsCompatibleAlgorithm( theAlgoData, theHypData ); - bool isOptional; + bool isOptional; // compatibility of algo and hyp return ( SMESH::IsAvailableHypothesis( theAlgoData, theHypData->TypeName, isOptional )); } //================================================================================ /*! * \brief check compatibility of the geometry - * \param theAlgoData - to select hypos able to be used by this algo - * \param theCurrentGeomToSelect - the current name of the selected geometry - * \param theGeomVar - currently selected geometry - * \retval bool - check result + * \param theAlgoData - to select hypos able to be used by this algo + * \param theDim - algo dimension + * \retval bool - check result */ //================================================================================ bool SMESHGUI_MeshOp::isCompatibleToGeometry(HypothesisData* theAlgoData, - QString theCurrentGeomToSelect, - GEOM::GEOM_Object_var theGeomVar) + const int theDim) { - if ( theGeomVar->_is_nil() ) + if ( theDim < 1 || myGeom->_is_nil() ) return true; bool isApplicable = false; - if ( theCurrentGeomToSelect == myLastGeomToSelect && !theCurrentGeomToSelect.isEmpty() ) { - THypLabelIsAppMap::const_iterator iter = myHypMapIsApplicable.find( theAlgoData->Label ); - if ( iter != myHypMapIsApplicable.end() && iter.key() == theAlgoData->Label ) { - isApplicable = iter.value(); + if ( myGeomEntry == myLastGeomEntry && !myGeomEntry.isEmpty() ) { + THypLabelIsAppMap::const_iterator lab2isApp = myHypMapIsApplicable.find( theAlgoData->Label ); + if ( lab2isApp != myHypMapIsApplicable.end() ) { + isApplicable = lab2isApp.value(); return isApplicable; } } bool toCheckIsApplicableToAll = !myIsMesh; if ( toCheckIsApplicableToAll ) - toCheckIsApplicableToAll = ( theGeomVar->GetType() == GEOM_GROUP ); - isApplicable = SMESH::IsApplicable( theAlgoData->TypeName, theGeomVar, toCheckIsApplicableToAll ); + toCheckIsApplicableToAll = ( myGeom->GetType() == GEOM_GROUP ); + + isApplicable = SMESH::IsApplicable( theAlgoData->TypeName, myGeom, toCheckIsApplicableToAll ); myHypMapIsApplicable.insert( theAlgoData->Label, isApplicable ); return isApplicable; } @@ -906,18 +790,59 @@ bool SMESHGUI_MeshOp::isCompatibleToGeometry(HypothesisData* theAlgoData, //================================================================================ /*! * \brief check compatibility of the mesh type - * \param theAlgoData - to select hypos able to be used by this algo - * \param theMeshType - type of mesh for filtering algorithms - * \retval bool - check result + * \param theAlgoData - to select hypos able to be used by this algo + * \param theDim - algo dimension + * \retval bool - check result */ //================================================================================ bool SMESHGUI_MeshOp::isCompatibleToMeshType(HypothesisData* theAlgoData, - QString theMeshType) + const int theDim) { - bool isAvailableAlgo = ( theAlgoData->OutputTypes.count() == 0 ); + if ( theDim < 2 ) + return true; + + QString elemType; + int curMeshType = myDlg->currentMeshType(); + switch ( curMeshType ) { + case MT_ANY: + return true; + + case MT_TRIANGULAR: + if ( theDim > 2 ) + return false; + elemType = "TRIA"; + break; + + case MT_QUADRILATERAL: + if ( theDim > 2 ) + return false; + elemType = "QUAD"; + break; + + case MT_TETRAHEDRAL: + if ( theDim < 3 ) + elemType = "TRIA"; + else + elemType = "TETRA"; + break; + + case MT_HEXAHEDRAL: + if ( theDim < 3 ) + elemType = "QUAD"; + else + elemType = "HEXA"; + break; + + default: + return true; + } + + bool isAvailableAlgo = theAlgoData->OutputTypes.isEmpty(); QStringList::const_iterator inElemType = theAlgoData->OutputTypes.begin(); - for ( ; inElemType != theAlgoData->OutputTypes.end(); inElemType++ ) { - if ( *inElemType == theMeshType ) { + for ( ; inElemType != theAlgoData->OutputTypes.end(); inElemType++ ) + { + if ( *inElemType == elemType ) + { isAvailableAlgo = true; break; } @@ -927,16 +852,20 @@ bool SMESHGUI_MeshOp::isCompatibleToMeshType(HypothesisData* theAlgoData, //================================================================================ /*! - * \brief Gets available hypotheses or algorithms - * \param theDim - specifies dimension of returned hypotheses/algorifms - * \param theHypType - specifies whether algorims or hypotheses or additional ones - * are retrieved (possible values are in HypType enumeration) - * \param theHyps - Output list of hypotheses' names - * \param thePrevAlgoData - to select hypos able to be used by previously algo (optional) - * \param theNextAlgoData - to select hypos able to be used by next algo (optional) - * \param theMeshType - type of mesh for filtering algorithms (optional) + * \brief Get available hypotheses or algorithms + * \param theDim - specifies dimension of returned hypotheses/algorifms + * \param theHypType - specifies whether algorims or hypotheses or additional ones + * are retrieved (possible values are in HypType enumeration) + * \param theHyps - output list of hypotheses' names + * \param thePrevAlgoData - to select hypos able to be used by previously algo (optional) + * \param theNextAlgoData - to select hypos able to be used by next algo (optional) + * \param theMeshType - type of mesh for filtering algorithms (optional) * - * Gets available hypotheses or algorithm in accordance with input parameters + * Get available hypotheses or algorithm in accordance with input parameters. + * Result (\a theHyps) optionally depends on the following: + * - selected algorithm(s) + * - selected geometry + * - selected mesh type */ //================================================================================ void SMESHGUI_MeshOp::availableHyps( const int theDim, @@ -953,32 +882,16 @@ void SMESHGUI_MeshOp::availableHyps( const int theDim, bool isAux = ( theHypType >= AddHyp ); QStringList aHypTypeNameList = SMESH::GetAvailableHypotheses( isAlgo, theDim, isAux, myIsOnGeometry, !myIsMesh ); - GEOM::GEOM_Object_var aGeomVar; - QString aCurrentGeomToSelect; - if ( !theMeshType.isEmpty() ) { - aCurrentGeomToSelect = myDlg->selectedObject( myToCreate ? SMESHGUI_MeshDlg::Geom : SMESHGUI_MeshDlg::Obj ); - if ( _PTR(SObject) so = SMESH::getStudy()->FindObjectID( aCurrentGeomToSelect.toUtf8().data() )) { - aGeomVar = SMESH::GetGeom( so ); - } - if ( aCurrentGeomToSelect != myLastGeomToSelect ) - myHypMapIsApplicable.clear(); - } - std::multimap< double, HypothesisData* > sortedHyps; QStringList::const_iterator anIter; for ( anIter = aHypTypeNameList.begin(); anIter != aHypTypeNameList.end(); ++anIter ) { HypothesisData* aData = SMESH::GetHypothesisData( *anIter ); - if ( ( isCompatible ( thePrevAlgoData, aData, theHypType ) && - isCompatible ( theNextAlgoData, aData, theHypType ) ) || - ( theMeshType == "ANY" && aData->InputTypes.isEmpty())) + if ( isCompatible( thePrevAlgoData, aData, theHypType ) && + isCompatible( theNextAlgoData, aData, theHypType ) && + isCompatibleToGeometry( aData, theDim ) && + isCompatibleToMeshType( aData, theDim )) { - if ( ( !theMeshType.isEmpty() ) && - ( theDim >= SMESH::DIM_2D ) && - ( ( theMeshType != "ANY" && !isCompatibleToMeshType( aData, theMeshType )) || - !isCompatibleToGeometry( aData, aCurrentGeomToSelect, aGeomVar ))) - continue; - int groupID = aData->GroupID; int priority = aData->Priority; if ( groupID < 0 || groupID > 9 ) groupID = 9; @@ -1006,9 +919,6 @@ void SMESHGUI_MeshOp::availableHyps( const int theDim, theHyps.append( aData->Label ); } } - - if ( !theMeshType.isEmpty() && !aCurrentGeomToSelect.isEmpty() ) - myLastGeomToSelect = aCurrentGeomToSelect; } //================================================================================ @@ -1016,7 +926,7 @@ void SMESHGUI_MeshOp::availableHyps( const int theDim, * \brief Gets existing hypotheses or algorithms * \param theDim - specifies dimension of returned hypotheses/algorifms * \param theHypType - specifies whether algorims or hypotheses or additional ones - * are retrieved (possible values are in HypType enumeration) + * are retrieved (possible values are in HypType enumeration) * \param theFather - start object for finding ( may be component, mesh, or sub-mesh ) * \param theHyps - output list of names. * \param theHypVars - output list of variables. @@ -1124,7 +1034,7 @@ SMESHGUI_MeshOp::getInitParamsHypothesis( const QString& aHypType, myDlg->selectedObject( SMESHGUI_MeshDlg::Obj ).count(':') > nbColonsInMeshEntry; // get mesh and geom object - SMESH::SMESH_Mesh_var aMeshVar = SMESH::SMESH_Mesh::_nil(); + SMESH::SMESH_Mesh_var aMesh = SMESH::SMESH_Mesh::_nil(); GEOM::GEOM_Object_var aGeomVar = GEOM::GEOM_Object::_nil(); QString anEntry; @@ -1137,7 +1047,7 @@ SMESHGUI_MeshOp::getInitParamsHypothesis( const QString& aHypType, CORBA::Object_ptr Obj = _CAST( SObject,pObj )->GetObject(); if ( myToCreate ) // mesh and geom may be selected { - aMeshVar = SMESH::SMESH_Mesh::_narrow( Obj ); + aMesh = SMESH::SMESH_Mesh::_narrow( Obj ); anEntry = myDlg->selectedObject( SMESHGUI_MeshDlg::Geom ); if ( _PTR(SObject) pGeom = SMESH::getStudy()->FindObjectID( anEntry.toUtf8().data() )) aGeomVar= GEOM::GEOM_Object::_narrow( _CAST( SObject,pGeom )->GetObject() ); @@ -1146,7 +1056,7 @@ SMESHGUI_MeshOp::getInitParamsHypothesis( const QString& aHypType, { SMESH::SMESH_subMesh_var sm = SMESH::SMESH_subMesh::_narrow( Obj ); if ( !sm->_is_nil() ) { - aMeshVar = sm->GetFather(); + aMesh = sm->GetFather(); aGeomVar = sm->GetSubShape(); } } @@ -1159,8 +1069,8 @@ SMESHGUI_MeshOp::getInitParamsHypothesis( const QString& aHypType, anEntry = myDlg->selectedObject( SMESHGUI_MeshDlg::Obj ); if ( _PTR(SObject) pMesh = SMESH::getStudy()->FindObjectID( anEntry.toUtf8().data() )) { - aMeshVar = SMESH::SMESH_Mesh::_narrow( _CAST( SObject,pMesh )->GetObject() ); - if ( !aMeshVar->_is_nil() ) + aMesh = SMESH::SMESH_Mesh::_narrow( _CAST( SObject,pMesh )->GetObject() ); + if ( !aMesh->_is_nil() ) aGeomVar = SMESH::GetShapeOnMeshOrSubMesh( pMesh ); } } @@ -1176,13 +1086,13 @@ SMESHGUI_MeshOp::getInitParamsHypothesis( const QString& aHypType, SMESH::SMESH_Hypothesis_var hyp = SMESHGUI::GetSMESHGen()->GetHypothesisParameterValues( aHypType.toUtf8().data(), aServerLib.toUtf8().data(), - aMeshVar, + aMesh, aGeomVar, /*byMesh = */isSubMesh); if ( hyp->_is_nil() && isSubMesh ) hyp = SMESHGUI::GetSMESHGen()->GetHypothesisParameterValues( aHypType.toLatin1().data(), aServerLib.toUtf8().data(), - aMeshVar, + aMesh, aGeomVar, /*byMesh = */false); return hyp; @@ -1234,9 +1144,9 @@ void SMESHGUI_MeshOp::initHypCreator( SMESHGUI_GenericHypothesisCreator* theCrea SMESH::SMESH_subMesh_var aSubMeshVar = SMESH::SMESH_subMesh::_narrow( _CAST( SObject,pObj )->GetObject() ); if ( !aSubMeshVar->_is_nil() ) { - SMESH::SMESH_Mesh_var aMeshVar = aSubMeshVar->GetFather(); - if ( !aMeshVar->_is_nil() ) { - _PTR(SObject) aMeshSO = SMESH::FindSObject( aMeshVar ); + SMESH::SMESH_Mesh_var aMesh = aSubMeshVar->GetFather(); + if ( !aMesh->_is_nil() ) { + _PTR(SObject) aMeshSO = SMESH::FindSObject( aMesh ); GEOM::GEOM_Object_var aGeomVar = SMESH::GetShapeOnMeshOrSubMesh( aMeshSO ); if ( !aGeomVar->_is_nil() ) aMeshEntry = SMESH::toQStr( aGeomVar->GetStudyEntry() ); @@ -1417,9 +1327,7 @@ void SMESHGUI_MeshOp::onHypoCreated( int result ) for (int i = nbHyp; i < aNewHyps.count(); i++) myDlg->tab(myDim)->addHyp(myType, aNewHyps[i]); } - - if( result!=2 && myHypoSet ) - processSet(); + return; } //================================================================================ @@ -1489,7 +1397,7 @@ void SMESHGUI_MeshOp::onHypoEdited( int result ) * \param theHypType - hyp type (Algo,MainHyp or AddHyp) * \param theIndex - index in the list * \retval HypothesisData* - result data, may be 0 - */ + */ //================================================================================ HypothesisData* SMESHGUI_MeshOp::hypData( const int theDim, const int theHypType, @@ -1502,10 +1410,86 @@ HypothesisData* SMESHGUI_MeshOp::hypData( const int theDim, return 0; } +//================================================================================ +/*! + * \brief Update list of algorithms and hypotheses according to currently selected + * algorithm, geometry and mesh type + */ +//================================================================================ +void SMESHGUI_MeshOp::setFilteredAlgoData() +{ + // keep current algorithms + HypothesisData* curAlgos[ 4 ]; + for ( int dim = 0; dim <= 3; ++dim ) + curAlgos[ dim ] = hypData( dim, Algo, currentHyp( dim, Algo )); + + // find out myMaxShapeDim by checking algorithm applicability to geometry + + int curMeshType = myDlg->currentMeshType(); + myDlg->setCurrentMeshType( MT_ANY ); + QStringList algosAvailable; + // get available algorithms taking into account geometry only + if ( myGeom->_is_nil() ) + { + myMaxShapeDim = 3; + + if ( myToCreate ) // readMesh() has done it if !myToCreate + for ( int dim = 0; dim <= 3; ++dim ) + availableHyps( dim, Algo, algosAvailable, myAvailableHypData[ dim ][ Algo ] ); + } + else + { + if ( myGeomEntry != myLastGeomEntry ) + myHypMapIsApplicable.clear(); + + for ( int dim = 0; dim <= 3; ++dim ) + { + availableHyps( dim, Algo, algosAvailable, myAvailableHypData[ dim ][ Algo ] ); + if ( algosAvailable.count() ) + myMaxShapeDim = dim; + } + if ( !myGeomEntry.isEmpty() ) + myLastGeomEntry = myGeomEntry; + } + myDlg->setMaxHypoDim( myMaxShapeDim ); + + // set mesh types according to myMaxShapeDim + updateMeshTypeList(); + + // update available hypo-sets that depend on geometry and mesh type + myDlg->setCurrentMeshType( Max( MT_ANY, curMeshType )); + updateHypoSets(); // it sets myAvailableHypData by curMeshType + + // restore current algorithms according to changed myAvailableHypData + for ( int dim = 0; dim <= 3; ++dim ) + { + int algoIndex = myAvailableHypData[ dim ][ Algo ].indexOf( curAlgos[ dim ]); + while ( algosAvailable.count() <= algoIndex ) + algosAvailable << ""; + myDlg->tab( dim )->setAvailableHyps( Algo, algosAvailable ); + setCurrentHyp( dim, Algo, algoIndex ); + if ( algoIndex < 0 ) + curAlgos[ dim ] = 0; + } + + // find a selected algo, current or of highest dimension + int algoDim = myDlg->currentTab(); + if ( !curAlgos[ algoDim ]) + for ( algoDim = SMESH::DIM_3D; algoDim >= SMESH::DIM_0D; algoDim-- ) + if ( curAlgos[ algoDim ] ) + break; + if ( algoDim < SMESH::DIM_0D ) + algoDim = myMaxShapeDim; + + // set algorithms and hypotheses according to all parameters (mesh type etc) + onAlgoSelected( currentHyp( algoDim, Algo ), algoDim ); +} + //================================================================================ /*! * \brief Set available algos and hypos according to the selected algorithm - * \param theIndex - algorithm index + * \param theIndex - algorithm index + * \param theDim - algorithm dimension */ //================================================================================ void SMESHGUI_MeshOp::onAlgoSelected( const int theIndex, @@ -1526,101 +1510,58 @@ void SMESHGUI_MeshOp::onAlgoSelected( const int theIndex, algoByDim[ aDim ] = algoData; QStringList anAvailable; + const int algoDim = aDim; - // enable / disable tabs - if ( myIsOnGeometry ) { - for (int i = SMESH::DIM_3D; i >= SMESH::DIM_0D; i--) { - if ( i > aDim ) { - if ( i > myMaxShapeDim ) myDlg->disableTab( i ); - else myDlg->enableTab( i ); - } - else if ( i == aDim ) { - continue; - } - else {//( i < aDim ) - if ( algoData && algoData->InputTypes.isEmpty() ) { - myDlg->disableTab( i ); - for ( int type = Algo, nbTypes = nbDlgHypTypes(i); type < nbTypes; type++ ) - setCurrentHyp(i, type, -1); - } - else { - myDlg->enableTab( i ); - } - } - } - } - - int algoDim = aDim; - HypothesisData* a3DAlgo = 0; - // 2 loops: backward and forward from algo dimension - for ( int forward = 0; forward <= 1; ++forward ) + // 2 loops: backward and forward from algo dimension (forward == to higher dimension) + for ( int forward = 1; forward >= 0; --forward ) { - int dim = algoDim + 1, lastDim = SMESH::DIM_3D, dir = 1; + int dim = algoDim, lastDim = SMESH::DIM_3D, dir = 1; if ( !forward ) { dim = algoDim - 1; lastDim = SMESH::DIM_0D; dir = -1; } - HypothesisData* prevAlgo = algoData; - bool noCompatible = false; + //bool noCompatible = false; for ( ; dim * dir <= lastDim * dir; dim += dir) { - if ( !isAccessibleDim( dim )) - continue; - if ( noCompatible ) { // the selected algo has no compatible ones - anAvailable.clear(); + // if ( noCompatible ) // the selected algo has no compatible ones (like 1D2D3D algo) + // { + // anAvailable.clear(); + // myDlg->tab( dim )->setAvailableHyps( Algo, anAvailable ); + // myAvailableHypData[dim][Algo].clear(); + // algoByDim[ dim ] = 0; + // } + // else + { + int algoIndex = currentHyp( dim, Algo ); + HypothesisData *curAlgo = hypData( dim, Algo, algoIndex ); + + // set new available algorithms + HypothesisData *prevAlgo = 0; + if ( dim != algoDim ) + for ( int prevDim = dim + 1; prevDim <=3 && !prevAlgo; ++prevDim ) + prevAlgo = hypData( prevDim, Algo, currentHyp( prevDim, Algo )); + availableHyps( dim, Algo, anAvailable, myAvailableHypData[dim][Algo], prevAlgo ); myDlg->tab( dim )->setAvailableHyps( Algo, anAvailable ); - myAvailableHypData[dim][Algo].clear(); - algoByDim[ dim ] = 0; - continue; - } - HypothesisData* nextAlgo = 0; - if ( myMaxShapeDim == SMESH::DIM_3D && a3DAlgo && dim == SMESH::DIM_2D ) { - nextAlgo = a3DAlgo; - } - // get currently selected algo - int algoIndex = currentHyp( dim, Algo ); - HypothesisData* curAlgo = hypData( dim, Algo, algoIndex ); - - QString anCompareType = currentMeshTypeName(myDlg->currentMeshType()); - QString anCurrentCompareType = ""; - if ( dim == SMESH::DIM_3D || anCompareType == "ANY" ) - anCurrentCompareType = anCompareType; - else if ( dim == SMESH::DIM_2D ) { - anCurrentCompareType = (anCompareType == "HEXA" || anCompareType == "QUAD") ? "QUAD" : "TRIA"; - nextAlgo = 0; - } - // set new available algorithms - availableHyps( dim, Algo, anAvailable, myAvailableHypData[dim][Algo], prevAlgo, nextAlgo, anCurrentCompareType); - HypothesisData* soleCompatible = 0; - if ( anAvailable.count() == 1 ) - soleCompatible = myAvailableHypData[dim][Algo][0]; - myDlg->tab( dim )->setAvailableHyps( Algo, anAvailable ); - noCompatible = anAvailable.isEmpty(); - algoIndex = myAvailableHypData[dim][Algo].indexOf( curAlgo ); - if ( !isSubmesh && algoIndex < 0 && soleCompatible && !forward && dim == curDim ) { - // select the sole compatible algo - algoIndex = 0; + //noCompatible = ( prevAlgo && !forward && anAvailable.isEmpty() ); + + // set current algo + algoIndex = myAvailableHypData[dim][Algo].indexOf( curAlgo ); + setCurrentHyp( dim, Algo, algoIndex, /*updateHyps=*/true ); + + algoByDim[ dim ] = hypData( dim, Algo, algoIndex ); } - setCurrentHyp( dim, Algo, algoIndex ); - // remember current algo - prevAlgo = algoByDim[ dim ] = hypData( dim, Algo, algoIndex ); + // activate tabs according to algorithms availability + if ( anAvailable.isEmpty() ) myDlg->disableTab( dim ); + else myDlg->enableTab( dim ); } // loop on dims - - if ( myMaxShapeDim == SMESH::DIM_3D && forward && algoDim == SMESH::DIM_1D ) - { - algoDim = SMESH::DIM_3D; - forward = -1; - a3DAlgo = prevAlgo; - continue; - } } // loops backward and forward // set hypotheses corresponding to the found algorithms - _PTR(SObject) pObj = SMESH::getStudy()->FindComponent("SMESH"); + _PTR(SObject) pComp = SMESH::getStudy()->FindComponent("SMESH"); for ( int dim = SMESH::DIM_0D; dim <= SMESH::DIM_3D; dim++ ) { @@ -1646,40 +1587,45 @@ void SMESHGUI_MeshOp::onAlgoSelected( const int theIndex, int hypIndex = hypIndexByType[ dlgType ]; SMESH::SMESH_Hypothesis_var curHyp; + QString curHypType; + HypothesisData* hypData = 0; if ( hypIndex >= 0 && hypIndex < myExistingHyps[ dim ][ type ].count() ) + { curHyp = myExistingHyps[ dim ][ type ][ hypIndex ].first; - - if ( !myToCreate && !curAlgo && !curHyp->_is_nil() ) { // edition, algo not selected + if ( !curHyp->_is_nil() ) + { + curHypType = SMESH::toQStr( curHyp->GetName() ); + hypData = SMESH::GetHypothesisData( curHypType ); + } + } + if ( !myToCreate && !curAlgo && !curHyp->_is_nil() ) // edition, algo not selected + { // try to find algo by selected hypothesis in order to keep it selected bool algoDeselectedByUser = ( theDim < 0 && aDim == dim ); - QString curHypType = SMESH::toQStr( curHyp->GetName() ); if ( !algoDeselectedByUser && myObjHyps[ dim ][ type ].count() > 0 && curHypType == SMESH::toQStr( myObjHyps[ dim ][ type ].first().first->GetName()) ) { - HypothesisData* hypData = SMESH::GetHypothesisData( SMESH::toQStr( curHyp->GetName() )); - for (int i = 0; i < myAvailableHypData[ dim ][ Algo ].count(); ++i) { + for ( int i = 0; i < myAvailableHypData[ dim ][ Algo ].count(); ++i ) + { curAlgo = myAvailableHypData[ dim ][ Algo ][ i ]; - if (curAlgo && hypData && isCompatible(curAlgo, hypData, type)) + if ( curAlgo && hypData && isCompatible( curAlgo, hypData, type )) break; else curAlgo = 0; } } } + // get hyps compatible with curAlgo bool defaulHypAvlbl = false; if ( curAlgo ) { - // check if a selected hyp is compatible with the curAlgo - if ( !curHyp->_is_nil() ) { - HypothesisData* hypData = SMESH::GetHypothesisData( SMESH::toQStr( curHyp->GetName() )); - if ( !isCompatible( curAlgo, hypData, type )) - curHyp = SMESH::SMESH_Hypothesis::_nil(); - } - availableHyps( dim, type, anAvailable, myAvailableHypData[ dim ][ type ], curAlgo); - existingHyps( dim, type, pObj, anExisting, myExistingHyps[ dim ][ type ], curAlgo); - defaulHypAvlbl = (type == MainHyp && !curAlgo->IsAuxOrNeedHyp ); + if ( hypData && !isCompatible( curAlgo, hypData, type )) + curHyp = SMESH::SMESH_Hypothesis::_nil(); + availableHyps( dim, type, anAvailable, myAvailableHypData[ dim ][ type ], curAlgo ); + existingHyps ( dim, type, pComp, anExisting, myExistingHyps[ dim ][ type ], curAlgo ); + defaulHypAvlbl = ( type == MainHyp && !curAlgo->IsAuxOrNeedHyp ); } // set list of hypotheses if ( dlgType <= AddHyp ) @@ -1705,6 +1651,7 @@ void SMESHGUI_MeshOp::onAlgoSelected( const int theIndex, setCurrentHyp( dim, dlgType, hypIndex ); } } + return; } //================================================================================ @@ -1715,89 +1662,60 @@ void SMESHGUI_MeshOp::onAlgoSelected( const int theIndex, //================================================================================ void SMESHGUI_MeshOp::onHypoSet( const QString& theSetName ) { - myHypoSet = SMESH::GetHypothesesSet(theSetName); - if (!myHypoSet) + HypothesesSet* aHypoSet = SMESH::GetHypothesesSet(theSetName); + if (!aHypoSet) return; // clear all hyps - for (int dim = SMESH::DIM_0D; dim <= SMESH::DIM_3D; dim++) { + for (int dim = SMESH::DIM_0D; dim <= SMESH::DIM_3D; dim++) + { setCurrentHyp(dim, Algo, -1); setCurrentHyp(dim, AddHyp, -1); setCurrentHyp(dim, MainHyp, -1); + onAlgoSelected( -1, dim ); } - myHypoSet->init(true); //algorithms - processSet(); - myHypoSet->init(false); //hypotheses - processSet(); - myHypoSet = 0; -} - -//================================================================================ -/*! - * \brief One step of hypothesis/algorithm list creation - * - * Creates a hypothesis or an algorithm for current item of internal list of names myHypoSet - */ -//================================================================================ -void SMESHGUI_MeshOp::processSet() -{ - myHypoSet->next(); - if( !myHypoSet->more() ) - return; - - bool isAlgo = myHypoSet->isAlgo(); - QString aHypoTypeName = myHypoSet->current(); - HypothesisData* aHypData = SMESH::GetHypothesisData(aHypoTypeName); - if (!aHypData) - { - processSet(); - return; - } - - int aDim = aHypData->Dim[0]; - // create or/and set - if (isAlgo) - { - int index = myAvailableHypData[aDim][Algo].indexOf( aHypData ); - if ( index < 0 ) + for ( int isAlgo = 1; isAlgo >= 0; --isAlgo ) + for ( aHypoSet->init( isAlgo ); aHypoSet->more(); aHypoSet->next() ) { - QStringList anAvailable; - availableHyps( aDim, Algo, anAvailable, myAvailableHypData[aDim][Algo] ); - myDlg->tab( aDim )->setAvailableHyps( Algo, anAvailable ); - index = myAvailableHypData[aDim][Algo].indexOf( aHypData ); - } - setCurrentHyp( aDim, Algo, index ); - onAlgoSelected( index, aDim ); - processSet(); - } - else - { - bool mainHyp = true; - QStringList anAvailable; - availableHyps( aDim, MainHyp, anAvailable, myAvailableHypData[aDim][MainHyp] ); - myDlg->tab( aDim )->setAvailableHyps( MainHyp, anAvailable ); - int index = myAvailableHypData[aDim][MainHyp].indexOf( aHypData ); - if ( index < 0 ) - { - mainHyp = false; - index = myAvailableHypData[aDim][AddHyp].indexOf( aHypData ); + QString aHypoTypeName = aHypoSet->current(); + HypothesisData* aHypData = SMESH::GetHypothesisData( aHypoTypeName ); + if (!aHypData) + continue; + + int aDim = aHypData->Dim[0]; + // create or/and set + if ( isAlgo ) + { + int index = myAvailableHypData[aDim][Algo].indexOf( aHypData ); + if ( index >= 0 ) + { + setCurrentHyp( aDim, Algo, index ); + onAlgoSelected( index, aDim ); + } + } + else + { + bool mainHyp = true; + int index = myAvailableHypData[aDim][MainHyp].indexOf( aHypData ); + if ( index < 0 ) + { + mainHyp = false; + index = myAvailableHypData[aDim][AddHyp].indexOf( aHypData ); + } + if ( index >= 0 ) + createHypothesis( aDim, mainHyp ? MainHyp : AddHyp, aHypoTypeName ); + } } - if (index >= 0) - createHypothesis(aDim, mainHyp ? MainHyp : AddHyp, aHypoTypeName); - else - processSet(); - } + return; } //================================================================================ /*! * \brief Creates mesh - * \param theMess - Output parameter intended for returning error message - * \param theEntryList - List of entries of published objects - * \retval bool - TRUE if mesh is created, FALSE otherwise - * - * Creates mesh + * \param theMess - Output parameter intended for returning error message + * \param theEntryList - List of entries of published objects + * \retval bool - TRUE if mesh is created, FALSE otherwise */ //================================================================================ bool SMESHGUI_MeshOp::createMesh( QString& theMess, QStringList& theEntryList ) @@ -1812,11 +1730,11 @@ bool SMESHGUI_MeshOp::createMesh( QString& theMess, QStringList& theEntryList ) if ( aSMESHGen->_is_nil() ) return false; - SMESH::SMESH_Mesh_var aMeshVar= aSMESHGen->CreateEmptyMesh(); - if ( aMeshVar->_is_nil() ) + SMESH::SMESH_Mesh_var aMesh= aSMESHGen->CreateEmptyMesh(); + if ( aMesh->_is_nil() ) return false; - _PTR(SObject) aMeshSO = SMESH::FindSObject( aMeshVar.in() ); + _PTR(SObject) aMeshSO = SMESH::FindSObject( aMesh.in() ); if ( aMeshSO ) { SMESH::SetName( aMeshSO, myDlg->objectText( SMESHGUI_MeshDlg::Obj ) ); theEntryList.append( aMeshSO->GetID().c_str() ); @@ -1850,10 +1768,10 @@ bool SMESHGUI_MeshOp::createMesh( QString& theMess, QStringList& theEntryList ) SUIT_OverrideCursor aWaitCursor; // create mesh - SMESH::SMESH_Mesh_var aMeshVar = aSMESHGen->CreateMesh( aGeomVar ); - if ( aMeshVar->_is_nil() ) + SMESH::SMESH_Mesh_var aMesh = aSMESHGen->CreateMesh( aGeomVar ); + if ( aMesh->_is_nil() ) return false; - _PTR(SObject) aMeshSO = SMESH::FindSObject( aMeshVar.in() ); + _PTR(SObject) aMeshSO = SMESH::FindSObject( aMesh.in() ); if ( aMeshSO ) { theEntryList.append( aMeshSO->GetID().c_str() ); if ( i > 0 ) setDefaultName( namePrefix ); @@ -1874,13 +1792,13 @@ bool SMESHGUI_MeshOp::createMesh( QString& theMess, QStringList& theEntryList ) SMESH::SMESH_Hypothesis_var aHypVar = myExistingHyps[ aDim ][ aHypType ][ aHypIndex ].first; if ( !aHypVar->_is_nil() ) - SMESH::AddHypothesisOnMesh( aMeshVar, aHypVar ); + SMESH::AddHypothesisOnMesh( aMesh, aHypVar ); } } // find or create algorithm SMESH::SMESH_Hypothesis_var anAlgoVar = getAlgo( aDim ); if ( !anAlgoVar->_is_nil() ) - SMESH::AddHypothesisOnMesh( aMeshVar, anAlgoVar ); + SMESH::AddHypothesisOnMesh( aMesh, anAlgoVar ); } } return true; @@ -1888,12 +1806,10 @@ bool SMESHGUI_MeshOp::createMesh( QString& theMess, QStringList& theEntryList ) //================================================================================ /*! - * \brief Creates sub-mesh + * \brief Create sub-mesh * \param theMess - Output parameter intended for returning error message * \param theEntryList - List of entries of published objects * \retval bool - TRUE if sub-mesh is created, FALSE otherwise - * - * Creates sub-mesh */ //================================================================================ bool SMESHGUI_MeshOp::createSubMesh( QString& theMess, QStringList& theEntryList ) @@ -1905,20 +1821,20 @@ bool SMESHGUI_MeshOp::createSubMesh( QString& theMess, QStringList& theEntryList return false; // get mesh object - SMESH::SMESH_Mesh_var aMeshVar = + SMESH::SMESH_Mesh_var aMesh = SMESH::EntryToInterface( myDlg->selectedObject( SMESHGUI_MeshDlg::Mesh )); - if ( aMeshVar->_is_nil() && myIsInvalidSubMesh ) + if ( aMesh->_is_nil() && myIsInvalidSubMesh ) { SMESH::SMESH_subMesh_var aSMVar = SMESH::EntryToInterface( myDlg->selectedObject( SMESHGUI_MeshDlg::Obj )); if ( !aSMVar->_is_nil() ) - aMeshVar = aSMVar->GetMesh(); + aMesh = aSMVar->GetMesh(); } - if ( aMeshVar->_is_nil() ) + if ( aMesh->_is_nil() ) return false; // GEOM shape of the main mesh - GEOM::GEOM_Object_var mainGeom = aMeshVar->GetShapeToMesh(); + GEOM::GEOM_Object_var mainGeom = aMesh->GetShapeToMesh(); // Name for the new sub-mesh QString aName = myDlg->objectText(SMESHGUI_MeshDlg::Obj); @@ -1995,7 +1911,7 @@ bool SMESHGUI_MeshOp::createSubMesh( QString& theMess, QStringList& theEntryList aNameOrID = myDlg->selectedObject(SMESHGUI_MeshDlg::Obj); // create sub-mesh - SMESH::SMESH_subMesh_var aSubMeshVar = aMeshVar->GetSubMesh( aGeomVar, aNameOrID.toUtf8().data() ); + SMESH::SMESH_subMesh_var aSubMeshVar = aMesh->GetSubMesh( aGeomVar, aNameOrID.toUtf8().data() ); _PTR(SObject) aSubMeshSO = SMESH::FindSObject( aSubMeshVar.in() ); if ( aSubMeshSO ) { SMESH::SetName( aSubMeshSO, aName.toUtf8().data() ); @@ -2030,24 +1946,25 @@ bool SMESHGUI_MeshOp::createSubMesh( QString& theMess, QStringList& theEntryList selectObject( _PTR(SObject)() ); selectionDone(); - checkSubMeshConcurrency( aMeshVar, aSubMeshVar, /*askUser=*/true ); + checkSubMeshConcurrency( aMesh, aSubMeshVar, /*askUser=*/true ); return true; } //================================================================================ /*! - * \brief Gets current hypothesis or algorithms + * \brief Return index of current hypothesis or algorithm * \param theDim - dimension of hypothesis or algorithm * \param theHypType - Type of hypothesis (Algo, MainHyp, AddHyp) - * \retval int - current hypothesis or algorithms - * - * Gets current hypothesis or algorithms + * \retval int - index of current hypothesis or algorithm, -1 if None selected */ //================================================================================ int SMESHGUI_MeshOp::currentHyp( const int theDim, const int theHypType ) const { - return myDlg->tab( theDim )->currentHyp( theHypType ) - 1; + if ( 0 <= theDim && theDim <= 3 ) + return myDlg->tab( theDim )->currentHyp( theHypType ) - 1; + else + return -1; } //================================================================================ @@ -2177,9 +2094,9 @@ SMESH::SMESH_Hypothesis_var SMESHGUI_MeshOp::getAlgo( const int theDim ) QString aHypName = dataList[ aHypIndex ]->TypeName; // get existing algorithms - _PTR(SObject) pObj = SMESH::getStudy()->FindComponent("SMESH"); + _PTR(SObject) pComp = SMESH::getStudy()->FindComponent("SMESH"); QStringList tmp; - existingHyps( theDim, Algo, pObj, tmp, myExistingHyps[ theDim ][ Algo ]); + existingHyps( theDim, Algo, pComp, tmp, myExistingHyps[ theDim ][ Algo ]); // look for an existing algo of such a type THypList& aHypVarList = myExistingHyps[ theDim ][ Algo ]; @@ -2256,25 +2173,25 @@ void SMESHGUI_MeshOp::readMesh() if ( !pObj ) return; - if (myIsOnGeometry) { - // Get name of mesh if current object is sub-mesh - SMESH::SMESH_subMesh_var aSubMeshVar = - SMESH::SMESH_subMesh::_narrow( _CAST( SObject,pObj )->GetObject() ); - if ( !aSubMeshVar->_is_nil() ) + if ( myIsOnGeometry ) + { + // Set name of mesh if current object is sub-mesh + SMESH::SMESH_subMesh_var subMesh = SMESH::SObjectToInterface< SMESH::SMESH_subMesh >( pObj ); + if ( !subMesh->_is_nil() ) { - SMESH::SMESH_Mesh_var aMeshVar = aSubMeshVar->GetFather(); - if ( !aMeshVar->_is_nil() ) + SMESH::SMESH_Mesh_var aMesh = subMesh->GetFather(); + if ( !aMesh->_is_nil() ) { - _PTR(SObject) aMeshSO = SMESH::FindSObject( aMeshVar ); - QString aMeshName = name( aMeshSO ); + _PTR(SObject) aMeshSO = SMESH::FindSObject( aMesh ); + QString aMeshName = name( aMeshSO ); myDlg->setObjectText( SMESHGUI_MeshDlg::Mesh, aMeshName ); } - myHasConcurrentSubBefore = checkSubMeshConcurrency( aMeshVar, aSubMeshVar ); + myHasConcurrentSubBefore = checkSubMeshConcurrency( aMesh, subMesh ); } if ( !myIsInvalidSubMesh ) { - // Get name of geometry object + // Set name of geometry object CORBA::String_var name = SMESH::GetGeomName( pObj ); if ( name.in() ) myDlg->setObjectText( SMESHGUI_MeshDlg::Geom, name.in() ); @@ -2282,20 +2199,22 @@ void SMESHGUI_MeshOp::readMesh() } // Get hypotheses and algorithms assigned to the mesh/sub-mesh - QStringList anExisting; - const int lastDim = ( myIsOnGeometry ) ? SMESH::DIM_0D : SMESH::DIM_2D; + QStringList anExisting, anAvailable; bool algoFound = false; - for ( int dim = SMESH::DIM_3D; dim >= lastDim; --dim ) + const int dim1st = ( myIsOnGeometry ) ? SMESH::DIM_0D : SMESH::DIM_2D; + for ( int dim = dim1st; dim <= SMESH::DIM_3D; ++dim ) { // get algorithm existingHyps( dim, Algo, pObj, anExisting, myObjHyps[ dim ][ Algo ] ); // find algo index among available ones int aHypIndex = -1; + anAvailable.clear(); if ( myObjHyps[ dim ][ Algo ].count() > 0 ) { - SMESH::SMESH_Hypothesis_var aVar = myObjHyps[ dim ][ Algo ].first().first; - HypothesisData* algoData = SMESH::GetHypothesisData( SMESH::toQStr( aVar->GetName() )); - aHypIndex = myAvailableHypData[ dim ][ Algo ].indexOf ( algoData ); + SMESH::SMESH_Hypothesis_var hyp = myObjHyps[ dim ][ Algo ].first().first; + HypothesisData* algoData = SMESH::GetHypothesisData( SMESH::toQStr( hyp->GetName() )); + availableHyps( dim, Algo, anAvailable, myAvailableHypData[ dim ][ Algo ] ); + aHypIndex = myAvailableHypData[ dim ][ Algo ].indexOf( algoData ); // if ( aHypIndex < 0 && algoData ) { // // assigned algo is incompatible with other algorithms // myAvailableHypData[ dim ][ Algo ].push_back( algoData ); @@ -2303,6 +2222,7 @@ void SMESHGUI_MeshOp::readMesh() // } algoFound = ( aHypIndex > -1 ); } + myDlg->tab( dim )->setAvailableHyps( Algo, anAvailable ); setCurrentHyp( dim, Algo, aHypIndex ); // set existing and available hypothesis according to the selected algo if ( aHypIndex > -1 || !algoFound ) @@ -2311,7 +2231,7 @@ void SMESHGUI_MeshOp::readMesh() // get hypotheses bool hypWithoutAlgo = false; - for ( int dim = SMESH::DIM_3D; dim >= lastDim; --dim ) + for ( int dim = dim1st; dim <= SMESH::DIM_3D; ++dim ) { for ( int hypType = MainHyp; hypType <= AddHyp; hypType++ ) { @@ -2344,7 +2264,7 @@ void SMESHGUI_MeshOp::readMesh() } // make available other hyps of same type as one without algo if ( hypWithoutAlgo ) - onAlgoSelected( currentHyp( 0, Algo ), 0 ); + onAlgoSelected( currentHyp( /*dim=*/0, Algo ), /*dim=*/0 ); } //================================================================================ @@ -2451,11 +2371,11 @@ bool SMESHGUI_MeshOp::editMeshOrSubMesh( QString& theMess ) SALOMEDS_SObject* aSObject = _CAST(SObject, pObj); CORBA::Object_var anObject = aSObject->GetObject(); - SMESH::SMESH_Mesh_var aMeshVar = SMESH::SMESH_Mesh::_narrow( anObject ); + SMESH::SMESH_Mesh_var aMesh = SMESH::SMESH_Mesh::_narrow( anObject ); SMESH::SMESH_subMesh_var aSubMeshVar = SMESH::SMESH_subMesh::_narrow( anObject ); - bool isMesh = !aMeshVar->_is_nil(); + bool isMesh = !aMesh->_is_nil(); if ( !isMesh && !aSubMeshVar->_is_nil() ) - aMeshVar = aSubMeshVar->GetFather(); + aMesh = aSubMeshVar->GetFather(); // Assign new algorithms and hypotheses for ( int dim = aDim; dim <= SMESH::DIM_3D; dim++ ) @@ -2470,7 +2390,7 @@ bool SMESHGUI_MeshOp::editMeshOrSubMesh( QString& theMess ) myObjHyps[ dim ][ Algo ].count() == 0 ) // no algo assigned { if ( isMesh ) - SMESH::AddHypothesisOnMesh( aMeshVar, anAlgoVar ); + SMESH::AddHypothesisOnMesh( aMesh, anAlgoVar ); else if ( !aSubMeshVar->_is_nil() ) SMESH::AddHypothesisOnSubMesh( aSubMeshVar, anAlgoVar ); @@ -2503,7 +2423,7 @@ bool SMESHGUI_MeshOp::editMeshOrSubMesh( QString& theMess ) if ( !isAssigned ) { if ( isMesh ) - SMESH::AddHypothesisOnMesh (aMeshVar, hyp ); + SMESH::AddHypothesisOnMesh (aMesh, hyp ); else if ( !aSubMeshVar->_is_nil() ) SMESH::AddHypothesisOnSubMesh ( aSubMeshVar, hyp ); } @@ -2515,7 +2435,7 @@ bool SMESHGUI_MeshOp::editMeshOrSubMesh( QString& theMess ) } myHasConcurrentSubBefore = - checkSubMeshConcurrency( aMeshVar, aSubMeshVar, /*askUser=*/!myHasConcurrentSubBefore ); + checkSubMeshConcurrency( aMesh, aSubMeshVar, /*askUser=*/!myHasConcurrentSubBefore ); return true; } @@ -2605,13 +2525,13 @@ void SMESHGUI_MeshOp::onGeomSelectionByMesh( bool theByMesh ) // set mesh object to SMESHGUI_ShapeByMeshOp and start it QString aMeshEntry = myDlg->selectedObject( SMESHGUI_MeshDlg::Mesh ); if ( _PTR(SObject) pMesh = SMESH::getStudy()->FindObjectID( aMeshEntry.toUtf8().data() )) { - SMESH::SMESH_Mesh_var aMeshVar = + SMESH::SMESH_Mesh_var aMesh = SMESH::SMESH_Mesh::_narrow( _CAST( SObject,pMesh )->GetObject() ); - if ( !aMeshVar->_is_nil() ) { + if ( !aMesh->_is_nil() ) { myDlg->hide(); // stop processing selection myShapeByMeshOp->setModule( getSMESHGUI() ); myShapeByMeshOp->setStudy( 0 ); // it's really necessary - myShapeByMeshOp->SetMesh( aMeshVar ); + myShapeByMeshOp->SetMesh( aMesh ); myShapeByMeshOp->start(); } } @@ -2673,185 +2593,55 @@ void SMESHGUI_MeshOp::selectObject( _PTR(SObject) theSObj ) const } //================================================================================ /*! - * \brief Create available list types of mesh - * \param theTypeMesh - Output list of available types of mesh + * \brief Update available list of mesh types */ //================================================================================ -void SMESHGUI_MeshOp::createMeshTypeList( QStringList& theTypeMesh) +void SMESHGUI_MeshOp::updateMeshTypeList() { - theTypeMesh.clear(); - theTypeMesh.append( tr( "MT_ANY" ) ); + QStringList meshTypes; + meshTypes.append( tr( "MT_ANY" ) ); if ( myMaxShapeDim >= 2 || myMaxShapeDim == -1 ) { - theTypeMesh.append( tr( "MT_TRIANGULAR" ) ); - theTypeMesh.append( tr( "MT_QUADRILATERAL" ) ); + meshTypes.append( tr( "MT_TRIANGULAR" ) ); + meshTypes.append( tr( "MT_QUADRILATERAL" ) ); } if ( myMaxShapeDim == 3 || myMaxShapeDim == -1 ) { - theTypeMesh.append( tr( "MT_TETRAHEDRAL" ) ); - theTypeMesh.append( tr( "MT_HEXAHEDRAL" ) ); + meshTypes.append( tr( "MT_TETRAHEDRAL" ) ); + meshTypes.append( tr( "MT_HEXAHEDRAL" ) ); } -} -//================================================================================ -/*! - * \brief Set available types of mesh - * \param theTypeMesh - List of available types of mesh - */ -//================================================================================ -void SMESHGUI_MeshOp::setAvailableMeshType( const QStringList& theTypeMesh ) -{ - myDlg->setAvailableMeshType( theTypeMesh ); + myDlg->setAvailableMeshType( meshTypes ); } //================================================================================ /*! - * \brief SLOT. Is called when the user select type of mesh - * \param theTabIndex - Index of current active tab - * \param theIndex - Index of current type of mesh + * \brief Update available list of hypothesis sets */ //================================================================================ -void SMESHGUI_MeshOp::onAlgoSetByMeshType( const int theTabIndex, const int theIndex ) +void SMESHGUI_MeshOp::updateHypoSets() { - setFilteredAlgoData( theTabIndex, theIndex); -} + // get available algorithms taking into account geometry and mesh type + QStringList algosAvailable; + if ( myDlg->currentMeshType() != MT_ANY ) + for ( int dim = 0; dim <= 3; ++dim ) + availableHyps( dim, Algo, algosAvailable, myAvailableHypData[ dim ][ Algo ] ); -//================================================================================ -/*! - * \brief Set a filtered list of available algorithms by mesh type - * \param theTabIndex - Index of current active tab - * \param theIndex - Index of current type of mesh - */ -//================================================================================ -void SMESHGUI_MeshOp::setFilteredAlgoData( const int theTabIndex, const int theIndex ) -{ - QStringList anAvailableAlgs; - QString anCompareType = currentMeshTypeName( theIndex ); - int anCurrentAvailableAlgo = -1; - bool isNone = true; - int aDim = SMESH::DIM_3D; - if ( theIndex == MT_TRIANGULAR || theIndex == MT_QUADRILATERAL) - aDim = SMESH::DIM_2D; - if ( anCompareType == "ANY" ) - { - bool isReqDisBound = false; - int aReqDim = SMESH::DIM_3D; - for ( int dim = SMESH::DIM_3D; dim >= SMESH::DIM_2D; dim-- ) - { - anCurrentAvailableAlgo = -1; - isNone = currentHyp( dim, Algo ) < 0; - //return current algo in current tab and set new algorithm list - HypothesisData* algoCur = 0; - if ( !isNone && !myAvailableHypData[dim][Algo].empty() ) { - algoCur = myAvailableHypData[dim][Algo].at( currentHyp( dim, Algo ) ); - } - HypothesisData* prevAlgo = 0; - HypothesisData* nextAlgo = 0; - if ( dim == SMESH::DIM_2D ) { - prevAlgo = hypData( SMESH::DIM_1D, Algo, currentHyp( SMESH::DIM_1D, Algo ) ); - if ( aDim == SMESH::DIM_3D ) - nextAlgo = hypData( SMESH::DIM_3D, Algo, currentHyp( SMESH::DIM_3D, Algo ) ); - } - // retrieves a list of available algorithms from resources - availableHyps( dim, Algo, anAvailableAlgs, myAvailableHypData[dim][Algo], prevAlgo, nextAlgo, anCompareType); - anCurrentAvailableAlgo = myAvailableHypData[dim][Algo].indexOf( algoCur ); - myDlg->tab( dim )->setAvailableHyps( Algo, anAvailableAlgs ); - setCurrentHyp( dim, Algo, anCurrentAvailableAlgo ); - if ( anCurrentAvailableAlgo > -1 ) - isReqDisBound = algoCur->InputTypes.isEmpty(); - if ( isReqDisBound ) { - aReqDim = dim; - break; - } - } - if ( !myIsOnGeometry ) - for ( int i = SMESH::DIM_0D; i <= SMESH::DIM_3D; i++ ) { - bool disable = myAvailableHypData[i][Algo].isEmpty(); - if ( disable ) myDlg->disableTab( i ); - else myDlg->enableTab( i ); - } - else - for ( int i = SMESH::DIM_0D; i <= SMESH::DIM_3D; i++ ) { - if ( i > myMaxShapeDim || ( isReqDisBound && i < aReqDim ) ) myDlg->disableTab( i ); - else myDlg->enableTab( i ); - } - myDlg->setCurrentTab( theTabIndex ); - } - else - { - HypothesisData* anCurrentAlgo = 0; - bool isReqDisBound = true; - QString anCurrentCompareType = anCompareType; - isNone = currentHyp( aDim, Algo ) < 0; - if ( !isNone && !myAvailableHypData[aDim][Algo].empty() ) - isReqDisBound = myAvailableHypData[aDim][Algo].at( currentHyp( aDim, Algo ) )->InputTypes.isEmpty(); - for ( int dim = aDim; dim >= SMESH::DIM_2D; dim-- ) - { - bool isNoneAlg = currentHyp( dim, Algo ) < 0; - anCurrentAvailableAlgo = -1; - HypothesisData* prevAlgo = 0; - HypothesisData* nextAlgo = 0; - if ( dim == SMESH::DIM_2D ) { - prevAlgo = hypData( SMESH::DIM_1D, Algo, currentHyp( SMESH::DIM_1D, Algo ) ); - if ( aDim == SMESH::DIM_3D ) - nextAlgo = hypData( SMESH::DIM_3D, Algo, currentHyp( SMESH::DIM_3D, Algo ) ); - } - // finding algorithm which is selected - if ( !isNoneAlg ) { - anCurrentAlgo = myAvailableHypData[dim][Algo].at( currentHyp( dim, Algo ) ); - } - // retrieves a list of available algorithms from resources - availableHyps( dim, Algo, anAvailableAlgs, myAvailableHypData[dim][Algo], prevAlgo, nextAlgo, anCurrentCompareType ); - // finding and adding algorithm depending on the type mesh - anCurrentAvailableAlgo = myAvailableHypData[dim][Algo].indexOf( anCurrentAlgo ); - //set new algorithm list and select the current algorithm - myDlg->tab( dim )->setAvailableHyps( Algo, anAvailableAlgs ); - anCurrentCompareType = ( anCompareType == "HEXA" || anCompareType == "QUAD" ) ? "QUAD" : "TRIA"; - setCurrentHyp( dim, Algo, anCurrentAvailableAlgo, /*updateHyps=*/true ); - } - - for ( int i = myMaxShapeDim; i >= SMESH::DIM_0D; i-- ) { - bool isNoneAlg = currentHyp( i, Algo ) < 0; - if ( !isNoneAlg ) - isReqDisBound = myAvailableHypData[i][Algo].at( currentHyp( i, Algo ) )->InputTypes.isEmpty(); - else - isReqDisBound = true; - if ( isReqDisBound && !isNoneAlg && i <= aDim) { - for (int j = myMaxShapeDim; j >= SMESH::DIM_0D; j--) { - if ( currentHyp( j, Algo ) < 0 ) { - myDlg->disableTab( j ); - setCurrentHyp( j , Algo, -1, /*updateHyps=*/true ); - } - } - break; - } - else { - myDlg->enableTab( i ); - } - } - if ( aDim == SMESH::DIM_2D) { - setCurrentHyp( SMESH::DIM_3D, Algo, -1, /*updateHyps=*/true ); - myDlg->disableTab( SMESH::DIM_3D ); - } - - int currentTab = ( theTabIndex <= aDim ) ? theTabIndex : aDim; - myDlg->setCurrentTab( currentTab ); - } THypDataList anAvailableAlgsData; - QStringList aHypothesesSetsList = SMESH::GetHypothesesSets( aDim ); + QStringList aHypothesesSetsList = SMESH::GetHypothesesSets( myMaxShapeDim ); QStringList aFilteredHypothesesSetsList; - aFilteredHypothesesSetsList.clear(); QStringList::const_iterator inHypoSetName = aHypothesesSetsList.begin(); - for ( ; inHypoSetName != aHypothesesSetsList.end(); ++inHypoSetName ) { + for ( ; inHypoSetName != aHypothesesSetsList.end(); ++inHypoSetName ) + { HypothesesSet* currentHypoSet = SMESH::GetHypothesesSet( *inHypoSetName ); bool isAvailable = false; - currentHypoSet->init( true ); - while ( currentHypoSet->next(), currentHypoSet->more() ) { + for ( currentHypoSet->init( true ); currentHypoSet->more(); currentHypoSet->next() ) + { isAvailable = false; if ( HypothesisData* algoDataIn = SMESH::GetHypothesisData( currentHypoSet->current() )) { for (int i = SMESH::DIM_0D; i <= myMaxShapeDim; i++) { - int anCurrentAvailableAlgo = myAvailableHypData[i][Algo].indexOf( algoDataIn ); - if ( anCurrentAvailableAlgo > -1 ) { + int aCurrentAvailableAlgo = myAvailableHypData[i][Algo].indexOf( algoDataIn ); + if ( aCurrentAvailableAlgo > -1 ) { isAvailable = true; break; } @@ -2868,32 +2658,12 @@ void SMESHGUI_MeshOp::setFilteredAlgoData( const int theTabIndex, const int theI //================================================================================ /*! - * \brief Get current name types of mesh - * \param theIndex - current index types of mesh - * \retval QString - result + * \brief SLOT. Is called when the user select type of mesh + * \param theTabIndex - Index of current active tab + * \param theIndex - Index of current type of mesh */ //================================================================================ -QString SMESHGUI_MeshOp::currentMeshTypeName( const int theIndex ) const +void SMESHGUI_MeshOp::onAlgoSetByMeshType( const int theTabIndex, const int theIndex ) { - QString aMeshType = ""; - switch ( theIndex ) { - case MT_ANY: - aMeshType = "ANY"; - break; - case MT_TRIANGULAR: - aMeshType = "TRIA"; - break; - case MT_QUADRILATERAL: - aMeshType = "QUAD"; - break; - case MT_TETRAHEDRAL: - aMeshType = "TETRA"; - break; - case MT_HEXAHEDRAL: - aMeshType = "HEXA"; - break; - default:; - } - return aMeshType; + setFilteredAlgoData(); } - diff --git a/src/SMESHGUI/SMESHGUI_MeshOp.h b/src/SMESHGUI/SMESHGUI_MeshOp.h index 9f35b7fba..d93e4a12e 100644 --- a/src/SMESHGUI/SMESHGUI_MeshOp.h +++ b/src/SMESHGUI/SMESHGUI_MeshOp.h @@ -32,6 +32,11 @@ #include "SMESHGUI_SelectionOp.h" +// IDL includes +#include +#include CORBA_CLIENT_HEADER(SMESH_Gen) +#include CORBA_CLIENT_HEADER(GEOM_Gen) + class HypothesesSet; class SMESHGUI_MeshDlg; class SMESHGUI_ShapeByMeshOp; @@ -82,7 +87,6 @@ protected slots: void onPublishShapeByMeshDlg( SUIT_Operation* ); void onCloseShapeByMeshDlg( SUIT_Operation* ); void onAlgoSelected( const int, const int = -1 ); - void processSet(); void onHypoCreated( int ); void onHypoEdited( int ); void onAlgoSetByMeshType( const int, const int ); @@ -92,11 +96,8 @@ private: typedef QMap THypLabelIsAppMap; // typedef: map of hypothesis is applicable bool isValid( QString& ) const; - bool isCompatibleToGeometry( HypothesisData* , - QString, - GEOM::GEOM_Object_var); - bool isCompatibleToMeshType( HypothesisData* , - QString); + bool isCompatibleToGeometry( HypothesisData* , const int); + bool isCompatibleToMeshType( HypothesisData* , const int); void availableHyps( const int, const int, QStringList&, @@ -142,10 +143,9 @@ private: char* isSubmeshIgnored() const; _PTR(SObject) getSubmeshByGeom() const; void selectObject( _PTR(SObject) ) const; - void createMeshTypeList( QStringList& ); - void setAvailableMeshType( const QStringList& ); - void setFilteredAlgoData( const int, const int ); - QString currentMeshTypeName( const int ) const; + void updateMeshTypeList(); + void updateHypoSets(); + void setFilteredAlgoData(); private: @@ -159,15 +159,17 @@ private: // The geometry of "invalid sub-mesh" is not a sub-shape of the main shape; // it is created for the case where a valid sub-shape not found by CopyMeshWithGeom() + QString myGeomEntry; + GEOM::GEOM_Object_var myGeom; + TDim2Type2HypList myExistingHyps; //!< all hypothesis of SMESH module TDim2Type2HypList myObjHyps; //!< hypothesis assigned to the current // edited mesh/sub-mesh // hypdata corresponding to hypotheses present in myDlg THypDataList myAvailableHypData[4][NbHypTypes]; - QString myLastGeomToSelect; + QString myLastGeomEntry; THypLabelIsAppMap myHypMapIsApplicable; bool myIgnoreAlgoSelection; - HypothesesSet* myHypoSet; int myDim, myType, myMaxShapeDim; QString myObjectToSelect; diff --git a/src/SMESHGUI/SMESH_msg_en.ts b/src/SMESHGUI/SMESH_msg_en.ts index 7cc9294ef..725431f1c 100644 --- a/src/SMESHGUI/SMESH_msg_en.ts +++ b/src/SMESHGUI/SMESH_msg_en.ts @@ -8222,7 +8222,7 @@ as they are of improper type: Some sub-shapes not found in the new geometry. They are listed below along with dependent mesh objects that are marked with -with red in the Object Browser. +red in the Object Browser. diff --git a/src/SMESHUtils/CMakeLists.txt b/src/SMESHUtils/CMakeLists.txt index 9692a8be5..0adf75ebf 100644 --- a/src/SMESHUtils/CMakeLists.txt +++ b/src/SMESHUtils/CMakeLists.txt @@ -61,6 +61,7 @@ SET(SMESHUtils_HEADERS SMESH_MAT2d.hxx SMESH_ControlPnt.hxx SMESH_Delaunay.hxx + SMESH_Indexer.hxx ) # --- sources --- diff --git a/src/SMESHUtils/SMESH_Delaunay.cxx b/src/SMESHUtils/SMESH_Delaunay.cxx index 8b1f252d6..e2a4a99b6 100644 --- a/src/SMESHUtils/SMESH_Delaunay.cxx +++ b/src/SMESHUtils/SMESH_Delaunay.cxx @@ -276,12 +276,12 @@ const BRepMesh_Triangle* SMESH_Delaunay::GetTriangleNear( int iBndNode ) int nodeIDs[3]; int nbNbNodes = _bndNodes.size(); #if OCC_VERSION_LARGE <= 0x07030000 - const BRepMesh::ListOfInteger & linkIds = _triaDS->LinksConnectedTo( iBndNode + 1 ); - BRepMesh::ListOfInteger::const_iterator iLink = linkIds.cbegin(); + typedef BRepMesh::ListOfInteger TLinkList; #else - const IMeshData::ListOfInteger & linkIds = _triaDS->LinksConnectedTo( iBndNode + 1 ); - IMeshData::ListOfInteger::const_iterator iLink = linkIds.cbegin(); + typedef IMeshData::ListOfInteger TLinkList; #endif + const TLinkList & linkIds = _triaDS->LinksConnectedTo( iBndNode + 1 ); + TLinkList::const_iterator iLink = linkIds.cbegin(); for ( ; iLink != linkIds.cend(); ++iLink ) { const BRepMesh_PairOfIndex & triaIds = _triaDS->ElementsConnectedTo( *iLink ); @@ -363,7 +363,7 @@ void SMESH_Delaunay::ToPython() const text << "import salome, SMESH\n"; text << "salome.salome_init()\n"; text << "from salome.smesh import smeshBuilder\n"; - text << "smesh = smeshBuilder.New(salome.myStudy)\n"; + text << "smesh = smeshBuilder.New()\n"; text << "mesh=smesh.Mesh()\n"; const char* endl = "\n"; @@ -388,5 +388,5 @@ void SMESH_Delaunay::ToPython() const file.remove(); file.openForWriting(); file.write( text.c_str(), text.size() ); - cout << "execfile( '" << fileName << "')" << endl; + cout << "exec(open('" << fileName << "', 'rb').read())"; } diff --git a/src/SMESHUtils/SMESH_Indexer.hxx b/src/SMESHUtils/SMESH_Indexer.hxx new file mode 100644 index 000000000..ff5628bbe --- /dev/null +++ b/src/SMESHUtils/SMESH_Indexer.hxx @@ -0,0 +1,153 @@ +// Copyright (C) 2007-2019 CEA/DEN, EDF R&D, OPEN CASCADE +// +// Copyright (C) 2003-2007 OPEN CASCADE, EADS/CCR, LIP6, CEA/DEN, +// CEDRAT, EDF R&D, LEG, PRINCIPIA R&D, BUREAU VERITAS +// +// This library is free software; you can redistribute it and/or +// modify it under the terms of the GNU Lesser General Public +// License as published by the Free Software Foundation; either +// version 2.1 of the License, or (at your option) any later version. +// +// This library is distributed in the hope that it will be useful, +// but WITHOUT ANY WARRANTY; without even the implied warranty of +// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU +// Lesser General Public License for more details. +// +// You should have received a copy of the GNU Lesser General Public +// License along with this library; if not, write to the Free Software +// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA +// +// See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com +// +// File : SMESH_Indexer.hxx +// Created : Tue May 21 18:24:01 2019 +// Author : Edward AGAPOV (eap) + + +#ifndef __SMESH_Indexer_HXX__ +#define __SMESH_Indexer_HXX__ + +//================================================================================ +/*! + * \brief Converter of a pair of indices to a sole index, useful to make + * 1D array behave as 2D one + */ +struct SMESH_Indexer +{ + size_t _xSize, _ySize; + + //! Initialize with size in two directions + SMESH_Indexer( size_t xSize=0, size_t ySize=0 ): _xSize(xSize), _ySize(ySize) {} + + //! set size + void set(size_t xSize, size_t ySize ) { _xSize = xSize, _ySize = ySize; } + + //! \return size of 1D array + size_t size() const { return _xSize * _ySize; } + + // \return 1D index by two indices + size_t operator()(size_t x, size_t y) const { return y * _xSize + x; } +}; + +//================================================================================ +/*! + * \brief Converter of a triple of indices to a sole index, useful to make + * 1D array behave as 3D one + */ +struct SMESH_Indexer3D +{ + size_t _xSize, _ySize, _zSize; + + //! Initialize with size in two directions + SMESH_Indexer3D( size_t xSize=0, size_t ySize=0, size_t zSize=0 ): + _xSize(xSize), _ySize(ySize), _zSize(zSize) {} + + //! set size + void set(size_t xSize, size_t ySize, size_t zSize ) + { _xSize = xSize, _ySize = ySize, _zSize = zSize; } + + //! \return size of 1D array + size_t size() const { return _xSize * _ySize * _zSize; } + + // \return 1D index by three indices + size_t operator()(size_t x, size_t y, size_t z) const { return z*_xSize*_ySize + y*_xSize + x; } +}; + +//================================================================================ +/*! + * \brief Oriented converter of a pair of integers to a sole index + * + * Allows virtual transformation of an 1D array viewed as 2D one. + * Possible transformations are inverse in one or two directions and exchange of + * the directions. Any combination of these transformations is allowed. + * + * The following code picks up a transformation such that two known array items + * appear in a desired positions: + * \code + * for ( int ori = 0; ori < SMESH_OrientedIndexer::MAX_ORI+1; ++ori ) + * { + * SMESH_OrientedIndexer oriIndex( index, ori ); + * if ( item1 == array[ oriIndex( i1, j1 ) ] && + * item2 == array[ oriIndex( i2, j2 ) ]) + * { + * // needed transformation found + * } + * } + * \endcode + */ +class SMESH_OrientedIndexer : public SMESH_Indexer +{ + typedef SMESH_Indexer TFather; +public: + enum OriFlags //!< transformation types + { + REV_X = 1, REV_Y = 2, SWAP_XY = 4, MAX_ORI = REV_X|REV_Y|SWAP_XY + }; + + SMESH_OrientedIndexer( const SMESH_Indexer& indexer, const int oriFlags ): + TFather( indexer._xSize, indexer._ySize ), + _xRevFun( (oriFlags & REV_X) ? & reverse : & lazy ), + _yRevFun( (oriFlags & REV_Y) ? & reverse : & lazy ), + _swapFun( (oriFlags & SWAP_XY ) ? & swap : & lazy ), + _xSizeOriented( indexer._xSize ), + _ySizeOriented( indexer._ySize ) + { + (*_swapFun)( _xSizeOriented, _ySizeOriented ); + } + + //!< Return index by XY + size_t operator()(size_t x, size_t y) const + { + (*_swapFun)( x, y ); + (*_xRevFun)( x, const_cast< size_t& >( _xSize )); + (*_yRevFun)( y, const_cast< size_t& >( _ySize )); + return TFather::operator()( x, y ); + } + + //!< Return index for a corner + size_t corner(bool xMax, bool yMax) const + { + size_t x = xMax, y = yMax, size = 2; + (*_swapFun)( x, y ); + (*_xRevFun)( x, size ); + (*_yRevFun)( y, size ); + return TFather::operator()( x ? _xSize-1 : 0, + y ? _ySize-1 : 0 ); + } + size_t xSize() const { return _xSizeOriented; } + size_t ySize() const { return _ySizeOriented; } + +private: + + typedef void (*TFun)(size_t& x, size_t& y); + TFun _xRevFun, _yRevFun, _swapFun; + + size_t _xSizeOriented, _ySizeOriented; + + static void lazy (size_t& , size_t& ) {} + static void reverse(size_t& x, size_t& size) { x = size - x - 1; } + static void swap (size_t& x, size_t& y) { std::swap( x, y ); } +}; + + +#endif diff --git a/src/SMESHUtils/SMESH_TypeDefs.hxx b/src/SMESHUtils/SMESH_TypeDefs.hxx index 7b4e4b41b..294a8aece 100644 --- a/src/SMESHUtils/SMESH_TypeDefs.hxx +++ b/src/SMESHUtils/SMESH_TypeDefs.hxx @@ -76,6 +76,7 @@ namespace SMESHUtils TVECTOR v2( vec ); vec.swap( v2 ); } + /*! * \brief Auto pointer */ @@ -91,6 +92,7 @@ namespace SMESHUtils private: Deleter( const Deleter& ); }; + /*! * \brief Auto pointer to array */ @@ -104,6 +106,9 @@ namespace SMESHUtils ArrayDeleter( const ArrayDeleter& ); }; + /*! + * \return SMDS_ElemIteratorPtr on an std container of SMDS_MeshElement's + */ template < class ELEM_SET > SMDS_ElemIteratorPtr elemSetIterator( const ELEM_SET& elements ) { @@ -111,6 +116,24 @@ namespace SMESHUtils < SMDS_pElement, typename ELEM_SET::const_iterator> TSetIterator; return boost::make_shared< TSetIterator >( elements.begin(), elements.end() ); } + + /*! + * \brief Increment enum value + */ + template < typename ENUM > + void Increment( ENUM& v, int delta=1 ) + { + v = ENUM( int(v)+delta ); + } + + /*! + * \brief Return incremented enum value + */ + template < typename ENUM > + ENUM Add( ENUM v, int delta ) + { + return ENUM( int(v)+delta ); + } } //======================================================================= @@ -213,7 +236,7 @@ typedef struct uvPtStruct double x, y; // 2d parameter, normalized [0,1] const SMDS_MeshNode * node; - uvPtStruct(): node(NULL) {} + uvPtStruct(const SMDS_MeshNode* n = 0): node(n) {} inline gp_XY UV() const { return gp_XY( u, v ); } inline void SetUV( const gp_XY& uv ) { u = uv.X(); v = uv.Y(); } diff --git a/src/SMESH_I/SMESH_Gen_i.cxx b/src/SMESH_I/SMESH_Gen_i.cxx index 51c78a130..3bcb224e2 100644 --- a/src/SMESH_I/SMESH_Gen_i.cxx +++ b/src/SMESH_I/SMESH_Gen_i.cxx @@ -6145,7 +6145,8 @@ CORBA::Boolean SMESH_Gen_i::IsApplicable ( const char* theAlgoType, if (aCreator) { TopoDS_Shape shape = GeomObjectToShape( theGeomObject ); - return shape.IsNull() || aCreator->IsApplicable( shape, toCheckAll ); + const SMESH_Algo::Features& feat = SMESH_Algo::GetFeatures( theAlgoType ); + return shape.IsNull() || aCreator->IsApplicable( shape, toCheckAll, feat._dim ); } else { diff --git a/src/SMESH_I/SMESH_Hypothesis_i.cxx b/src/SMESH_I/SMESH_Hypothesis_i.cxx index 054778f22..c556187fc 100644 --- a/src/SMESH_I/SMESH_Hypothesis_i.cxx +++ b/src/SMESH_I/SMESH_Hypothesis_i.cxx @@ -34,6 +34,8 @@ #include #include +#include + using namespace std; //============================================================================= @@ -326,3 +328,24 @@ void SMESH_Hypothesis_i::UpdateAsMeshesRestored() { // for hyps needing full data restored } + +//================================================================================ +/*! + * \brief Check if a shape includes sub-shapes of a given dimension + */ +//================================================================================ + +bool GenericHypothesisCreator_i::IsShapeOfDim( const TopoDS_Shape & S, + int dim ) +{ + TopAbs_ShapeEnum shapeType; + switch ( dim ) + { + case 0: shapeType = TopAbs_VERTEX; break; + case 1: shapeType = TopAbs_EDGE; break; + case 2: shapeType = TopAbs_FACE; break; + case 3: shapeType = TopAbs_SOLID; break; + default: return true; + } + return TopExp_Explorer( S, shapeType ).More(); +} diff --git a/src/SMESH_I/SMESH_Hypothesis_i.hxx b/src/SMESH_I/SMESH_Hypothesis_i.hxx index 1408ee384..1551d0a47 100644 --- a/src/SMESH_I/SMESH_Hypothesis_i.hxx +++ b/src/SMESH_I/SMESH_Hypothesis_i.hxx @@ -148,9 +148,17 @@ public: ::SMESH_Gen* theGenImpl) = 0; virtual ~GenericHypothesisCreator_i() {} - // return the name of IDL module + // Return the name of IDL module virtual std::string GetModuleName() = 0; - virtual bool IsApplicable( const TopoDS_Shape &S, bool toCheckAll ) {return true;} + + // Check if an algorithm is applicable to a shape + virtual bool IsApplicable( const TopoDS_Shape &S, bool toCheckAll, int algoDim ) + { + return IsShapeOfDim( S, algoDim ); + } + + // Check if a shape includes sub-shapes of a given dimension + static bool IsShapeOfDim( const TopoDS_Shape &S, int dim ); }; //============================================================================= diff --git a/src/StdMeshers/StdMeshers_HexaFromSkin_3D.cxx b/src/StdMeshers/StdMeshers_HexaFromSkin_3D.cxx index d0e72a0fa..58ee0c719 100644 --- a/src/StdMeshers/StdMeshers_HexaFromSkin_3D.cxx +++ b/src/StdMeshers/StdMeshers_HexaFromSkin_3D.cxx @@ -27,6 +27,7 @@ #include "SMDS_VolumeTool.hxx" #include "SMESHDS_Mesh.hxx" #include "SMESH_Block.hxx" +#include "SMESH_Indexer.hxx" #include "SMESH_Mesh.hxx" #include "SMESH_MeshAlgos.hxx" #include "SMESH_MesherHelper.hxx" @@ -59,6 +60,10 @@ using namespace std; namespace { + // typedefs for struct's moved to SMESHUtils + typedef SMESH_Indexer _Indexer; + typedef SMESH_OrientedIndexer _OrientedIndexer; + enum EBoxSides //!< sides of the block { B_BOTTOM=0, B_RIGHT, B_TOP, B_LEFT, B_FRONT, B_BACK, NB_BLOCK_SIDES @@ -143,67 +148,6 @@ namespace return quad->GetNode( (iNode+2) % 4 ); } - //================================================================================ - /*! - * \brief Converter of a pair of integers to a sole index - */ - struct _Indexer - { - int _xSize, _ySize; - _Indexer( int xSize=0, int ySize=0 ): _xSize(xSize), _ySize(ySize) {} - int size() const { return _xSize * _ySize; } - int operator()(int x, int y) const { return y * _xSize + x; } - }; - //================================================================================ - /*! - * \brief Oriented converter of a pair of integers to a sole index - */ - class _OrientedIndexer : public _Indexer - { - public: - enum OriFlags //!< types of block side orientation - { - REV_X = 1, REV_Y = 2, SWAP_XY = 4, MAX_ORI = REV_X|REV_Y|SWAP_XY - }; - _OrientedIndexer( const _Indexer& indexer, const int oriFlags ): - _Indexer( indexer._xSize, indexer._ySize ), - _xSize (indexer._xSize), _ySize(indexer._ySize), - _xRevFun((oriFlags & REV_X) ? & reverse : & lazy), - _yRevFun((oriFlags & REV_Y) ? & reverse : & lazy), - _swapFun((oriFlags & SWAP_XY ) ? & swap : & lazy) - { - (*_swapFun)( _xSize, _ySize ); - } - //!< Return index by XY - int operator()(int x, int y) const - { - (*_xRevFun)( x, const_cast( _xSize )); - (*_yRevFun)( y, const_cast( _ySize )); - (*_swapFun)( x, y ); - return _Indexer::operator()(x,y); - } - //!< Return index for a corner - int corner(bool xMax, bool yMax) const - { - int x = xMax, y = yMax, size = 2; - (*_xRevFun)( x, size ); - (*_yRevFun)( y, size ); - (*_swapFun)( x, y ); - return _Indexer::operator()(x ? _Indexer::_xSize-1 : 0 , y ? _Indexer::_ySize-1 : 0); - } - int xSize() const { return _xSize; } - int ySize() const { return _ySize; } - private: - _Indexer _indexer; - int _xSize, _ySize; - - typedef void (*TFun)(int& x, int& y); - TFun _xRevFun, _yRevFun, _swapFun; - - static void lazy (int&, int&) {} - static void reverse(int& x, int& size) { x = size - x - 1; } - static void swap (int& x, int& y) { std::swap(x,y); } - }; //================================================================================ /*! * \brief Structure corresponding to the meshed side of block @@ -216,7 +160,7 @@ namespace int _nbBlocksFound; #ifdef _DEBUG_ // want to get SIGSEGV in case of invalid index -#define _grid_access_(pobj, i) pobj->_grid[ ((i) < (int)pobj->_grid.size()) ? i : int(1e100)] +#define _grid_access_(pobj, i) pobj->_grid[ ((i) < pobj->_grid.size()) ? i : int(1e100)] #else #define _grid_access_(pobj, i) pobj->_grid[ i ] #endif diff --git a/src/StdMeshers/StdMeshers_QuadrangleParams.cxx b/src/StdMeshers/StdMeshers_QuadrangleParams.cxx index 9e0e3b2d0..286641f79 100644 --- a/src/StdMeshers/StdMeshers_QuadrangleParams.cxx +++ b/src/StdMeshers/StdMeshers_QuadrangleParams.cxx @@ -142,6 +142,10 @@ ostream & StdMeshers_QuadrangleParams::SaveTo(ostream & save) << " " << _enforcedPoints[i].Y() << " " << _enforcedPoints[i].Z(); + save << " " << _cornerVertices.size(); + for ( size_t i = 0; i < _cornerVertices.size(); ++i ) + save << " " << _cornerVertices[i]; + return save; } @@ -182,6 +186,17 @@ istream & StdMeshers_QuadrangleParams::LoadFrom(istream & load) else break; } + + if ( load >> nbP && nbP > 0 ) + { + int id; + _cornerVertices.reserve( nbP ); + while ( _cornerVertices.size() < _cornerVertices.capacity() ) + if ( load >> id ) + _cornerVertices.push_back( id ); + else + break; + } return load; } diff --git a/src/StdMeshers/StdMeshers_QuadrangleParams.hxx b/src/StdMeshers/StdMeshers_QuadrangleParams.hxx index b66b9bed1..80edff88c 100644 --- a/src/StdMeshers/StdMeshers_QuadrangleParams.hxx +++ b/src/StdMeshers/StdMeshers_QuadrangleParams.hxx @@ -43,7 +43,7 @@ enum StdMeshers_QuadType class STDMESHERS_EXPORT StdMeshers_QuadrangleParams: public SMESH_Hypothesis { -public: + public: StdMeshers_QuadrangleParams(int hypId, SMESH_Gen* gen); virtual ~StdMeshers_QuadrangleParams(); @@ -61,14 +61,17 @@ public: void GetEnforcedNodes( std::vector< TopoDS_Shape >& shapes, std::vector< gp_Pnt >& points ) const; + void SetCorners( std::vector< int >& vertexIDs ) { _cornerVertices.swap( vertexIDs ); } + const std::vector< int >& GetCorners() const { return _cornerVertices; } + virtual std::ostream & SaveTo(std::ostream & save); virtual std::istream & LoadFrom(std::istream & load); /*! * \brief Initialize start and end length by the mesh built on the geometry - * \param theMesh - the built mesh - * \param theShape - the geometry of interest - * \retval bool - true if parameter values have been successfully defined + * \param theMesh - the built mesh + * \param theShape - the geometry of interest + * \retval bool - true if parameter values have been successfully defined */ virtual bool SetParametersByMesh(const SMESH_Mesh* theMesh, const TopoDS_Shape& theShape); @@ -86,6 +89,7 @@ protected: StdMeshers_QuadType _quadType; std::vector< TopoDS_Shape > _enforcedVertices; std::vector< gp_Pnt > _enforcedPoints; + std::vector< int > _cornerVertices; }; #endif diff --git a/src/StdMeshers/StdMeshers_Quadrangle_2D.cxx b/src/StdMeshers/StdMeshers_Quadrangle_2D.cxx index e41667306..6173866f4 100644 --- a/src/StdMeshers/StdMeshers_Quadrangle_2D.cxx +++ b/src/StdMeshers/StdMeshers_Quadrangle_2D.cxx @@ -1048,6 +1048,74 @@ namespace return true; } + //================================================================================ + /*! + * \brief Return angle between mesh segments of given EDGEs meeting at theVertexNode + */ + //================================================================================ + + double getAngleByNodes( const int theE1Index, + const int theE2Index, + const SMDS_MeshNode* theVertexNode, + const StdMeshers_FaceSide& theFaceSide, + const gp_Vec& theFaceNormal) + { + int eID1 = theFaceSide.EdgeID( theE1Index ); + int eID2 = theFaceSide.EdgeID( theE2Index ); + + const SMDS_MeshNode *n1 = 0, *n2 = 0; + bool is1st; + SMDS_ElemIteratorPtr segIt = theVertexNode->GetInverseElementIterator( SMDSAbs_Edge ); + while ( segIt->more() ) + { + const SMDS_MeshElement* seg = segIt->next(); + int shapeID = seg->GetShapeID(); + if ( shapeID == eID1 ) + is1st = true; + else if ( shapeID == eID2 ) + is1st = false; + else + continue; + ( is1st ? n1 : n2 ) = seg->GetNodeWrap( 1 + seg->GetNodeIndex( theVertexNode )); + } + + if ( !n1 || !n2 ) + { + std::vector nodes; + for ( int is2nd = 0; is2nd < 2; ++is2nd ) + { + const SMDS_MeshNode* & n = is2nd ? n2 : n1; + if ( n ) continue; + nodes.clear(); + if ( is2nd ) theFaceSide.GetEdgeNodes( theE2Index, nodes ); + else theFaceSide.GetEdgeNodes( theE1Index, nodes ); + if ( nodes.size() >= 2 ) + { + if ( nodes[0] == theVertexNode ) + n = nodes[1]; + else + n = nodes[ nodes.size() - 2 ]; + } + } + } + double angle = -2 * M_PI; + if ( n1 && n2 ) + { + SMESH_NodeXYZ p1 = n1, p2 = theVertexNode, p3 = n2; + gp_Vec v1( p1, p2 ), v2( p2, p3 ); + try + { + angle = v1.AngleWithRef( v2, theFaceNormal ); + } + catch(...) + { + } + if ( std::isnan( angle )) + angle = -2 * M_PI; + } + return angle; + } + //-------------------------------------------------------------------------------- /*! * \brief EDGE of a FACE @@ -1057,6 +1125,7 @@ namespace TopoDS_Edge myEdge; TopoDS_Vertex my1stVertex; int myIndex; + bool myIsCorner; // is fixed corner double myAngle; // angle at my1stVertex int myNbSegments; // discretization Edge* myPrev; // preceding EDGE @@ -1085,6 +1154,7 @@ namespace // quality criteria to minimize int myOppDiff; + int myIsFixedCorner; double myQuartDiff; double mySumAngle; @@ -1112,6 +1182,11 @@ namespace myOppDiff = ( Abs( myNbSeg[0] - myNbSeg[2] ) + Abs( myNbSeg[1] - myNbSeg[3] )); + myIsFixedCorner = - totNbSeg * ( myCornerE[0]->myIsCorner + + myCornerE[1]->myIsCorner + + myCornerE[2]->myIsCorner + + myCornerE[3]->myIsCorner ); + double nbSideIdeal = totNbSeg / 4.; myQuartDiff = -( Min( Min( myNbSeg[0], myNbSeg[1] ), Min( myNbSeg[2], myNbSeg[3] )) / nbSideIdeal ); @@ -1125,7 +1200,7 @@ namespace }; // first criterion - equality of nbSeg of opposite sides - int crit1() const { return myOppDiff; } + int crit1() const { return myOppDiff + myIsFixedCorner; } // second criterion - equality of nbSeg of adjacent sides and sharpness of angles double crit2() const { return myQuartDiff + mySumAngle; } @@ -1143,7 +1218,7 @@ namespace //================================================================================ /*! * \brief Unite EDGEs to get a required number of sides - * \param [in] theNbCorners - the required number of sides + * \param [in] theNbCorners - the required number of sides, 3 or 4 * \param [in] theConsiderMesh - to considered only meshed VERTEXes * \param [in] theFaceSide - the FACE EDGEs * \param [out] theVertices - the found corner vertices @@ -1153,7 +1228,7 @@ namespace void uniteEdges( const int theNbCorners, const bool theConsiderMesh, const StdMeshers_FaceSide& theFaceSide, - const TopoDS_Shape& theBaseVertex, + const TopTools_MapOfShape& theFixedVertices, std::vector& theVertices, bool& theHaveConcaveVertices) { @@ -1183,23 +1258,28 @@ namespace // sort edges by angle std::multimap< double, Edge* > edgeByAngle; - int i, iBase = -1, nbConvexAngles = 0, nbSharpAngles = 0; + int i, nbConvexAngles = 0, nbSharpAngles = 0; + const SMDS_MeshNode* vertNode = 0; + gp_Vec faceNormal; const double angTol = 5. / 180 * M_PI; const double sharpAngle = 0.5 * M_PI - angTol; Edge* e = edge0; for ( i = 0; i < nbEdges; ++i, e = e->myNext ) { e->my1stVertex = SMESH_MesherHelper::IthVertex( 0, e->myEdge ); - if ( e->my1stVertex.IsSame( theBaseVertex )) - iBase = e->myIndex; + e->myIsCorner = theFixedVertices.Contains( e->my1stVertex ); e->myAngle = -2 * M_PI; - if ( !theConsiderMesh || theFaceSide.VertexNode( e->myIndex )) + if ( !theConsiderMesh || ( vertNode = theFaceSide.VertexNode( e->myIndex ))) { e->myAngle = SMESH_MesherHelper::GetAngle( e->myPrev->myEdge, e->myEdge, - theFaceSide.Face(), e->my1stVertex ); + theFaceSide.Face(), e->my1stVertex, + &faceNormal ); if ( e->myAngle > 2 * M_PI ) // GetAngle() failed e->myAngle *= -1.; + else if ( vertNode && ( 0. <= e->myAngle ) && ( e->myAngle <= angTol )) + e->myAngle = getAngleByNodes( e->myPrev->myIndex, e->myIndex, + vertNode, theFaceSide, faceNormal ); } edgeByAngle.insert( std::make_pair( e->myAngle, e )); nbConvexAngles += ( e->myAngle > angTol ); @@ -1227,8 +1307,10 @@ namespace // return corners with maximal angles std::set< int > cornerIndices; - if ( iBase != -1 ) - cornerIndices.insert( iBase ); + if ( !theFixedVertices.IsEmpty() ) + for ( i = 0, e = edge0; i < nbEdges; ++i, e = e->myNext ) + if ( e->myIsCorner ) + cornerIndices.insert( e->myIndex ); std::multimap< double, Edge* >::reverse_iterator a2e = edgeByAngle.rbegin(); for (; (int) cornerIndices.size() < theNbCorners; ++a2e ) @@ -1444,7 +1526,20 @@ int StdMeshers_Quadrangle_2D::getCorners(const TopoDS_Face& theFace, myCheckOri = false; if ( theVertices.size() > 3 ) { - uniteEdges( nbCorners, theConsiderMesh, faceSide, triaVertex, theVertices, myCheckOri ); + TopTools_MapOfShape fixedVertices; + if ( !triaVertex.IsNull() ) + fixedVertices.Add( triaVertex ); + if ( myParams ) + { + const std::vector< int >& vIDs = myParams->GetCorners(); + for ( size_t i = 0; i < vIDs.size(); ++i ) + { + const TopoDS_Shape& vertex = helper.GetMeshDS()->IndexToShape( vIDs[ i ]); + if ( !vertex.IsNull() ) + fixedVertices.Add( vertex ); + } + } + uniteEdges( nbCorners, theConsiderMesh, faceSide, fixedVertices, theVertices, myCheckOri ); } if ( nbCorners == 3 && !triaVertex.IsSame( theVertices[0] )) diff --git a/src/StdMeshers_I/StdMeshers_Hexa_3D_i.cxx b/src/StdMeshers_I/StdMeshers_Hexa_3D_i.cxx index 7ce819288..b727e0252 100644 --- a/src/StdMeshers_I/StdMeshers_Hexa_3D_i.cxx +++ b/src/StdMeshers_I/StdMeshers_Hexa_3D_i.cxx @@ -86,8 +86,7 @@ StdMeshers_Hexa_3D_i::~StdMeshers_Hexa_3D_i() */ //============================================================================= -CORBA::Boolean StdMeshers_Hexa_3D_i::IsApplicable( const TopoDS_Shape &S, - CORBA::Boolean toCheckAll ) +bool StdMeshers_Hexa_3D_i::IsApplicable( const TopoDS_Shape &S, bool toCheckAll, int algoDim ) { return ::StdMeshers_Hexa_3D::IsApplicable( S, toCheckAll ); } diff --git a/src/StdMeshers_I/StdMeshers_Hexa_3D_i.hxx b/src/StdMeshers_I/StdMeshers_Hexa_3D_i.hxx index 3c7f0bd08..a8f4f5924 100644 --- a/src/StdMeshers_I/StdMeshers_Hexa_3D_i.hxx +++ b/src/StdMeshers_I/StdMeshers_Hexa_3D_i.hxx @@ -58,7 +58,7 @@ public: ::StdMeshers_Hexa_3D* GetImpl(); // Return true if the algorithm is applicable to a shape - static CORBA::Boolean IsApplicable(const TopoDS_Shape &S, CORBA::Boolean toCheckAll); + static bool IsApplicable(const TopoDS_Shape &S, bool toCheckAll, int dim); }; #endif diff --git a/src/StdMeshers_I/StdMeshers_Prism_3D_i.cxx b/src/StdMeshers_I/StdMeshers_Prism_3D_i.cxx index 027da2d59..c4320a3b4 100644 --- a/src/StdMeshers_I/StdMeshers_Prism_3D_i.cxx +++ b/src/StdMeshers_I/StdMeshers_Prism_3D_i.cxx @@ -63,8 +63,7 @@ StdMeshers_Prism_3D_i::~StdMeshers_Prism_3D_i() } //----------------------------------------------------------------------------- -CORBA::Boolean StdMeshers_Prism_3D_i::IsApplicable( const TopoDS_Shape &S, - CORBA::Boolean toCheckAll ) +bool StdMeshers_Prism_3D_i::IsApplicable( const TopoDS_Shape &S, bool toCheckAll, int algoDim ) { return ::StdMeshers_Prism_3D::IsApplicable( S, toCheckAll ); } @@ -99,8 +98,7 @@ StdMeshers_RadialPrism_3D_i::~StdMeshers_RadialPrism_3D_i() } //----------------------------------------------------------------------------- -CORBA::Boolean StdMeshers_RadialPrism_3D_i::IsApplicable( const TopoDS_Shape &S, - CORBA::Boolean toCheckAll ) +bool StdMeshers_RadialPrism_3D_i::IsApplicable( const TopoDS_Shape &S, bool toCheckAll, int ) { return ::StdMeshers_RadialPrism_3D::IsApplicable( S, toCheckAll ); } diff --git a/src/StdMeshers_I/StdMeshers_Prism_3D_i.hxx b/src/StdMeshers_I/StdMeshers_Prism_3D_i.hxx index a98cf4788..da067ca90 100644 --- a/src/StdMeshers_I/StdMeshers_Prism_3D_i.hxx +++ b/src/StdMeshers_I/StdMeshers_Prism_3D_i.hxx @@ -57,7 +57,7 @@ public: ::StdMeshers_Prism_3D* GetImpl(); // Return true if the algorithm is applicable to a shape - static CORBA::Boolean IsApplicable(const TopoDS_Shape &S, CORBA::Boolean toCheckAll); + static bool IsApplicable(const TopoDS_Shape &S, bool toCheckAll, int dim); }; // ====================================================== @@ -79,7 +79,7 @@ public: ::StdMeshers_RadialPrism_3D* GetImpl(); // Return true if the algorithm is applicable to a shape - static CORBA::Boolean IsApplicable(const TopoDS_Shape &S, CORBA::Boolean toCheckAll); + static bool IsApplicable(const TopoDS_Shape &S, bool toCheckAll, int dim); }; diff --git a/src/StdMeshers_I/StdMeshers_Projection_1D_2D_3D_i.cxx b/src/StdMeshers_I/StdMeshers_Projection_1D_2D_3D_i.cxx index 366fdd7a3..217f84bed 100644 --- a/src/StdMeshers_I/StdMeshers_Projection_1D_2D_3D_i.cxx +++ b/src/StdMeshers_I/StdMeshers_Projection_1D_2D_3D_i.cxx @@ -67,8 +67,7 @@ StdMeshers_Projection_3D_i::~StdMeshers_Projection_3D_i() */ //================================================================================ -CORBA::Boolean StdMeshers_Projection_3D_i::IsApplicable(const TopoDS_Shape &S, - CORBA::Boolean toCheckAll) +bool StdMeshers_Projection_3D_i::IsApplicable( const TopoDS_Shape &S, bool toCheckAll, int algoDim ) { return ::StdMeshers_Projection_3D::IsApplicable( S, toCheckAll ); } diff --git a/src/StdMeshers_I/StdMeshers_Projection_1D_2D_3D_i.hxx b/src/StdMeshers_I/StdMeshers_Projection_1D_2D_3D_i.hxx index a0141117a..cfb12ca8d 100644 --- a/src/StdMeshers_I/StdMeshers_Projection_1D_2D_3D_i.hxx +++ b/src/StdMeshers_I/StdMeshers_Projection_1D_2D_3D_i.hxx @@ -59,7 +59,7 @@ public: ::StdMeshers_Projection_3D* GetImpl(); // Return true if the algorithm is applicable to a shape - static CORBA::Boolean IsApplicable(const TopoDS_Shape &S, CORBA::Boolean toCheckAll); + static bool IsApplicable(const TopoDS_Shape &S, bool toCheckAll, int dim); }; // ====================================================== diff --git a/src/StdMeshers_I/StdMeshers_QuadrangleParams_i.cxx b/src/StdMeshers_I/StdMeshers_QuadrangleParams_i.cxx index dff2f2199..45e88d4d3 100644 --- a/src/StdMeshers_I/StdMeshers_QuadrangleParams_i.cxx +++ b/src/StdMeshers_I/StdMeshers_QuadrangleParams_i.cxx @@ -293,6 +293,43 @@ SMESH::string_array* StdMeshers_QuadrangleParams_i::GetEnfVertices() return arr._retn(); } +//============================================================================= +/*! + * Set corner vertices + */ +//============================================================================= + +void StdMeshers_QuadrangleParams_i::SetCorners(const SMESH::long_array& theVertexIDs ) +{ + std::vector< int > ids; + for ( CORBA::ULong i = 0; i < theVertexIDs.length(); ++i ) + ids.push_back( theVertexIDs[i] ); + + if ( ids != GetImpl()->GetCorners() ) + { + GetImpl()->SetCorners( ids ); + SMESH::TPythonDump() << _this() << ".SetCorners( " << theVertexIDs << " )"; + } +} + +//============================================================================= +/*! + * Return IDs of corner vertices + */ +//============================================================================= + +SMESH::long_array* StdMeshers_QuadrangleParams_i::GetCorners() +{ + const std::vector< int >& ids = GetImpl()->GetCorners(); + + SMESH::long_array_var result = new SMESH::long_array; + result->length( ids.size() ); + for ( size_t i = 0; i < ids.size(); ++i ) + result[ i ] = ids[ i ]; + + return result._retn(); +} + //============================================================================= /*! * StdMeshers_QuadrangleParams_i::GetImpl diff --git a/src/StdMeshers_I/StdMeshers_QuadrangleParams_i.hxx b/src/StdMeshers_I/StdMeshers_QuadrangleParams_i.hxx index 7ef974d63..1e14a0b88 100644 --- a/src/StdMeshers_I/StdMeshers_QuadrangleParams_i.hxx +++ b/src/StdMeshers_I/StdMeshers_QuadrangleParams_i.hxx @@ -73,6 +73,11 @@ public: // Returns entries of shapes defining enforced nodes SMESH::string_array* GetEnfVertices(); + // Set corner vertices + void SetCorners( const SMESH::long_array& vertexIDs ); + + // Return IDs of corner vertices + SMESH::long_array* GetCorners(); // Get implementation ::StdMeshers_QuadrangleParams* GetImpl(); diff --git a/src/StdMeshers_I/StdMeshers_Quadrangle_2D_i.cxx b/src/StdMeshers_I/StdMeshers_Quadrangle_2D_i.cxx index 583bf1f2e..6cc45e1ee 100644 --- a/src/StdMeshers_I/StdMeshers_Quadrangle_2D_i.cxx +++ b/src/StdMeshers_I/StdMeshers_Quadrangle_2D_i.cxx @@ -89,8 +89,7 @@ StdMeshers_Quadrangle_2D_i::~StdMeshers_Quadrangle_2D_i() */ //============================================================================= -CORBA::Boolean StdMeshers_Quadrangle_2D_i::IsApplicable( const TopoDS_Shape &S, - CORBA::Boolean toCheckAll ) +bool StdMeshers_Quadrangle_2D_i::IsApplicable( const TopoDS_Shape &S, bool toCheckAll, int algoDim ) { return ::StdMeshers_Quadrangle_2D::IsApplicable( S, toCheckAll ); } @@ -134,8 +133,8 @@ StdMeshers_QuadFromMedialAxis_1D2D_i::~StdMeshers_QuadFromMedialAxis_1D2D_i() */ //================================================================================ -CORBA::Boolean StdMeshers_QuadFromMedialAxis_1D2D_i::IsApplicable( const TopoDS_Shape &S, - CORBA::Boolean toCheckAll ) +bool StdMeshers_QuadFromMedialAxis_1D2D_i::IsApplicable( const TopoDS_Shape &S, + bool toCheckAll, int algoDim ) { return ::StdMeshers_QuadFromMedialAxis_1D2D::IsApplicable( S, toCheckAll ); } diff --git a/src/StdMeshers_I/StdMeshers_Quadrangle_2D_i.hxx b/src/StdMeshers_I/StdMeshers_Quadrangle_2D_i.hxx index 9989d0647..b2c6d7ed7 100644 --- a/src/StdMeshers_I/StdMeshers_Quadrangle_2D_i.hxx +++ b/src/StdMeshers_I/StdMeshers_Quadrangle_2D_i.hxx @@ -58,7 +58,7 @@ class STDMESHERS_I_EXPORT StdMeshers_Quadrangle_2D_i: ::StdMeshers_Quadrangle_2D* GetImpl(); // Return true if the algorithm is applicable to a shape - static CORBA::Boolean IsApplicable(const TopoDS_Shape &S, CORBA::Boolean toCheckAll); + static bool IsApplicable(const TopoDS_Shape &S, bool toCheckAll, int ); }; // ====================================================== @@ -77,7 +77,7 @@ class STDMESHERS_I_EXPORT StdMeshers_QuadFromMedialAxis_1D2D_i: virtual ~StdMeshers_QuadFromMedialAxis_1D2D_i(); // Return true if the algorithm is applicable to a shape - static CORBA::Boolean IsApplicable(const TopoDS_Shape &S, CORBA::Boolean toCheckAll); + static bool IsApplicable(const TopoDS_Shape &S, bool toCheckAll, int dim); }; #endif diff --git a/src/StdMeshers_I/StdMeshers_RadialQuadrangle_1D2D_i.cxx b/src/StdMeshers_I/StdMeshers_RadialQuadrangle_1D2D_i.cxx index f92a3a8b9..0faba8a2a 100644 --- a/src/StdMeshers_I/StdMeshers_RadialQuadrangle_1D2D_i.cxx +++ b/src/StdMeshers_I/StdMeshers_RadialQuadrangle_1D2D_i.cxx @@ -63,7 +63,7 @@ StdMeshers_RadialQuadrangle_1D2D_i::~StdMeshers_RadialQuadrangle_1D2D_i() //----------------------------------------------------------------------------- -CORBA::Boolean StdMeshers_RadialQuadrangle_1D2D_i::IsApplicable( const TopoDS_Shape &S, CORBA::Boolean toCheckAll ) +bool StdMeshers_RadialQuadrangle_1D2D_i::IsApplicable( const TopoDS_Shape &S, bool toCheckAll, int algoDim ) { return ::StdMeshers_RadialQuadrangle_1D2D::IsApplicable( S, toCheckAll ); } diff --git a/src/StdMeshers_I/StdMeshers_RadialQuadrangle_1D2D_i.hxx b/src/StdMeshers_I/StdMeshers_RadialQuadrangle_1D2D_i.hxx index a8ab28262..093411ca8 100644 --- a/src/StdMeshers_I/StdMeshers_RadialQuadrangle_1D2D_i.hxx +++ b/src/StdMeshers_I/StdMeshers_RadialQuadrangle_1D2D_i.hxx @@ -48,7 +48,7 @@ public: ::StdMeshers_RadialQuadrangle_1D2D* GetImpl(); // Return true if the algorithm is applicable to a shape - static CORBA::Boolean IsApplicable(const TopoDS_Shape &S, CORBA::Boolean toCheckAll); + static bool IsApplicable(const TopoDS_Shape &S, bool toCheckAll, int dim); }; diff --git a/src/StdMeshers_I/StdMeshers_i.cxx b/src/StdMeshers_I/StdMeshers_i.cxx index ae09600ad..602b00ae2 100644 --- a/src/StdMeshers_I/StdMeshers_i.cxx +++ b/src/StdMeshers_I/StdMeshers_i.cxx @@ -83,21 +83,22 @@ namespace SMESH { class ApplicableToAny { public: - static CORBA::Boolean IsApplicable( const TopoDS_Shape &S, CORBA::Boolean toCheckAll ) + static bool IsApplicable( const TopoDS_Shape &S, bool toCheckAll, int algoDim ) { - return true; + return GenericHypothesisCreator_i::IsShapeOfDim( S, algoDim ); } }; }; + template class StdHypothesisCreator_i : public HypothesisCreator_i< T > { public: // as we have 'module StdMeshers' in SMESH_BasicHypothesis.idl virtual std::string GetModuleName() { return "StdMeshers"; } - virtual CORBA::Boolean IsApplicable( const TopoDS_Shape & S, CORBA::Boolean toCheckAll ) + virtual bool IsApplicable( const TopoDS_Shape & S, bool toCheckAll, int algoDim ) { - return TIsApplicable::IsApplicable( S, toCheckAll ); + return TIsApplicable::IsApplicable( S, toCheckAll, algoDim ); } };