1 // Copyright (C) 2007-2011 CEA/DEN, EDF R&D, OPEN CASCADE
3 // Copyright (C) 2003-2007 OPEN CASCADE, EADS/CCR, LIP6, CEA/DEN,
4 // CEDRAT, EDF R&D, LEG, PRINCIPIA R&D, BUREAU VERITAS
6 // This library is free software; you can redistribute it and/or
7 // modify it under the terms of the GNU Lesser General Public
8 // License as published by the Free Software Foundation; either
9 // version 2.1 of the License.
11 // This library is distributed in the hope that it will be useful,
12 // but WITHOUT ANY WARRANTY; without even the implied warranty of
13 // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
14 // Lesser General Public License for more details.
16 // You should have received a copy of the GNU Lesser General Public
17 // License along with this library; if not, write to the Free Software
18 // Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
20 // See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
23 // SMESH SMESH_I : idl implementation based on 'SMESH' unit's calsses
24 // File : SMESH_Filter_i.cxx
25 // Author : Alexey Petrov, OCC
28 #include "SMESH_Filter_i.hxx"
30 #include "SMESH_Gen_i.hxx"
31 #include "SMESH_PythonDump.hxx"
33 #include "SMDS_Mesh.hxx"
34 #include "SMDS_MeshNode.hxx"
35 #include "SMDS_MeshElement.hxx"
36 #include "SMDS_ElemIterator.hxx"
37 #include "SMDS_VolumeTool.hxx"
39 #include "SMESHDS_Mesh.hxx"
41 #include <BRep_Tool.hxx>
42 #include <Geom_CylindricalSurface.hxx>
43 #include <Geom_Plane.hxx>
44 #include <LDOMParser.hxx>
45 #include <LDOMString.hxx>
46 #include <LDOM_Document.hxx>
47 #include <LDOM_Element.hxx>
48 #include <LDOM_Node.hxx>
49 #include <LDOM_XmlWriter.hxx>
50 #include <Precision.hxx>
51 #include <TColStd_ListIteratorOfListOfInteger.hxx>
52 #include <TColStd_ListIteratorOfListOfReal.hxx>
53 #include <TColStd_ListOfInteger.hxx>
54 #include <TColStd_ListOfReal.hxx>
55 #include <TColStd_SequenceOfHAsciiString.hxx>
56 #include <TCollection_HAsciiString.hxx>
58 #include <TopExp_Explorer.hxx>
60 #include <TopoDS_Face.hxx>
61 #include <TopoDS_Shape.hxx>
62 #include <TopTools_IndexedMapOfShape.hxx>
64 using namespace SMESH;
65 using namespace SMESH::Controls;
71 GetPredicate( Predicate_ptr thePredicate )
73 return DownCast<Predicate_i*>(thePredicate);
80 Description : Predicate for verifying whether entity belongs to
81 specified geometrical support
84 Controls::BelongToGeom::BelongToGeom()
88 myTolerance(Precision::Confusion())
91 void Controls::BelongToGeom::SetMesh( const SMDS_Mesh* theMesh )
93 myMeshDS = dynamic_cast<const SMESHDS_Mesh*>(theMesh);
97 void Controls::BelongToGeom::SetGeom( const TopoDS_Shape& theShape )
103 static bool IsSubShape (const TopTools_IndexedMapOfShape& theMap,
104 const TopoDS_Shape& theShape)
106 if (theMap.Contains(theShape)) return true;
108 if (theShape.ShapeType() == TopAbs_COMPOUND ||
109 theShape.ShapeType() == TopAbs_COMPSOLID)
111 TopoDS_Iterator anIt (theShape, Standard_True, Standard_True);
112 for (; anIt.More(); anIt.Next())
114 if (!IsSubShape(theMap, anIt.Value())) {
124 void Controls::BelongToGeom::init()
126 if (!myMeshDS || myShape.IsNull()) return;
128 // is subshape of main shape?
129 TopoDS_Shape aMainShape = myMeshDS->ShapeToMesh();
130 if (aMainShape.IsNull()) {
131 myIsSubshape = false;
134 TopTools_IndexedMapOfShape aMap;
135 TopExp::MapShapes(aMainShape, aMap);
136 myIsSubshape = IsSubShape(aMap, myShape);
141 myElementsOnShapePtr.reset(new Controls::ElementsOnShape());
142 myElementsOnShapePtr->SetTolerance(myTolerance);
143 myElementsOnShapePtr->SetAllNodes(true); // belong, while false means "lays on"
144 myElementsOnShapePtr->SetMesh(myMeshDS);
145 myElementsOnShapePtr->SetShape(myShape, myType);
149 static bool IsContains( const SMESHDS_Mesh* theMeshDS,
150 const TopoDS_Shape& theShape,
151 const SMDS_MeshElement* theElem,
152 TopAbs_ShapeEnum theFindShapeEnum,
153 TopAbs_ShapeEnum theAvoidShapeEnum = TopAbs_SHAPE )
155 TopExp_Explorer anExp( theShape,theFindShapeEnum,theAvoidShapeEnum );
157 while( anExp.More() )
159 const TopoDS_Shape& aShape = anExp.Current();
160 if( SMESHDS_SubMesh* aSubMesh = theMeshDS->MeshElements( aShape ) ){
161 if( aSubMesh->Contains( theElem ) )
169 bool Controls::BelongToGeom::IsSatisfy (long theId)
171 if (myMeshDS == 0 || myShape.IsNull())
176 return myElementsOnShapePtr->IsSatisfy(theId);
180 if (myType == SMDSAbs_Node)
182 if( const SMDS_MeshNode* aNode = myMeshDS->FindNode( theId ) )
184 const SMDS_PositionPtr& aPosition = aNode->GetPosition();
185 SMDS_TypeOfPosition aTypeOfPosition = aPosition->GetTypeOfPosition();
186 switch( aTypeOfPosition )
188 case SMDS_TOP_VERTEX : return IsContains( myMeshDS,myShape,aNode,TopAbs_VERTEX );
189 case SMDS_TOP_EDGE : return IsContains( myMeshDS,myShape,aNode,TopAbs_EDGE );
190 case SMDS_TOP_FACE : return IsContains( myMeshDS,myShape,aNode,TopAbs_FACE );
191 case SMDS_TOP_3DSPACE: return IsContains( myMeshDS,myShape,aNode,TopAbs_SHELL );
197 if( const SMDS_MeshElement* anElem = myMeshDS->FindElement( theId ) )
199 if( myType == SMDSAbs_All )
201 return IsContains( myMeshDS,myShape,anElem,TopAbs_EDGE ) ||
202 IsContains( myMeshDS,myShape,anElem,TopAbs_FACE ) ||
203 IsContains( myMeshDS,myShape,anElem,TopAbs_SHELL )||
204 IsContains( myMeshDS,myShape,anElem,TopAbs_SOLID );
206 else if( myType == anElem->GetType() )
210 case SMDSAbs_Edge : return IsContains( myMeshDS,myShape,anElem,TopAbs_EDGE );
211 case SMDSAbs_Face : return IsContains( myMeshDS,myShape,anElem,TopAbs_FACE );
212 case SMDSAbs_Volume: return IsContains( myMeshDS,myShape,anElem,TopAbs_SHELL )||
213 IsContains( myMeshDS,myShape,anElem,TopAbs_SOLID );
222 void Controls::BelongToGeom::SetType (SMDSAbs_ElementType theType)
228 SMDSAbs_ElementType Controls::BelongToGeom::GetType() const
233 TopoDS_Shape Controls::BelongToGeom::GetShape()
238 const SMESHDS_Mesh* Controls::BelongToGeom::GetMeshDS() const
243 void Controls::BelongToGeom::SetTolerance (double theTolerance)
245 myTolerance = theTolerance;
250 double Controls::BelongToGeom::GetTolerance()
257 Description : Predicate for verifying whether entiy lying or partially lying on
258 specified geometrical support
261 Controls::LyingOnGeom::LyingOnGeom()
265 myTolerance(Precision::Confusion())
268 void Controls::LyingOnGeom::SetMesh( const SMDS_Mesh* theMesh )
270 myMeshDS = dynamic_cast<const SMESHDS_Mesh*>(theMesh);
274 void Controls::LyingOnGeom::SetGeom( const TopoDS_Shape& theShape )
280 void Controls::LyingOnGeom::init()
282 if (!myMeshDS || myShape.IsNull()) return;
284 // is subshape of main shape?
285 TopoDS_Shape aMainShape = myMeshDS->ShapeToMesh();
286 if (aMainShape.IsNull()) {
287 myIsSubshape = false;
290 TopTools_IndexedMapOfShape aMap;
291 TopExp::MapShapes(aMainShape, aMap);
292 myIsSubshape = IsSubShape(aMap, myShape);
297 myElementsOnShapePtr.reset(new Controls::ElementsOnShape());
298 myElementsOnShapePtr->SetTolerance(myTolerance);
299 myElementsOnShapePtr->SetAllNodes(false); // lays on, while true means "belong"
300 myElementsOnShapePtr->SetMesh(myMeshDS);
301 myElementsOnShapePtr->SetShape(myShape, myType);
305 bool Controls::LyingOnGeom::IsSatisfy( long theId )
307 if ( myMeshDS == 0 || myShape.IsNull() )
312 return myElementsOnShapePtr->IsSatisfy(theId);
316 if( myType == SMDSAbs_Node )
318 if( const SMDS_MeshNode* aNode = myMeshDS->FindNode( theId ) )
320 const SMDS_PositionPtr& aPosition = aNode->GetPosition();
321 SMDS_TypeOfPosition aTypeOfPosition = aPosition->GetTypeOfPosition();
322 switch( aTypeOfPosition )
324 case SMDS_TOP_VERTEX : return IsContains( myMeshDS,myShape,aNode,TopAbs_VERTEX );
325 case SMDS_TOP_EDGE : return IsContains( myMeshDS,myShape,aNode,TopAbs_EDGE );
326 case SMDS_TOP_FACE : return IsContains( myMeshDS,myShape,aNode,TopAbs_FACE );
327 case SMDS_TOP_3DSPACE: return IsContains( myMeshDS,myShape,aNode,TopAbs_SHELL );
333 if( const SMDS_MeshElement* anElem = myMeshDS->FindElement( theId ) )
335 if( myType == SMDSAbs_All )
337 return Contains( myMeshDS,myShape,anElem,TopAbs_EDGE ) ||
338 Contains( myMeshDS,myShape,anElem,TopAbs_FACE ) ||
339 Contains( myMeshDS,myShape,anElem,TopAbs_SHELL )||
340 Contains( myMeshDS,myShape,anElem,TopAbs_SOLID );
342 else if( myType == anElem->GetType() )
346 case SMDSAbs_Edge : return Contains( myMeshDS,myShape,anElem,TopAbs_EDGE );
347 case SMDSAbs_Face : return Contains( myMeshDS,myShape,anElem,TopAbs_FACE );
348 case SMDSAbs_Volume: return Contains( myMeshDS,myShape,anElem,TopAbs_SHELL )||
349 Contains( myMeshDS,myShape,anElem,TopAbs_SOLID );
358 void Controls::LyingOnGeom::SetType( SMDSAbs_ElementType theType )
364 SMDSAbs_ElementType Controls::LyingOnGeom::GetType() const
369 TopoDS_Shape Controls::LyingOnGeom::GetShape()
374 const SMESHDS_Mesh* Controls::LyingOnGeom::GetMeshDS() const
379 void Controls::LyingOnGeom::SetTolerance (double theTolerance)
381 myTolerance = theTolerance;
386 double Controls::LyingOnGeom::GetTolerance()
391 bool Controls::LyingOnGeom::Contains( const SMESHDS_Mesh* theMeshDS,
392 const TopoDS_Shape& theShape,
393 const SMDS_MeshElement* theElem,
394 TopAbs_ShapeEnum theFindShapeEnum,
395 TopAbs_ShapeEnum theAvoidShapeEnum )
397 if (IsContains(theMeshDS, theShape, theElem, theFindShapeEnum, theAvoidShapeEnum))
400 TopTools_IndexedMapOfShape aSubShapes;
401 TopExp::MapShapes( theShape, aSubShapes );
403 for (int i = 1; i <= aSubShapes.Extent(); i++)
405 const TopoDS_Shape& aShape = aSubShapes.FindKey(i);
407 if( SMESHDS_SubMesh* aSubMesh = theMeshDS->MeshElements( aShape ) ){
408 if( aSubMesh->Contains( theElem ) )
411 SMDS_NodeIteratorPtr aNodeIt = aSubMesh->GetNodes();
412 while ( aNodeIt->more() )
414 const SMDS_MeshNode* aNode = static_cast<const SMDS_MeshNode*>(aNodeIt->next());
415 SMDS_ElemIteratorPtr anElemIt = aNode->GetInverseElementIterator();
416 while ( anElemIt->more() )
418 const SMDS_MeshElement* anElement = static_cast<const SMDS_MeshElement*>(anElemIt->next());
419 if (anElement == theElem)
435 MeshPtr2SMDSMesh( SMESH_Mesh_ptr theMesh )
437 SMESH_Mesh_i* anImplPtr = DownCast<SMESH_Mesh_i*>(theMesh);
438 return anImplPtr ? anImplPtr->GetImpl().GetMeshDS() : 0;
443 toArray( const TColStd_ListOfInteger& aList )
445 SMESH::long_array_var anArray = new SMESH::long_array;
446 anArray->length( aList.Extent() );
447 TColStd_ListIteratorOfListOfInteger anIter( aList );
449 for( ; anIter.More(); anIter.Next() )
450 anArray[ i++ ] = anIter.Value();
452 return anArray._retn();
457 toArray( const TColStd_ListOfReal& aList )
459 SMESH::double_array_var anArray = new SMESH::double_array;
460 anArray->length( aList.Extent() );
461 TColStd_ListIteratorOfListOfReal anIter( aList );
463 for( ; anIter.More(); anIter.Next() )
464 anArray[ i++ ] = anIter.Value();
466 return anArray._retn();
469 static SMESH::Filter::Criterion createCriterion()
471 SMESH::Filter::Criterion aCriterion;
473 aCriterion.Type = FT_Undefined;
474 aCriterion.Compare = FT_Undefined;
475 aCriterion.Threshold = 0;
476 aCriterion.UnaryOp = FT_Undefined;
477 aCriterion.BinaryOp = FT_Undefined;
478 aCriterion.ThresholdStr = "";
479 aCriterion.ThresholdID = "";
480 aCriterion.Tolerance = Precision::Confusion();
481 aCriterion.TypeOfElement = SMESH::ALL;
482 aCriterion.Precision = -1;
487 static TopoDS_Shape getShapeByName( const char* theName )
491 SMESH_Gen_i* aSMESHGen = SMESH_Gen_i::GetSMESHGen();
492 SALOMEDS::Study_ptr aStudy = aSMESHGen->GetCurrentStudy();
493 if (!CORBA::is_nil(aStudy))
495 SALOMEDS::Study::ListOfSObject_var aList =
496 aStudy->FindObjectByName( theName, "GEOM" );
497 if ( aList->length() > 0 )
499 GEOM::GEOM_Object_var aGeomObj = GEOM::GEOM_Object::_narrow( aList[ 0 ]->GetObject() );
500 if ( !aGeomObj->_is_nil() )
502 GEOM::GEOM_Gen_ptr aGEOMGen = SMESH_Gen_i::GetGeomEngine();
503 TopoDS_Shape aLocShape = aSMESHGen->GetShapeReader()->GetShape( aGEOMGen, aGeomObj );
509 return TopoDS_Shape();
512 static TopoDS_Shape getShapeByID (const char* theID)
514 if (theID != 0 && theID != "") {
515 SMESH_Gen_i* aSMESHGen = SMESH_Gen_i::GetSMESHGen();
516 SALOMEDS::Study_ptr aStudy = aSMESHGen->GetCurrentStudy();
518 SALOMEDS::SObject_var aSObj = aStudy->FindObjectID(theID);
519 SALOMEDS::GenericAttribute_var anAttr;
520 if (!aSObj->_is_nil() && aSObj->FindAttribute(anAttr, "AttributeIOR")) {
521 SALOMEDS::AttributeIOR_var anIOR = SALOMEDS::AttributeIOR::_narrow(anAttr);
522 CORBA::String_var aVal = anIOR->Value();
523 CORBA::Object_var obj = aStudy->ConvertIORToObject(aVal);
524 GEOM::GEOM_Object_var aGeomObj = GEOM::GEOM_Object::_narrow(obj);
526 if (!aGeomObj->_is_nil()) {
527 GEOM::GEOM_Gen_ptr aGEOMGen = SMESH_Gen_i::GetGeomEngine();
528 TopoDS_Shape aLocShape = aSMESHGen->GetShapeReader()->GetShape( aGEOMGen, aGeomObj );
534 return TopoDS_Shape();
537 static char* getShapeNameByID (const char* theID)
539 char* aName = (char*)"";
541 if (theID != 0 && theID != "") {
542 SMESH_Gen_i* aSMESHGen = SMESH_Gen_i::GetSMESHGen();
543 SALOMEDS::Study_ptr aStudy = aSMESHGen->GetCurrentStudy();
545 //SALOMEDS::SObject_var aSObj = aStudy->FindObjectIOR( theID );
546 SALOMEDS::SObject_var aSObj = aStudy->FindObjectID(theID);
547 SALOMEDS::GenericAttribute_var anAttr;
548 if (!aSObj->_is_nil() && aSObj->FindAttribute(anAttr, "AttributeName")) {
549 SALOMEDS::AttributeName_var aNameAttr = SALOMEDS::AttributeName::_narrow(anAttr);
550 aName = aNameAttr->Value();
564 Description : An abstact class for all functors
566 Functor_i::Functor_i():
567 SALOME::GenericObj_i( SMESH_Gen_i::GetPOA() )
569 //Base class Salome_GenericObject do it inmplicitly by overriding PortableServer::POA_ptr _default_POA() method
570 //PortableServer::ObjectId_var anObjectId =
571 // SMESH_Gen_i::GetPOA()->activate_object( this );
574 Functor_i::~Functor_i()
576 //TPythonDump()<<this<<".UnRegister()";
579 void Functor_i::SetMesh( SMESH_Mesh_ptr theMesh )
581 myFunctorPtr->SetMesh( MeshPtr2SMDSMesh( theMesh ) );
582 TPythonDump()<<this<<".SetMesh("<<theMesh<<")";
585 ElementType Functor_i::GetElementType()
587 return ( ElementType )myFunctorPtr->GetType();
592 Class : NumericalFunctor_i
593 Description : Base class for numerical functors
595 CORBA::Double NumericalFunctor_i::GetValue( CORBA::Long theId )
597 return myNumericalFunctorPtr->GetValue( theId );
600 SMESH::Histogram* NumericalFunctor_i::GetHistogram(CORBA::Short nbIntervals)
602 std::vector<int> nbEvents;
603 std::vector<double> funValues;
604 std::vector<int> elements;
605 myNumericalFunctorPtr->GetHistogram(nbIntervals,nbEvents,funValues,elements);
608 nbIntervals = CORBA::Short( min( nbEvents.size(), funValues.size() - 1));
610 nbIntervals = CORBA::Short( std::min( nbEvents.size(), funValues.size() - 1));
612 SMESH::Histogram_var histogram = new SMESH::Histogram;
613 if ( nbIntervals > 0 )
615 histogram->length( nbIntervals );
616 for ( int i = 0; i < nbIntervals; ++i )
618 HistogramRectangle& rect = histogram[i];
619 rect.nbEvents = nbEvents[i];
620 rect.min = funValues[i];
621 rect.max = funValues[i+1];
624 return histogram._retn();
627 void NumericalFunctor_i::SetPrecision( CORBA::Long thePrecision )
629 myNumericalFunctorPtr->SetPrecision( thePrecision );
630 TPythonDump()<<this<<".SetPrecision("<<thePrecision<<")";
633 CORBA::Long NumericalFunctor_i::GetPrecision()
635 return myNumericalFunctorPtr->GetPrecision();
638 Controls::NumericalFunctorPtr NumericalFunctor_i::GetNumericalFunctor()
640 return myNumericalFunctorPtr;
645 Class : SMESH_MinimumAngle
646 Description : Functor for calculation of minimum angle
648 MinimumAngle_i::MinimumAngle_i()
650 myNumericalFunctorPtr.reset( new Controls::MinimumAngle() );
651 myFunctorPtr = myNumericalFunctorPtr;
654 FunctorType MinimumAngle_i::GetFunctorType()
656 return SMESH::FT_MinimumAngle;
662 Description : Functor for calculating aspect ratio
664 AspectRatio_i::AspectRatio_i()
666 myNumericalFunctorPtr.reset( new Controls::AspectRatio() );
667 myFunctorPtr = myNumericalFunctorPtr;
670 FunctorType AspectRatio_i::GetFunctorType()
672 return SMESH::FT_AspectRatio;
677 Class : AspectRatio3D
678 Description : Functor for calculating aspect ratio 3D
680 AspectRatio3D_i::AspectRatio3D_i()
682 myNumericalFunctorPtr.reset( new Controls::AspectRatio3D() );
683 myFunctorPtr = myNumericalFunctorPtr;
686 FunctorType AspectRatio3D_i::GetFunctorType()
688 return SMESH::FT_AspectRatio3D;
694 Description : Functor for calculating warping
696 Warping_i::Warping_i()
698 myNumericalFunctorPtr.reset( new Controls::Warping() );
699 myFunctorPtr = myNumericalFunctorPtr;
702 FunctorType Warping_i::GetFunctorType()
704 return SMESH::FT_Warping;
710 Description : Functor for calculating taper
714 myNumericalFunctorPtr.reset( new Controls::Taper() );
715 myFunctorPtr = myNumericalFunctorPtr;
718 FunctorType Taper_i::GetFunctorType()
720 return SMESH::FT_Taper;
726 Description : Functor for calculating skew in degrees
730 myNumericalFunctorPtr.reset( new Controls::Skew() );
731 myFunctorPtr = myNumericalFunctorPtr;
734 FunctorType Skew_i::GetFunctorType()
736 return SMESH::FT_Skew;
741 Description : Functor for calculating area
745 myNumericalFunctorPtr.reset( new Controls::Area() );
746 myFunctorPtr = myNumericalFunctorPtr;
749 FunctorType Area_i::GetFunctorType()
751 return SMESH::FT_Area;
756 Description : Functor for calculating volume of 3D element
758 Volume3D_i::Volume3D_i()
760 myNumericalFunctorPtr.reset( new Controls::Volume() );
761 myFunctorPtr = myNumericalFunctorPtr;
764 FunctorType Volume3D_i::GetFunctorType()
766 return SMESH::FT_Volume3D;
770 Class : MaxElementLength2D_i
771 Description : Functor for calculating maximum length of 2D element
773 MaxElementLength2D_i::MaxElementLength2D_i()
775 myNumericalFunctorPtr.reset( new Controls::MaxElementLength2D() );
776 myFunctorPtr = myNumericalFunctorPtr;
779 FunctorType MaxElementLength2D_i::GetFunctorType()
781 return SMESH::FT_MaxElementLength2D;
785 Class : MaxElementLength3D_i
786 Description : Functor for calculating maximum length of 3D element
788 MaxElementLength3D_i::MaxElementLength3D_i()
790 myNumericalFunctorPtr.reset( new Controls::MaxElementLength3D() );
791 myFunctorPtr = myNumericalFunctorPtr;
794 FunctorType MaxElementLength3D_i::GetFunctorType()
796 return SMESH::FT_MaxElementLength3D;
801 Description : Functor for calculating length off edge
805 myNumericalFunctorPtr.reset( new Controls::Length() );
806 myFunctorPtr = myNumericalFunctorPtr;
809 FunctorType Length_i::GetFunctorType()
811 return SMESH::FT_Length;
816 Description : Functor for calculating length of edge
818 Length2D_i::Length2D_i()
820 myNumericalFunctorPtr.reset( new Controls::Length2D() );
821 myFunctorPtr = myNumericalFunctorPtr;
824 FunctorType Length2D_i::GetFunctorType()
826 return SMESH::FT_Length2D;
829 SMESH::Length2D::Values* Length2D_i::GetValues()
831 INFOS("Length2D_i::GetValues");
832 SMESH::Controls::Length2D::TValues aValues;
833 (dynamic_cast<SMESH::Controls::Length2D*>(myFunctorPtr.get()))->GetValues( aValues );
835 long i = 0, iEnd = aValues.size();
837 SMESH::Length2D::Values_var aResult = new SMESH::Length2D::Values(iEnd);
838 aResult->length(iEnd);
840 SMESH::Controls::Length2D::TValues::const_iterator anIter;
841 for ( anIter = aValues.begin() ; anIter != aValues.end(); anIter++, i++ )
843 const SMESH::Controls::Length2D::Value& aVal = *anIter;
844 SMESH::Length2D::Value &aValue = aResult[ i ];
846 aValue.myLength = aVal.myLength;
847 aValue.myPnt1 = aVal.myPntId[ 0 ];
848 aValue.myPnt2 = aVal.myPntId[ 1 ];
851 INFOS("Length2D_i::GetValuess~");
852 return aResult._retn();
856 Class : MultiConnection_i
857 Description : Functor for calculating number of faces conneted to the edge
859 MultiConnection_i::MultiConnection_i()
861 myNumericalFunctorPtr.reset( new Controls::MultiConnection() );
862 myFunctorPtr = myNumericalFunctorPtr;
865 FunctorType MultiConnection_i::GetFunctorType()
867 return SMESH::FT_MultiConnection;
871 Class : MultiConnection2D_i
872 Description : Functor for calculating number of faces conneted to the edge
874 MultiConnection2D_i::MultiConnection2D_i()
876 myNumericalFunctorPtr.reset( new Controls::MultiConnection2D() );
877 myFunctorPtr = myNumericalFunctorPtr;
880 FunctorType MultiConnection2D_i::GetFunctorType()
882 return SMESH::FT_MultiConnection2D;
885 SMESH::MultiConnection2D::Values* MultiConnection2D_i::GetValues()
887 INFOS("MultiConnection2D_i::GetValues");
888 SMESH::Controls::MultiConnection2D::MValues aValues;
889 (dynamic_cast<SMESH::Controls::MultiConnection2D*>(myFunctorPtr.get()))->GetValues( aValues );
891 long i = 0, iEnd = aValues.size();
893 SMESH::MultiConnection2D::Values_var aResult = new SMESH::MultiConnection2D::Values(iEnd);
894 aResult->length(iEnd);
896 SMESH::Controls::MultiConnection2D::MValues::const_iterator anIter;
897 for ( anIter = aValues.begin() ; anIter != aValues.end(); anIter++, i++ )
899 const SMESH::Controls::MultiConnection2D::Value& aVal = (*anIter).first;
900 SMESH::MultiConnection2D::Value &aValue = aResult[ i ];
902 aValue.myPnt1 = aVal.myPntId[ 0 ];
903 aValue.myPnt2 = aVal.myPntId[ 1 ];
904 aValue.myNbConnects = (*anIter).second;
907 INFOS("Multiconnection2D_i::GetValuess~");
908 return aResult._retn();
918 Description : Base class for all predicates
920 CORBA::Boolean Predicate_i::IsSatisfy( CORBA::Long theId )
922 return myPredicatePtr->IsSatisfy( theId );
925 Controls::PredicatePtr Predicate_i::GetPredicate()
927 return myPredicatePtr;
931 Class : BadOrientedVolume_i
932 Description : Verify whether a mesh volume is incorrectly oriented from
933 the point of view of MED convention
935 BadOrientedVolume_i::BadOrientedVolume_i()
937 Controls::PredicatePtr control( new Controls::BadOrientedVolume() );
938 myFunctorPtr = myPredicatePtr = control;
941 FunctorType BadOrientedVolume_i::GetFunctorType()
943 return SMESH::FT_BadOrientedVolume;
947 Class : BareBorderVolume_i
948 Description : Verify whether a mesh volume has a free facet without a face on it
950 BareBorderVolume_i::BareBorderVolume_i()
952 Controls::PredicatePtr control( new Controls::BareBorderVolume() );
953 myFunctorPtr = myPredicatePtr = control;
956 FunctorType BareBorderVolume_i::GetFunctorType()
958 return SMESH::FT_BareBorderVolume;
962 Class : BareBorderFace_i
963 Description : Verify whether a mesh face has a free border without an edge on it
965 BareBorderFace_i::BareBorderFace_i()
967 Controls::PredicatePtr control( new Controls::BareBorderFace() );
968 myFunctorPtr = myPredicatePtr = control;
971 FunctorType BareBorderFace_i::GetFunctorType()
973 return SMESH::FT_BareBorderFace;
977 Class : OverConstrainedVolume_i
978 Description : Verify whether a mesh volume has only one facet shared with other volumes
980 OverConstrainedVolume_i::OverConstrainedVolume_i()
982 Controls::PredicatePtr control( new Controls::OverConstrainedVolume() );
983 myFunctorPtr = myPredicatePtr = control;
986 FunctorType OverConstrainedVolume_i::GetFunctorType()
988 return SMESH::FT_OverConstrainedVolume;
992 Class : OverConstrainedFace_i
993 Description : Verify whether a mesh face has only one border shared with other faces
995 OverConstrainedFace_i::OverConstrainedFace_i()
997 Controls::PredicatePtr control( new Controls::OverConstrainedFace() );
998 myFunctorPtr = myPredicatePtr = control;
1001 FunctorType OverConstrainedFace_i::GetFunctorType()
1003 return SMESH::FT_OverConstrainedFace;
1007 Class : BelongToGeom_i
1008 Description : Predicate for selection on geometrical support
1010 BelongToGeom_i::BelongToGeom_i()
1012 myBelongToGeomPtr.reset( new Controls::BelongToGeom() );
1013 myFunctorPtr = myPredicatePtr = myBelongToGeomPtr;
1018 BelongToGeom_i::~BelongToGeom_i()
1024 void BelongToGeom_i::SetGeom( GEOM::GEOM_Object_ptr theGeom )
1026 if ( theGeom->_is_nil() )
1028 SMESH_Gen_i* aSMESHGen = SMESH_Gen_i::GetSMESHGen();
1029 GEOM::GEOM_Gen_ptr aGEOMGen = SMESH_Gen_i::GetGeomEngine();
1030 TopoDS_Shape aLocShape = aSMESHGen->GetShapeReader()->GetShape( aGEOMGen, theGeom );
1031 myBelongToGeomPtr->SetGeom( aLocShape );
1032 TPythonDump()<<this<<".SetGeom("<<theGeom<<")";
1035 void BelongToGeom_i::SetGeom( const TopoDS_Shape& theShape )
1037 myBelongToGeomPtr->SetGeom( theShape );
1040 void BelongToGeom_i::SetElementType(ElementType theType){
1041 myBelongToGeomPtr->SetType(SMDSAbs_ElementType(theType));
1042 TPythonDump()<<this<<".SetElementType("<<theType<<")";
1045 FunctorType BelongToGeom_i::GetFunctorType()
1047 return SMESH::FT_BelongToGeom;
1050 void BelongToGeom_i::SetShapeName( const char* theName )
1053 myShapeName = strdup( theName );
1054 myBelongToGeomPtr->SetGeom( getShapeByName( myShapeName ) );
1055 TPythonDump()<<this<<".SetShapeName('"<<theName<<"')";
1058 void BelongToGeom_i::SetShape( const char* theID, const char* theName )
1061 myShapeName = strdup( theName );
1064 myShapeID = strdup( theID );
1068 if ( myShapeID && strcmp(myShapeName, getShapeNameByID(myShapeID)) == 0 )
1069 myBelongToGeomPtr->SetGeom( getShapeByID(myShapeID) );
1071 myBelongToGeomPtr->SetGeom( getShapeByName( myShapeName ) );
1074 char* BelongToGeom_i::GetShapeName()
1076 return CORBA::string_dup( myShapeName );
1079 char* BelongToGeom_i::GetShapeID()
1081 return CORBA::string_dup( myShapeID );
1084 void BelongToGeom_i::SetTolerance( CORBA::Double theToler )
1086 myBelongToGeomPtr->SetTolerance( theToler );
1087 TPythonDump()<<this<<".SetTolerance("<<theToler<<")";
1090 CORBA::Double BelongToGeom_i::GetTolerance()
1092 return myBelongToGeomPtr->GetTolerance();
1096 Class : BelongToSurface_i
1097 Description : Predicate for selection on geometrical support
1099 BelongToSurface_i::BelongToSurface_i( const Handle(Standard_Type)& theSurfaceType )
1101 myElementsOnSurfacePtr.reset( new Controls::ElementsOnSurface() );
1102 myFunctorPtr = myPredicatePtr = myElementsOnSurfacePtr;
1105 mySurfaceType = theSurfaceType;
1108 BelongToSurface_i::~BelongToSurface_i()
1114 void BelongToSurface_i::SetSurface( GEOM::GEOM_Object_ptr theGeom, ElementType theType )
1116 if ( theGeom->_is_nil() )
1118 SMESH_Gen_i* aSMESHGen = SMESH_Gen_i::GetSMESHGen();
1119 GEOM::GEOM_Gen_ptr aGEOMGen = SMESH_Gen_i::GetGeomEngine();
1120 TopoDS_Shape aLocShape = aSMESHGen->GetShapeReader()->GetShape( aGEOMGen, theGeom );
1122 if ( aLocShape.ShapeType() == TopAbs_FACE )
1124 Handle(Geom_Surface) aSurf = BRep_Tool::Surface( TopoDS::Face( aLocShape ) );
1125 if ( !aSurf.IsNull() && aSurf->DynamicType() == mySurfaceType )
1127 myElementsOnSurfacePtr->SetSurface( aLocShape, (SMDSAbs_ElementType)theType );
1132 myElementsOnSurfacePtr->SetSurface( TopoDS_Shape(), (SMDSAbs_ElementType)theType );
1135 void BelongToSurface_i::SetShapeName( const char* theName, ElementType theType )
1138 myShapeName = strdup( theName );
1139 myElementsOnSurfacePtr->SetSurface( getShapeByName( myShapeName ), (SMDSAbs_ElementType)theType );
1140 TPythonDump()<<this<<".SetShapeName('"<<theName<<"',"<<theType<<")";
1143 void BelongToSurface_i::SetShape( const char* theID, const char* theName, ElementType theType )
1146 myShapeName = strdup( theName );
1149 myShapeID = strdup( theID );
1153 if ( myShapeID && strcmp(myShapeName, getShapeNameByID(myShapeID)) == 0 )
1154 myElementsOnSurfacePtr->SetSurface( getShapeByID(myShapeID), (SMDSAbs_ElementType)theType );
1156 myElementsOnSurfacePtr->SetSurface( getShapeByName( myShapeName ), (SMDSAbs_ElementType)theType );
1159 char* BelongToSurface_i::GetShapeName()
1161 return CORBA::string_dup( myShapeName );
1164 char* BelongToSurface_i::GetShapeID()
1166 return CORBA::string_dup( myShapeID );
1169 void BelongToSurface_i::SetTolerance( CORBA::Double theToler )
1171 myElementsOnSurfacePtr->SetTolerance( theToler );
1172 TPythonDump()<<this<<".SetTolerance("<<theToler<<")";
1175 CORBA::Double BelongToSurface_i::GetTolerance()
1177 return myElementsOnSurfacePtr->GetTolerance();
1180 void BelongToSurface_i::SetUseBoundaries( CORBA::Boolean theUseBndRestrictions )
1182 myElementsOnSurfacePtr->SetUseBoundaries( theUseBndRestrictions );
1183 TPythonDump()<<this<<".SetUseBoundaries( " << theUseBndRestrictions << " )";
1186 CORBA::Boolean BelongToSurface_i::GetUseBoundaries()
1188 return myElementsOnSurfacePtr->GetUseBoundaries();
1193 Class : BelongToPlane_i
1194 Description : Verify whether mesh element lie in pointed Geom planar object
1197 BelongToPlane_i::BelongToPlane_i()
1198 : BelongToSurface_i( STANDARD_TYPE( Geom_Plane ) )
1202 void BelongToPlane_i::SetPlane( GEOM::GEOM_Object_ptr theGeom, ElementType theType )
1204 BelongToSurface_i::SetSurface( theGeom, theType );
1205 TPythonDump()<<this<<".SetPlane("<<theGeom<<","<<theType<<")";
1208 FunctorType BelongToPlane_i::GetFunctorType()
1210 return FT_BelongToPlane;
1214 Class : BelongToCylinder_i
1215 Description : Verify whether mesh element lie in pointed Geom planar object
1218 BelongToCylinder_i::BelongToCylinder_i()
1219 : BelongToSurface_i( STANDARD_TYPE( Geom_CylindricalSurface ) )
1223 void BelongToCylinder_i::SetCylinder( GEOM::GEOM_Object_ptr theGeom, ElementType theType )
1225 BelongToSurface_i::SetSurface( theGeom, theType );
1226 TPythonDump()<<this<<".SetCylinder("<<theGeom<<","<<theType<<")";
1229 FunctorType BelongToCylinder_i::GetFunctorType()
1231 return FT_BelongToCylinder;
1235 Class : BelongToGenSurface_i
1236 Description : Verify whether mesh element lie in pointed Geom planar object
1239 BelongToGenSurface_i::BelongToGenSurface_i()
1240 : BelongToSurface_i( STANDARD_TYPE( Geom_CylindricalSurface ) )
1244 void BelongToGenSurface_i::SetSurface( GEOM::GEOM_Object_ptr theGeom, ElementType theType )
1246 if ( theGeom->_is_nil() )
1248 TopoDS_Shape aLocShape = SMESH_Gen_i::GetSMESHGen()->GeomObjectToShape( theGeom );
1249 if ( !aLocShape.IsNull() && aLocShape.ShapeType() != TopAbs_FACE )
1250 aLocShape.Nullify();
1252 BelongToSurface_i::myElementsOnSurfacePtr->SetSurface( aLocShape, (SMDSAbs_ElementType)theType );
1253 TPythonDump()<<this<<".SetGenSurface("<<theGeom<<","<<theType<<")";
1256 FunctorType BelongToGenSurface_i::GetFunctorType()
1258 return FT_BelongToGenSurface;
1262 Class : LyingOnGeom_i
1263 Description : Predicate for selection on geometrical support
1265 LyingOnGeom_i::LyingOnGeom_i()
1267 myLyingOnGeomPtr.reset( new Controls::LyingOnGeom() );
1268 myFunctorPtr = myPredicatePtr = myLyingOnGeomPtr;
1273 LyingOnGeom_i::~LyingOnGeom_i()
1279 void LyingOnGeom_i::SetGeom( GEOM::GEOM_Object_ptr theGeom )
1281 if ( theGeom->_is_nil() )
1283 SMESH_Gen_i* aSMESHGen = SMESH_Gen_i::GetSMESHGen();
1284 GEOM::GEOM_Gen_ptr aGEOMGen = SMESH_Gen_i::GetGeomEngine();
1285 TopoDS_Shape aLocShape = aSMESHGen->GetShapeReader()->GetShape( aGEOMGen, theGeom );
1286 myLyingOnGeomPtr->SetGeom( aLocShape );
1287 TPythonDump()<<this<<".SetGeom("<<theGeom<<")";
1290 void LyingOnGeom_i::SetGeom( const TopoDS_Shape& theShape )
1292 myLyingOnGeomPtr->SetGeom( theShape );
1295 void LyingOnGeom_i::SetElementType(ElementType theType){
1296 myLyingOnGeomPtr->SetType(SMDSAbs_ElementType(theType));
1297 TPythonDump()<<this<<".SetElementType("<<theType<<")";
1300 FunctorType LyingOnGeom_i::GetFunctorType()
1302 return SMESH::FT_LyingOnGeom;
1305 void LyingOnGeom_i::SetShapeName( const char* theName )
1308 myShapeName = strdup( theName );
1309 myLyingOnGeomPtr->SetGeom( getShapeByName( myShapeName ) );
1310 TPythonDump()<<this<<".SetShapeName('"<<theName<<"')";
1313 void LyingOnGeom_i::SetShape( const char* theID, const char* theName )
1316 myShapeName = strdup( theName );
1319 myShapeID = strdup( theID );
1323 if ( myShapeID && strcmp(myShapeName, getShapeNameByID(myShapeID)) == 0 )
1324 myLyingOnGeomPtr->SetGeom( getShapeByID(myShapeID) );
1326 myLyingOnGeomPtr->SetGeom( getShapeByName( myShapeName ) );
1329 char* LyingOnGeom_i::GetShapeName()
1331 return CORBA::string_dup( myShapeName );
1334 char* LyingOnGeom_i::GetShapeID()
1336 return CORBA::string_dup( myShapeID );
1339 void LyingOnGeom_i::SetTolerance( CORBA::Double theToler )
1341 myLyingOnGeomPtr->SetTolerance( theToler );
1342 TPythonDump()<<this<<".SetTolerance("<<theToler<<")";
1345 CORBA::Double LyingOnGeom_i::GetTolerance()
1347 return myLyingOnGeomPtr->GetTolerance();
1351 Class : FreeBorders_i
1352 Description : Predicate for free borders
1354 FreeBorders_i::FreeBorders_i()
1356 myPredicatePtr.reset(new Controls::FreeBorders());
1357 myFunctorPtr = myPredicatePtr;
1360 FunctorType FreeBorders_i::GetFunctorType()
1362 return SMESH::FT_FreeBorders;
1367 Description : Predicate for free borders
1369 FreeEdges_i::FreeEdges_i()
1370 : myFreeEdgesPtr( new Controls::FreeEdges() )
1372 myFunctorPtr = myPredicatePtr = myFreeEdgesPtr;
1375 SMESH::FreeEdges::Borders* FreeEdges_i::GetBorders()
1377 INFOS("FreeEdges_i::GetBorders");
1378 SMESH::Controls::FreeEdges::TBorders aBorders;
1379 myFreeEdgesPtr->GetBoreders( aBorders );
1381 long i = 0, iEnd = aBorders.size();
1383 SMESH::FreeEdges::Borders_var aResult = new SMESH::FreeEdges::Borders;
1384 aResult->length(iEnd);
1386 SMESH::Controls::FreeEdges::TBorders::const_iterator anIter;
1387 for ( anIter = aBorders.begin() ; anIter != aBorders.end(); anIter++, i++ )
1389 const SMESH::Controls::FreeEdges::Border& aBord = *anIter;
1390 SMESH::FreeEdges::Border &aBorder = aResult[ i ];
1392 aBorder.myElemId = aBord.myElemId;
1393 aBorder.myPnt1 = aBord.myPntId[ 0 ];
1394 aBorder.myPnt2 = aBord.myPntId[ 1 ];
1397 INFOS("FreeEdges_i::GetBorders~");
1398 return aResult._retn();
1401 FunctorType FreeEdges_i::GetFunctorType()
1403 return SMESH::FT_FreeEdges;
1408 Description : Predicate for free faces
1410 FreeFaces_i::FreeFaces_i()
1412 myPredicatePtr.reset(new Controls::FreeFaces());
1413 myFunctorPtr = myPredicatePtr;
1416 FunctorType FreeFaces_i::GetFunctorType()
1418 return SMESH::FT_FreeFaces;
1423 Description : Predicate for free nodes
1425 FreeNodes_i::FreeNodes_i()
1427 myPredicatePtr.reset(new Controls::FreeNodes());
1428 myFunctorPtr = myPredicatePtr;
1431 FunctorType FreeNodes_i::GetFunctorType()
1433 return SMESH::FT_FreeNodes;
1437 Class : RangeOfIds_i
1438 Description : Predicate for Range of Ids.
1439 Range may be specified with two ways.
1440 1. Using AddToRange method
1441 2. With SetRangeStr method. Parameter of this method is a string
1442 like as "1,2,3,50-60,63,67,70-"
1445 RangeOfIds_i::RangeOfIds_i()
1447 myRangeOfIdsPtr.reset( new Controls::RangeOfIds() );
1448 myFunctorPtr = myPredicatePtr = myRangeOfIdsPtr;
1451 void RangeOfIds_i::SetRange( const SMESH::long_array& theIds )
1453 CORBA::Long iEnd = theIds.length();
1454 for ( CORBA::Long i = 0; i < iEnd; i++ )
1455 myRangeOfIdsPtr->AddToRange( theIds[ i ] );
1456 TPythonDump()<<this<<".SetRange("<<theIds<<")";
1459 CORBA::Boolean RangeOfIds_i::SetRangeStr( const char* theRange )
1461 TPythonDump()<<this<<".SetRangeStr('"<<theRange<<"')";
1462 return myRangeOfIdsPtr->SetRangeStr(
1463 TCollection_AsciiString( (Standard_CString)theRange ) );
1466 char* RangeOfIds_i::GetRangeStr()
1468 TCollection_AsciiString aStr;
1469 myRangeOfIdsPtr->GetRangeStr( aStr );
1470 return CORBA::string_dup( aStr.ToCString() );
1473 void RangeOfIds_i::SetElementType( ElementType theType )
1475 myRangeOfIdsPtr->SetType( SMDSAbs_ElementType( theType ) );
1476 TPythonDump()<<this<<".SetElementType("<<theType<<")";
1479 FunctorType RangeOfIds_i::GetFunctorType()
1481 return SMESH::FT_RangeOfIds;
1485 Class : LinearOrQuadratic_i
1486 Description : Predicate to verify whether a mesh element is linear
1488 LinearOrQuadratic_i::LinearOrQuadratic_i()
1490 myLinearOrQuadraticPtr.reset(new Controls::LinearOrQuadratic());
1491 myFunctorPtr = myPredicatePtr = myLinearOrQuadraticPtr;
1494 void LinearOrQuadratic_i::SetElementType(ElementType theType)
1496 myLinearOrQuadraticPtr->SetType(SMDSAbs_ElementType(theType));
1497 TPythonDump()<<this<<".SetElementType("<<theType<<")";
1500 FunctorType LinearOrQuadratic_i::GetFunctorType()
1502 return SMESH::FT_LinearOrQuadratic;
1506 Class : GroupColor_i
1507 Description : Functor for check color of group to whic mesh element belongs to
1509 GroupColor_i::GroupColor_i()
1511 myGroupColorPtr.reset(new Controls::GroupColor());
1512 myFunctorPtr = myPredicatePtr = myGroupColorPtr;
1515 FunctorType GroupColor_i::GetFunctorType()
1517 return SMESH::FT_GroupColor;
1520 void GroupColor_i::SetColorStr( const char* theColor )
1522 myGroupColorPtr->SetColorStr(
1523 TCollection_AsciiString( (Standard_CString)theColor ) );
1524 TPythonDump()<<this<<".SetColorStr('"<<theColor<<"')";
1527 char* GroupColor_i::GetColorStr()
1529 TCollection_AsciiString aStr;
1530 myGroupColorPtr->GetColorStr( aStr );
1531 return CORBA::string_dup( aStr.ToCString() );
1534 void GroupColor_i::SetElementType(ElementType theType)
1536 myGroupColorPtr->SetType(SMDSAbs_ElementType(theType));
1537 TPythonDump()<<this<<".SetElementType("<<theType<<")";
1541 Class : ElemGeomType_i
1542 Description : Predicate check is element has indicated geometry type
1544 ElemGeomType_i::ElemGeomType_i()
1546 myElemGeomTypePtr.reset(new Controls::ElemGeomType());
1547 myFunctorPtr = myPredicatePtr = myElemGeomTypePtr;
1550 void ElemGeomType_i::SetElementType(ElementType theType)
1552 myElemGeomTypePtr->SetType(SMDSAbs_ElementType(theType));
1553 TPythonDump()<<this<<".SetElementType("<<theType<<")";
1556 void ElemGeomType_i::SetGeometryType(GeometryType theType)
1558 myElemGeomTypePtr->SetGeomType(SMDSAbs_GeometryType(theType));
1559 TPythonDump()<<this<<".SetGeometryType("<<theType<<")";
1562 GeometryType ElemGeomType_i::GetGeometryType() const
1564 return (GeometryType)myElemGeomTypePtr->GetGeomType();
1567 FunctorType ElemGeomType_i::GetFunctorType()
1569 return SMESH::FT_ElemGeomType;
1573 Class : CoplanarFaces_i
1574 Description : Returns true if a mesh face is a coplanar neighbour to a given one
1576 CoplanarFaces_i::CoplanarFaces_i()
1578 myCoplanarFacesPtr.reset(new Controls::CoplanarFaces());
1579 myFunctorPtr = myPredicatePtr = myCoplanarFacesPtr;
1582 void CoplanarFaces_i::SetFace ( CORBA::Long theFaceID )
1584 myCoplanarFacesPtr->SetFace(theFaceID);
1585 TPythonDump()<<this<<".SetFace("<<theFaceID<<")";
1588 void CoplanarFaces_i::SetTolerance( CORBA::Double theToler )
1590 myCoplanarFacesPtr->SetTolerance(theToler);
1591 TPythonDump()<<this<<".SetTolerance("<<theToler<<")";
1594 CORBA::Long CoplanarFaces_i::GetFace () const
1596 return myCoplanarFacesPtr->GetFace();
1599 char* CoplanarFaces_i::GetFaceAsString () const
1601 TCollection_AsciiString str(Standard_Integer(myCoplanarFacesPtr->GetFace()));
1602 return CORBA::string_dup( str.ToCString() );
1605 CORBA::Double CoplanarFaces_i::GetTolerance() const
1607 return myCoplanarFacesPtr->GetTolerance();
1610 FunctorType CoplanarFaces_i::GetFunctorType()
1612 return SMESH::FT_CoplanarFaces;
1616 Class : Comparator_i
1617 Description : Base class for comparators
1619 Comparator_i::Comparator_i():
1620 myNumericalFunctor( NULL )
1623 Comparator_i::~Comparator_i()
1625 if ( myNumericalFunctor )
1626 myNumericalFunctor->UnRegister();
1629 void Comparator_i::SetMargin( CORBA::Double theValue )
1631 myComparatorPtr->SetMargin( theValue );
1632 TPythonDump()<<this<<".SetMargin("<<theValue<<")";
1635 CORBA::Double Comparator_i::GetMargin()
1637 return myComparatorPtr->GetMargin();
1640 void Comparator_i::SetNumFunctor( NumericalFunctor_ptr theFunct )
1642 if ( myNumericalFunctor )
1643 myNumericalFunctor->UnRegister();
1645 myNumericalFunctor = DownCast<NumericalFunctor_i*>(theFunct);
1647 if ( myNumericalFunctor )
1649 myComparatorPtr->SetNumFunctor( myNumericalFunctor->GetNumericalFunctor() );
1650 myNumericalFunctor->Register();
1651 TPythonDump()<<this<<".SetNumFunctor("<<myNumericalFunctor<<")";
1655 Controls::ComparatorPtr Comparator_i::GetComparator()
1657 return myComparatorPtr;
1660 NumericalFunctor_i* Comparator_i::GetNumFunctor_i()
1662 return myNumericalFunctor;
1668 Description : Comparator "<"
1670 LessThan_i::LessThan_i()
1672 myComparatorPtr.reset( new Controls::LessThan() );
1673 myFunctorPtr = myPredicatePtr = myComparatorPtr;
1676 FunctorType LessThan_i::GetFunctorType()
1678 return SMESH::FT_LessThan;
1684 Description : Comparator ">"
1686 MoreThan_i::MoreThan_i()
1688 myComparatorPtr.reset( new Controls::MoreThan() );
1689 myFunctorPtr = myPredicatePtr = myComparatorPtr;
1692 FunctorType MoreThan_i::GetFunctorType()
1694 return SMESH::FT_MoreThan;
1700 Description : Comparator "="
1702 EqualTo_i::EqualTo_i()
1703 : myEqualToPtr( new Controls::EqualTo() )
1705 myFunctorPtr = myPredicatePtr = myComparatorPtr = myEqualToPtr;
1708 void EqualTo_i::SetTolerance( CORBA::Double theToler )
1710 myEqualToPtr->SetTolerance( theToler );
1711 TPythonDump()<<this<<".SetTolerance("<<theToler<<")";
1714 CORBA::Double EqualTo_i::GetTolerance()
1716 return myEqualToPtr->GetTolerance();
1719 FunctorType EqualTo_i::GetFunctorType()
1721 return SMESH::FT_EqualTo;
1725 Class : LogicalNOT_i
1726 Description : Logical NOT predicate
1728 LogicalNOT_i::LogicalNOT_i()
1729 : myPredicate( NULL ),
1730 myLogicalNOTPtr( new Controls::LogicalNOT() )
1732 myFunctorPtr = myPredicatePtr = myLogicalNOTPtr;
1735 LogicalNOT_i::~LogicalNOT_i()
1738 myPredicate->UnRegister();
1741 void LogicalNOT_i::SetPredicate( Predicate_ptr thePredicate )
1744 myPredicate->UnRegister();
1746 myPredicate = SMESH::GetPredicate(thePredicate);
1749 myLogicalNOTPtr->SetPredicate(myPredicate->GetPredicate());
1750 myPredicate->Register();
1751 TPythonDump()<<this<<".SetPredicate("<<myPredicate<<")";
1755 FunctorType LogicalNOT_i::GetFunctorType()
1757 return SMESH::FT_LogicalNOT;
1760 Predicate_i* LogicalNOT_i::GetPredicate_i()
1767 Class : LogicalBinary_i
1768 Description : Base class for binary logical predicate
1770 LogicalBinary_i::LogicalBinary_i()
1771 : myPredicate1( NULL ),
1772 myPredicate2( NULL )
1775 LogicalBinary_i::~LogicalBinary_i()
1778 myPredicate1->UnRegister();
1781 myPredicate2->UnRegister();
1784 void LogicalBinary_i::SetMesh( SMESH_Mesh_ptr theMesh )
1787 myPredicate1->SetMesh( theMesh );
1790 myPredicate2->SetMesh( theMesh );
1793 void LogicalBinary_i::SetPredicate1( Predicate_ptr thePredicate )
1796 myPredicate1->UnRegister();
1798 myPredicate1 = SMESH::GetPredicate(thePredicate);
1800 if ( myPredicate1 ){
1801 myLogicalBinaryPtr->SetPredicate1(myPredicate1->GetPredicate());
1802 myPredicate1->Register();
1803 TPythonDump()<<this<<".SetPredicate1("<<myPredicate1<<")";
1807 void LogicalBinary_i::SetPredicate2( Predicate_ptr thePredicate )
1810 myPredicate2->UnRegister();
1812 myPredicate2 = SMESH::GetPredicate(thePredicate);
1814 if ( myPredicate2 ){
1815 myLogicalBinaryPtr->SetPredicate2(myPredicate2->GetPredicate());
1816 myPredicate2->Register();
1817 TPythonDump()<<this<<".SetPredicate2("<<myPredicate2<<")";
1821 Controls::LogicalBinaryPtr LogicalBinary_i::GetLogicalBinary()
1823 return myLogicalBinaryPtr;
1826 Predicate_i* LogicalBinary_i::GetPredicate1_i()
1828 return myPredicate1;
1830 Predicate_i* LogicalBinary_i::GetPredicate2_i()
1832 return myPredicate2;
1837 Class : LogicalAND_i
1838 Description : Logical AND
1840 LogicalAND_i::LogicalAND_i()
1842 myLogicalBinaryPtr.reset( new Controls::LogicalAND() );
1843 myFunctorPtr = myPredicatePtr = myLogicalBinaryPtr;
1846 FunctorType LogicalAND_i::GetFunctorType()
1848 return SMESH::FT_LogicalAND;
1854 Description : Logical OR
1856 LogicalOR_i::LogicalOR_i()
1858 myLogicalBinaryPtr.reset( new Controls::LogicalOR() );
1859 myFunctorPtr = myPredicatePtr = myLogicalBinaryPtr;
1862 FunctorType LogicalOR_i::GetFunctorType()
1864 return SMESH::FT_LogicalOR;
1872 FilterManager_i::FilterManager_i()
1873 : SALOME::GenericObj_i( SMESH_Gen_i::GetPOA() )
1875 //Base class Salome_GenericObject do it inmplicitly by overriding PortableServer::POA_ptr _default_POA() method
1876 //PortableServer::ObjectId_var anObjectId =
1877 // SMESH_Gen_i::GetPOA()->activate_object( this );
1881 FilterManager_i::~FilterManager_i()
1883 //TPythonDump()<<this<<".UnRegister()";
1887 MinimumAngle_ptr FilterManager_i::CreateMinimumAngle()
1889 SMESH::MinimumAngle_i* aServant = new SMESH::MinimumAngle_i();
1890 SMESH::MinimumAngle_var anObj = aServant->_this();
1891 TPythonDump()<<aServant<<" = "<<this<<".CreateMinimumAngle()";
1892 return anObj._retn();
1896 AspectRatio_ptr FilterManager_i::CreateAspectRatio()
1898 SMESH::AspectRatio_i* aServant = new SMESH::AspectRatio_i();
1899 SMESH::AspectRatio_var anObj = aServant->_this();
1900 TPythonDump()<<aServant<<" = "<<this<<".CreateAspectRatio()";
1901 return anObj._retn();
1905 AspectRatio3D_ptr FilterManager_i::CreateAspectRatio3D()
1907 SMESH::AspectRatio3D_i* aServant = new SMESH::AspectRatio3D_i();
1908 SMESH::AspectRatio3D_var anObj = aServant->_this();
1909 TPythonDump()<<aServant<<" = "<<this<<".CreateAspectRatio3D()";
1910 return anObj._retn();
1914 Warping_ptr FilterManager_i::CreateWarping()
1916 SMESH::Warping_i* aServant = new SMESH::Warping_i();
1917 SMESH::Warping_var anObj = aServant->_this();
1918 TPythonDump()<<aServant<<" = "<<this<<".CreateWarping()";
1919 return anObj._retn();
1923 Taper_ptr FilterManager_i::CreateTaper()
1925 SMESH::Taper_i* aServant = new SMESH::Taper_i();
1926 SMESH::Taper_var anObj = aServant->_this();
1927 TPythonDump()<<aServant<<" = "<<this<<".CreateTaper()";
1928 return anObj._retn();
1932 Skew_ptr FilterManager_i::CreateSkew()
1934 SMESH::Skew_i* aServant = new SMESH::Skew_i();
1935 SMESH::Skew_var anObj = aServant->_this();
1936 TPythonDump()<<aServant<<" = "<<this<<".CreateSkew()";
1937 return anObj._retn();
1941 Area_ptr FilterManager_i::CreateArea()
1943 SMESH::Area_i* aServant = new SMESH::Area_i();
1944 SMESH::Area_var anObj = aServant->_this();
1945 TPythonDump()<<aServant<<" = "<<this<<".CreateArea()";
1946 return anObj._retn();
1950 Volume3D_ptr FilterManager_i::CreateVolume3D()
1952 SMESH::Volume3D_i* aServant = new SMESH::Volume3D_i();
1953 SMESH::Volume3D_var anObj = aServant->_this();
1954 TPythonDump()<<aServant<<" = "<<this<<".CreateVolume3D()";
1955 return anObj._retn();
1959 MaxElementLength2D_ptr FilterManager_i::CreateMaxElementLength2D()
1961 SMESH::MaxElementLength2D_i* aServant = new SMESH::MaxElementLength2D_i();
1962 SMESH::MaxElementLength2D_var anObj = aServant->_this();
1963 TPythonDump()<<aServant<<" = "<<this<<".CreateMaxElementLength2D()";
1964 return anObj._retn();
1968 MaxElementLength3D_ptr FilterManager_i::CreateMaxElementLength3D()
1970 SMESH::MaxElementLength3D_i* aServant = new SMESH::MaxElementLength3D_i();
1971 SMESH::MaxElementLength3D_var anObj = aServant->_this();
1972 TPythonDump()<<aServant<<" = "<<this<<".CreateMaxElementLength3D()";
1973 return anObj._retn();
1977 Length_ptr FilterManager_i::CreateLength()
1979 SMESH::Length_i* aServant = new SMESH::Length_i();
1980 SMESH::Length_var anObj = aServant->_this();
1981 TPythonDump()<<aServant<<" = "<<this<<".CreateLength()";
1982 return anObj._retn();
1985 Length2D_ptr FilterManager_i::CreateLength2D()
1987 SMESH::Length2D_i* aServant = new SMESH::Length2D_i();
1988 SMESH::Length2D_var anObj = aServant->_this();
1989 TPythonDump()<<aServant<<" = "<<this<<".CreateLength2D()";
1990 return anObj._retn();
1993 MultiConnection_ptr FilterManager_i::CreateMultiConnection()
1995 SMESH::MultiConnection_i* aServant = new SMESH::MultiConnection_i();
1996 SMESH::MultiConnection_var anObj = aServant->_this();
1997 TPythonDump()<<aServant<<" = "<<this<<".CreateMultiConnection()";
1998 return anObj._retn();
2001 MultiConnection2D_ptr FilterManager_i::CreateMultiConnection2D()
2003 SMESH::MultiConnection2D_i* aServant = new SMESH::MultiConnection2D_i();
2004 SMESH::MultiConnection2D_var anObj = aServant->_this();
2005 TPythonDump()<<aServant<<" = "<<this<<".CreateMultiConnection2D()";
2006 return anObj._retn();
2009 BelongToGeom_ptr FilterManager_i::CreateBelongToGeom()
2011 SMESH::BelongToGeom_i* aServant = new SMESH::BelongToGeom_i();
2012 SMESH::BelongToGeom_var anObj = aServant->_this();
2013 TPythonDump()<<aServant<<" = "<<this<<".CreateBelongToGeom()";
2014 return anObj._retn();
2017 BelongToPlane_ptr FilterManager_i::CreateBelongToPlane()
2019 SMESH::BelongToPlane_i* aServant = new SMESH::BelongToPlane_i();
2020 SMESH::BelongToPlane_var anObj = aServant->_this();
2021 TPythonDump()<<aServant<<" = "<<this<<".CreateBelongToPlane()";
2022 return anObj._retn();
2025 BelongToCylinder_ptr FilterManager_i::CreateBelongToCylinder()
2027 SMESH::BelongToCylinder_i* aServant = new SMESH::BelongToCylinder_i();
2028 SMESH::BelongToCylinder_var anObj = aServant->_this();
2029 TPythonDump()<<aServant<<" = "<<this<<".CreateBelongToCylinder()";
2030 return anObj._retn();
2033 BelongToGenSurface_ptr FilterManager_i::CreateBelongToGenSurface()
2035 SMESH::BelongToGenSurface_i* aServant = new SMESH::BelongToGenSurface_i();
2036 SMESH::BelongToGenSurface_var anObj = aServant->_this();
2037 TPythonDump()<<aServant<<" = "<<this<<".CreateBelongToGenSurface()";
2038 return anObj._retn();
2041 LyingOnGeom_ptr FilterManager_i::CreateLyingOnGeom()
2043 SMESH::LyingOnGeom_i* aServant = new SMESH::LyingOnGeom_i();
2044 SMESH::LyingOnGeom_var anObj = aServant->_this();
2045 TPythonDump()<<aServant<<" = "<<this<<".CreateLyingOnGeom()";
2046 return anObj._retn();
2049 CoplanarFaces_ptr FilterManager_i::CreateCoplanarFaces()
2051 SMESH::CoplanarFaces_i* aServant = new SMESH::CoplanarFaces_i();
2052 SMESH::CoplanarFaces_var anObj = aServant->_this();
2053 TPythonDump()<<aServant<<" = "<<this<<".CreateCoplanarFaces()";
2054 return anObj._retn();
2057 FreeBorders_ptr FilterManager_i::CreateFreeBorders()
2059 SMESH::FreeBorders_i* aServant = new SMESH::FreeBorders_i();
2060 SMESH::FreeBorders_var anObj = aServant->_this();
2061 TPythonDump()<<aServant<<" = "<<this<<".CreateFreeBorders()";
2062 return anObj._retn();
2065 FreeEdges_ptr FilterManager_i::CreateFreeEdges()
2067 SMESH::FreeEdges_i* aServant = new SMESH::FreeEdges_i();
2068 SMESH::FreeEdges_var anObj = aServant->_this();
2069 TPythonDump()<<aServant<<" = "<<this<<".CreateFreeEdges()";
2070 return anObj._retn();
2073 FreeFaces_ptr FilterManager_i::CreateFreeFaces()
2075 SMESH::FreeFaces_i* aServant = new SMESH::FreeFaces_i();
2076 SMESH::FreeFaces_var anObj = aServant->_this();
2077 TPythonDump()<<aServant<<" = "<<this<<".CreateFreeFaces()";
2078 return anObj._retn();
2081 FreeNodes_ptr FilterManager_i::CreateFreeNodes()
2083 SMESH::FreeNodes_i* aServant = new SMESH::FreeNodes_i();
2084 SMESH::FreeNodes_var anObj = aServant->_this();
2085 TPythonDump()<<aServant<<" = "<<this<<".CreateFreeNodes()";
2086 return anObj._retn();
2089 RangeOfIds_ptr FilterManager_i::CreateRangeOfIds()
2091 SMESH::RangeOfIds_i* aServant = new SMESH::RangeOfIds_i();
2092 SMESH::RangeOfIds_var anObj = aServant->_this();
2093 TPythonDump()<<aServant<<" = "<<this<<".CreateRangeOfIds()";
2094 return anObj._retn();
2097 BadOrientedVolume_ptr FilterManager_i::CreateBadOrientedVolume()
2099 SMESH::BadOrientedVolume_i* aServant = new SMESH::BadOrientedVolume_i();
2100 SMESH::BadOrientedVolume_var anObj = aServant->_this();
2101 TPythonDump()<<aServant<<" = "<<this<<".CreateBadOrientedVolume()";
2102 return anObj._retn();
2105 BareBorderVolume_ptr FilterManager_i::CreateBareBorderVolume()
2107 SMESH::BareBorderVolume_i* aServant = new SMESH::BareBorderVolume_i();
2108 SMESH::BareBorderVolume_var anObj = aServant->_this();
2109 TPythonDump()<<aServant<<" = "<<this<<".CreateBareBorderVolume()";
2110 return anObj._retn();
2113 BareBorderFace_ptr FilterManager_i::CreateBareBorderFace()
2115 SMESH::BareBorderFace_i* aServant = new SMESH::BareBorderFace_i();
2116 SMESH::BareBorderFace_var anObj = aServant->_this();
2117 TPythonDump()<<aServant<<" = "<<this<<".CreateBareBorderFace()";
2118 return anObj._retn();
2121 OverConstrainedVolume_ptr FilterManager_i::CreateOverConstrainedVolume()
2123 SMESH::OverConstrainedVolume_i* aServant = new SMESH::OverConstrainedVolume_i();
2124 SMESH::OverConstrainedVolume_var anObj = aServant->_this();
2125 TPythonDump()<<aServant<<" = "<<this<<".CreateOverConstrainedVolume()";
2126 return anObj._retn();
2129 OverConstrainedFace_ptr FilterManager_i::CreateOverConstrainedFace()
2131 SMESH::OverConstrainedFace_i* aServant = new SMESH::OverConstrainedFace_i();
2132 SMESH::OverConstrainedFace_var anObj = aServant->_this();
2133 TPythonDump()<<aServant<<" = "<<this<<".CreateOverConstrainedFace()";
2134 return anObj._retn();
2137 LessThan_ptr FilterManager_i::CreateLessThan()
2139 SMESH::LessThan_i* aServant = new SMESH::LessThan_i();
2140 SMESH::LessThan_var anObj = aServant->_this();
2141 TPythonDump()<<aServant<<" = "<<this<<".CreateLessThan()";
2142 return anObj._retn();
2145 MoreThan_ptr FilterManager_i::CreateMoreThan()
2147 SMESH::MoreThan_i* aServant = new SMESH::MoreThan_i();
2148 SMESH::MoreThan_var anObj = aServant->_this();
2149 TPythonDump()<<aServant<<" = "<<this<<".CreateMoreThan()";
2150 return anObj._retn();
2153 EqualTo_ptr FilterManager_i::CreateEqualTo()
2155 SMESH::EqualTo_i* aServant = new SMESH::EqualTo_i();
2156 SMESH::EqualTo_var anObj = aServant->_this();
2157 TPythonDump()<<aServant<<" = "<<this<<".CreateEqualTo()";
2158 return anObj._retn();
2161 LogicalNOT_ptr FilterManager_i::CreateLogicalNOT()
2163 SMESH::LogicalNOT_i* aServant = new SMESH::LogicalNOT_i();
2164 SMESH::LogicalNOT_var anObj = aServant->_this();
2165 TPythonDump()<<aServant<<" = "<<this<<".CreateLogicalNOT()";
2166 return anObj._retn();
2169 LogicalAND_ptr FilterManager_i::CreateLogicalAND()
2171 SMESH::LogicalAND_i* aServant = new SMESH::LogicalAND_i();
2172 SMESH::LogicalAND_var anObj = aServant->_this();
2173 TPythonDump()<<aServant<<" = "<<this<<".CreateLogicalAND()";
2174 return anObj._retn();
2177 LogicalOR_ptr FilterManager_i::CreateLogicalOR()
2179 SMESH::LogicalOR_i* aServant = new SMESH::LogicalOR_i();
2180 SMESH::LogicalOR_var anObj = aServant->_this();
2181 TPythonDump()<<aServant<<" = "<<this<<".CreateLogicalOR()";
2182 return anObj._retn();
2185 LinearOrQuadratic_ptr FilterManager_i::CreateLinearOrQuadratic()
2187 SMESH::LinearOrQuadratic_i* aServant = new SMESH::LinearOrQuadratic_i();
2188 SMESH::LinearOrQuadratic_var anObj = aServant->_this();
2189 TPythonDump()<<aServant<<" = "<<this<<".CreateLinearOrQuadratic()";
2190 return anObj._retn();
2193 GroupColor_ptr FilterManager_i::CreateGroupColor()
2195 SMESH::GroupColor_i* aServant = new SMESH::GroupColor_i();
2196 SMESH::GroupColor_var anObj = aServant->_this();
2197 TPythonDump()<<aServant<<" = "<<this<<".CreateGroupColor()";
2198 return anObj._retn();
2201 ElemGeomType_ptr FilterManager_i::CreateElemGeomType()
2203 SMESH::ElemGeomType_i* aServant = new SMESH::ElemGeomType_i();
2204 SMESH::ElemGeomType_var anObj = aServant->_this();
2205 TPythonDump()<<aServant<<" = "<<this<<".CreateElemGeomType()";
2206 return anObj._retn();
2209 Filter_ptr FilterManager_i::CreateFilter()
2211 SMESH::Filter_i* aServant = new SMESH::Filter_i();
2212 SMESH::Filter_var anObj = aServant->_this();
2213 TPythonDump()<<aServant<<" = "<<this<<".CreateFilter()";
2214 return anObj._retn();
2217 FilterLibrary_ptr FilterManager_i::LoadLibrary( const char* aFileName )
2219 SMESH::FilterLibrary_i* aServant = new SMESH::FilterLibrary_i( aFileName );
2220 SMESH::FilterLibrary_var anObj = aServant->_this();
2221 TPythonDump()<<aServant<<" = "<<this<<".LoadLibrary('"<<aFileName<<"')";
2222 return anObj._retn();
2225 FilterLibrary_ptr FilterManager_i::CreateLibrary()
2227 SMESH::FilterLibrary_i* aServant = new SMESH::FilterLibrary_i();
2228 SMESH::FilterLibrary_var anObj = aServant->_this();
2229 TPythonDump()<<aServant<<" = "<<this<<".CreateLibrary()";
2230 return anObj._retn();
2233 CORBA::Boolean FilterManager_i::DeleteLibrary( const char* aFileName )
2235 TPythonDump()<<this<<".DeleteLibrary("<<aFileName<<")";
2236 return remove( aFileName ) ? false : true;
2239 //=============================================================================
2241 * SMESH_Gen_i::CreateFilterManager
2243 * Create filter manager
2245 //=============================================================================
2247 SMESH::FilterManager_ptr SMESH_Gen_i::CreateFilterManager()
2249 SMESH::FilterManager_i* aFilter = new SMESH::FilterManager_i();
2250 SMESH::FilterManager_var anObj = aFilter->_this();
2251 return anObj._retn();
2259 //=======================================================================
2260 // name : Filter_i::Filter_i
2261 // Purpose : Constructor
2262 //=======================================================================
2263 Filter_i::Filter_i()
2264 : myPredicate( NULL )
2267 //=======================================================================
2268 // name : Filter_i::~Filter_i
2269 // Purpose : Destructor
2270 //=======================================================================
2271 Filter_i::~Filter_i()
2274 myPredicate->UnRegister();
2276 if(!CORBA::is_nil(myMesh))
2277 myMesh->UnRegister();
2279 //TPythonDump()<<this<<".UnRegister()";
2282 //=======================================================================
2283 // name : Filter_i::SetPredicate
2284 // Purpose : Set predicate
2285 //=======================================================================
2286 void Filter_i::SetPredicate( Predicate_ptr thePredicate )
2289 myPredicate->UnRegister();
2291 myPredicate = SMESH::GetPredicate(thePredicate);
2295 myFilter.SetPredicate( myPredicate->GetPredicate() );
2296 myPredicate->Register();
2297 TPythonDump()<<this<<".SetPredicate("<<myPredicate<<")";
2299 std::list<TPredicateChangeWaiter*>::iterator i = myWaiters.begin();
2300 for ( ; i != myWaiters.end(); ++i )
2301 (*i)->PredicateChanged();
2304 //=======================================================================
2305 // name : Filter_i::GetElementType
2306 // Purpose : Get entity type
2307 //=======================================================================
2308 SMESH::ElementType Filter_i::GetElementType()
2310 return myPredicate != 0 ? myPredicate->GetElementType() : SMESH::ALL;
2313 //=======================================================================
2314 // name : Filter_i::SetMesh
2315 // Purpose : Set mesh
2316 //=======================================================================
2319 SetMesh( SMESH_Mesh_ptr theMesh )
2321 if(!CORBA::is_nil(theMesh))
2322 theMesh->Register();
2324 if(!CORBA::is_nil(myMesh))
2325 myMesh->UnRegister();
2327 myMesh = SMESH_Mesh::_duplicate( theMesh );
2328 TPythonDump()<<this<<".SetMesh("<<theMesh<<")";
2335 return GetElementsId(myMesh);
2338 //=======================================================================
2339 // name : Filter_i::GetElementsId
2340 // Purpose : Get ids of entities
2341 //=======================================================================
2344 GetElementsId( Predicate_i* thePredicate,
2345 const SMDS_Mesh* theMesh,
2346 Controls::Filter::TIdSequence& theSequence )
2349 Controls::Filter::GetElementsId(theMesh,thePredicate->GetPredicate(),theSequence);
2354 GetElementsId( Predicate_i* thePredicate,
2355 SMESH_Mesh_ptr theMesh,
2356 Controls::Filter::TIdSequence& theSequence )
2359 if(const SMDS_Mesh* aMesh = MeshPtr2SMDSMesh(theMesh))
2360 Controls::Filter::GetElementsId(aMesh,thePredicate->GetPredicate(),theSequence);
2365 GetElementsId( SMESH_Mesh_ptr theMesh )
2367 SMESH::long_array_var anArray = new SMESH::long_array;
2368 if(!CORBA::is_nil(theMesh) && myPredicate){
2369 Controls::Filter::TIdSequence aSequence;
2370 GetElementsId(myPredicate,theMesh,aSequence);
2371 long i = 0, iEnd = aSequence.size();
2372 anArray->length( iEnd );
2373 for ( ; i < iEnd; i++ )
2374 anArray[ i ] = aSequence[i];
2376 return anArray._retn();
2379 template<class TElement, class TIterator, class TPredicate>
2380 static void collectMeshInfo(const TIterator& theItr,
2381 TPredicate& thePred,
2382 SMESH::long_array& theRes)
2386 while (theItr->more()) {
2387 const SMDS_MeshElement* anElem = theItr->next();
2388 if ( thePred->IsSatisfy( anElem->GetID() ) )
2389 theRes[ anElem->GetEntityType() ]++;
2393 //=============================================================================
2395 * \brief Returns statistic of mesh elements
2397 //=============================================================================
2398 SMESH::long_array* ::Filter_i::GetMeshInfo()
2400 SMESH::long_array_var aRes = new SMESH::long_array();
2401 aRes->length(SMESH::Entity_Last);
2402 for (int i = SMESH::Entity_Node; i < SMESH::Entity_Last; i++)
2405 if(!CORBA::is_nil(myMesh) && myPredicate) {
2406 const SMDS_Mesh* aMesh = MeshPtr2SMDSMesh(myMesh);
2407 SMDS_ElemIteratorPtr it;
2408 switch( GetElementType() )
2411 collectMeshInfo<const SMDS_MeshNode*>(aMesh->nodesIterator(),myPredicate,aRes);
2414 collectMeshInfo<const SMDS_MeshElement*>(aMesh->edgesIterator(),myPredicate,aRes);
2417 collectMeshInfo<const SMDS_MeshElement*>(aMesh->facesIterator(),myPredicate,aRes);
2419 case SMDSAbs_Volume:
2420 collectMeshInfo<const SMDS_MeshElement*>(aMesh->volumesIterator(),myPredicate,aRes);
2424 collectMeshInfo<const SMDS_MeshElement*>(aMesh->elementsIterator(),myPredicate,aRes);
2429 return aRes._retn();
2432 //================================================================================
2434 * \brief Return GetElementType() within an array
2435 * Implement SMESH_IDSource interface
2437 //================================================================================
2439 SMESH::array_of_ElementType* Filter_i::GetTypes()
2441 SMESH::array_of_ElementType_var types = new SMESH::array_of_ElementType;
2443 // check if any element passes through the filter
2444 if ( !CORBA::is_nil(myMesh) && myPredicate )
2446 const SMDS_Mesh* aMesh = MeshPtr2SMDSMesh(myMesh);
2447 SMDS_ElemIteratorPtr it = aMesh->elementsIterator( SMDSAbs_ElementType( GetElementType() ));
2448 bool satisfies = false;
2449 while ( !satisfies && it->more() )
2450 satisfies = myPredicate->IsSatisfy( it->next()->GetID() );
2453 types[0] = GetElementType();
2456 return types._retn();
2459 //=======================================================================
2460 //function : GetMesh
2461 //purpose : Returns mesh
2462 //=======================================================================
2464 SMESH::SMESH_Mesh_ptr Filter_i::GetMesh()
2466 return SMESH_Mesh::_duplicate( myMesh );
2469 //================================================================================
2471 * \brief Stores an object to be notified on change of predicate
2473 //================================================================================
2475 void Filter_i::AddWaiter( TPredicateChangeWaiter* waiter )
2478 myWaiters.push_back( waiter );
2481 //================================================================================
2483 * \brief Removes an object to be notified on change of predicate
2485 //================================================================================
2487 void Filter_i::RemoveWaiter( TPredicateChangeWaiter* waiter )
2489 myWaiters.remove( waiter );
2492 //=======================================================================
2493 // name : getCriteria
2494 // Purpose : Retrieve criterions from predicate
2495 //=======================================================================
2496 static inline bool getCriteria( Predicate_i* thePred,
2497 SMESH::Filter::Criteria_out theCriteria )
2499 int aFType = thePred->GetFunctorType();
2503 case FT_FreeBorders:
2506 case FT_LinearOrQuadratic:
2509 CORBA::ULong i = theCriteria->length();
2510 theCriteria->length( i + 1 );
2512 theCriteria[ i ] = createCriterion();
2514 theCriteria[ i ].Type = aFType;
2515 theCriteria[ i ].TypeOfElement = thePred->GetElementType();
2518 case FT_BelongToGeom:
2520 BelongToGeom_i* aPred = dynamic_cast<BelongToGeom_i*>( thePred );
2522 CORBA::ULong i = theCriteria->length();
2523 theCriteria->length( i + 1 );
2525 theCriteria[ i ] = createCriterion();
2527 theCriteria[ i ].Type = FT_BelongToGeom;
2528 theCriteria[ i ].ThresholdStr = aPred->GetShapeName();
2529 theCriteria[ i ].ThresholdID = aPred->GetShapeID();
2530 theCriteria[ i ].TypeOfElement = aPred->GetElementType();
2531 theCriteria[ i ].Tolerance = aPred->GetTolerance();
2535 case FT_BelongToPlane:
2536 case FT_BelongToCylinder:
2537 case FT_BelongToGenSurface:
2539 BelongToSurface_i* aPred = dynamic_cast<BelongToSurface_i*>( thePred );
2541 CORBA::ULong i = theCriteria->length();
2542 theCriteria->length( i + 1 );
2544 theCriteria[ i ] = createCriterion();
2546 theCriteria[ i ].Type = aFType;
2547 theCriteria[ i ].ThresholdStr = aPred->GetShapeName();
2548 theCriteria[ i ].ThresholdID = aPred->GetShapeID();
2549 theCriteria[ i ].TypeOfElement = aPred->GetElementType();
2550 theCriteria[ i ].Tolerance = aPred->GetTolerance();
2554 case FT_LyingOnGeom:
2556 LyingOnGeom_i* aPred = dynamic_cast<LyingOnGeom_i*>( thePred );
2558 CORBA::ULong i = theCriteria->length();
2559 theCriteria->length( i + 1 );
2561 theCriteria[ i ] = createCriterion();
2563 theCriteria[ i ].Type = FT_LyingOnGeom;
2564 theCriteria[ i ].ThresholdStr = aPred->GetShapeName();
2565 theCriteria[ i ].ThresholdID = aPred->GetShapeID();
2566 theCriteria[ i ].TypeOfElement = aPred->GetElementType();
2567 theCriteria[ i ].Tolerance = aPred->GetTolerance();
2571 case FT_CoplanarFaces:
2573 CoplanarFaces_i* aPred = dynamic_cast<CoplanarFaces_i*>( thePred );
2575 CORBA::ULong i = theCriteria->length();
2576 theCriteria->length( i + 1 );
2578 theCriteria[ i ] = createCriterion();
2579 CORBA::String_var faceId = aPred->GetFaceAsString();
2581 theCriteria[ i ].Type = FT_CoplanarFaces;
2582 theCriteria[ i ].ThresholdID = faceId;
2583 theCriteria[ i ].Tolerance = aPred->GetTolerance();
2589 RangeOfIds_i* aPred = dynamic_cast<RangeOfIds_i*>( thePred );
2591 CORBA::ULong i = theCriteria->length();
2592 theCriteria->length( i + 1 );
2594 theCriteria[ i ] = createCriterion();
2596 theCriteria[ i ].Type = FT_RangeOfIds;
2597 theCriteria[ i ].ThresholdStr = aPred->GetRangeStr();
2598 theCriteria[ i ].TypeOfElement = aPred->GetElementType();
2602 case FT_BadOrientedVolume:
2604 BadOrientedVolume_i* aPred = dynamic_cast<BadOrientedVolume_i*>( thePred );
2606 CORBA::ULong i = theCriteria->length();
2607 theCriteria->length( i + 1 );
2609 theCriteria[ i ] = createCriterion();
2611 theCriteria[ i ].Type = FT_BadOrientedVolume;
2612 theCriteria[ i ].TypeOfElement = aPred->GetElementType();
2616 case FT_BareBorderVolume:
2618 BareBorderVolume_i* aPred = dynamic_cast<BareBorderVolume_i*>( thePred );
2620 CORBA::ULong i = theCriteria->length();
2621 theCriteria->length( i + 1 );
2623 theCriteria[ i ] = createCriterion();
2625 theCriteria[ i ].Type = FT_BareBorderVolume;
2626 theCriteria[ i ].TypeOfElement = aPred->GetElementType();
2630 case FT_BareBorderFace:
2632 BareBorderFace_i* aPred = dynamic_cast<BareBorderFace_i*>( thePred );
2634 CORBA::ULong i = theCriteria->length();
2635 theCriteria->length( i + 1 );
2637 theCriteria[ i ] = createCriterion();
2639 theCriteria[ i ].Type = FT_BareBorderFace;
2640 theCriteria[ i ].TypeOfElement = aPred->GetElementType();
2644 case FT_OverConstrainedVolume:
2646 OverConstrainedVolume_i* aPred = dynamic_cast<OverConstrainedVolume_i*>( thePred );
2648 CORBA::ULong i = theCriteria->length();
2649 theCriteria->length( i + 1 );
2651 theCriteria[ i ] = createCriterion();
2653 theCriteria[ i ].Type = FT_OverConstrainedVolume;
2654 theCriteria[ i ].TypeOfElement = aPred->GetElementType();
2658 case FT_OverConstrainedFace:
2660 OverConstrainedFace_i* aPred = dynamic_cast<OverConstrainedFace_i*>( thePred );
2662 CORBA::ULong i = theCriteria->length();
2663 theCriteria->length( i + 1 );
2665 theCriteria[ i ] = createCriterion();
2667 theCriteria[ i ].Type = FT_OverConstrainedFace;
2668 theCriteria[ i ].TypeOfElement = aPred->GetElementType();
2676 Comparator_i* aCompar = dynamic_cast<Comparator_i*>( thePred );
2678 CORBA::ULong i = theCriteria->length();
2679 theCriteria->length( i + 1 );
2681 theCriteria[ i ] = createCriterion();
2683 theCriteria[ i ].Type = aCompar->GetNumFunctor_i()->GetFunctorType();
2684 theCriteria[ i ].Compare = aFType;
2685 theCriteria[ i ].Threshold = aCompar->GetMargin();
2686 theCriteria[ i ].TypeOfElement = aCompar->GetElementType();
2688 if ( aFType == FT_EqualTo )
2690 EqualTo_i* aCompar = dynamic_cast<EqualTo_i*>( thePred );
2691 theCriteria[ i ].Tolerance = aCompar->GetTolerance();
2698 Predicate_i* aPred = ( dynamic_cast<LogicalNOT_i*>( thePred ) )->GetPredicate_i();
2699 getCriteria( aPred, theCriteria );
2700 theCriteria[ theCriteria->length() - 1 ].UnaryOp = FT_LogicalNOT;
2707 Predicate_i* aPred1 = ( dynamic_cast<LogicalBinary_i*>( thePred ) )->GetPredicate1_i();
2708 Predicate_i* aPred2 = ( dynamic_cast<LogicalBinary_i*>( thePred ) )->GetPredicate2_i();
2709 if ( !getCriteria( aPred1, theCriteria ) )
2711 theCriteria[ theCriteria->length() - 1 ].BinaryOp = aFType;
2712 return getCriteria( aPred2, theCriteria );
2716 CORBA::ULong i = theCriteria->length();
2717 theCriteria->length( i + 1 );
2719 theCriteria[ i ] = createCriterion();
2721 GroupColor_i* aPred = dynamic_cast<GroupColor_i*>( thePred );
2722 theCriteria[ i ].Type = aFType;
2723 theCriteria[ i ].TypeOfElement = aPred->GetElementType();
2724 theCriteria[ i ].ThresholdStr = aPred->GetColorStr();
2728 case FT_ElemGeomType:
2730 CORBA::ULong i = theCriteria->length();
2731 theCriteria->length( i + 1 );
2733 theCriteria[ i ] = createCriterion();
2735 ElemGeomType_i* aPred = dynamic_cast<ElemGeomType_i*>( thePred );
2736 theCriteria[ i ].Type = aFType;
2737 theCriteria[ i ].TypeOfElement = aPred->GetElementType();
2738 theCriteria[ i ].Threshold = (double)aPred->GetGeometryType();
2749 //=======================================================================
2750 // name : Filter_i::GetCriteria
2751 // Purpose : Retrieve criterions from predicate
2752 //=======================================================================
2753 CORBA::Boolean Filter_i::GetCriteria( SMESH::Filter::Criteria_out theCriteria )
2755 theCriteria = new SMESH::Filter::Criteria;
2756 return myPredicate != 0 ? getCriteria( myPredicate, theCriteria ) : true;
2759 //=======================================================================
2760 // name : Filter_i::SetCriteria
2761 // Purpose : Create new predicate and set criterions in it
2762 //=======================================================================
2763 CORBA::Boolean Filter_i::SetCriteria( const SMESH::Filter::Criteria& theCriteria )
2765 if ( myPredicate != 0 )
2766 myPredicate->UnRegister();
2768 SMESH::FilterManager_i* aFilter = new SMESH::FilterManager_i();
2769 FilterManager_ptr aFilterMgr = aFilter->_this();
2771 // CREATE two lists ( PREDICATES and LOG OP )
2774 TPythonDump()<<"aCriteria = []";
2775 std::list<SMESH::Predicate_ptr> aPredicates;
2776 std::list<int> aBinaries;
2777 for ( int i = 0, n = theCriteria.length(); i < n; i++ )
2779 int aCriterion = theCriteria[ i ].Type;
2780 int aCompare = theCriteria[ i ].Compare;
2781 double aThreshold = theCriteria[ i ].Threshold;
2782 const char* aThresholdStr = theCriteria[ i ].ThresholdStr;
2783 const char* aThresholdID = theCriteria[ i ].ThresholdID;
2784 int aUnary = theCriteria[ i ].UnaryOp;
2785 int aBinary = theCriteria[ i ].BinaryOp;
2786 double aTolerance = theCriteria[ i ].Tolerance;
2787 ElementType aTypeOfElem = theCriteria[ i ].TypeOfElement;
2788 long aPrecision = theCriteria[ i ].Precision;
2792 pd << "aCriterion = SMESH.Filter.Criterion("
2793 << aCriterion << ", "
2795 << aThreshold << ", '"
2796 << aThresholdStr << "', '";
2797 if (aThresholdID) pd << aThresholdID;
2801 << aTolerance << ", "
2802 << aTypeOfElem << ", "
2803 << aPrecision << ")";
2807 SMESH::Predicate_ptr aPredicate = SMESH::Predicate::_nil();
2808 SMESH::NumericalFunctor_ptr aFunctor = SMESH::NumericalFunctor::_nil();
2810 switch ( aCriterion )
2814 case SMESH::FT_MultiConnection:
2815 aFunctor = aFilterMgr->CreateMultiConnection();
2817 case SMESH::FT_MultiConnection2D:
2818 aFunctor = aFilterMgr->CreateMultiConnection2D();
2820 case SMESH::FT_Length:
2821 aFunctor = aFilterMgr->CreateLength();
2823 case SMESH::FT_Length2D:
2824 aFunctor = aFilterMgr->CreateLength2D();
2826 case SMESH::FT_AspectRatio:
2827 aFunctor = aFilterMgr->CreateAspectRatio();
2829 case SMESH::FT_AspectRatio3D:
2830 aFunctor = aFilterMgr->CreateAspectRatio3D();
2832 case SMESH::FT_Warping:
2833 aFunctor = aFilterMgr->CreateWarping();
2835 case SMESH::FT_MinimumAngle:
2836 aFunctor = aFilterMgr->CreateMinimumAngle();
2838 case SMESH::FT_Taper:
2839 aFunctor = aFilterMgr->CreateTaper();
2841 case SMESH::FT_Skew:
2842 aFunctor = aFilterMgr->CreateSkew();
2844 case SMESH::FT_Area:
2845 aFunctor = aFilterMgr->CreateArea();
2847 case SMESH::FT_Volume3D:
2848 aFunctor = aFilterMgr->CreateVolume3D();
2850 case SMESH::FT_MaxElementLength2D:
2851 aFunctor = aFilterMgr->CreateMaxElementLength2D();
2853 case SMESH::FT_MaxElementLength3D:
2854 aFunctor = aFilterMgr->CreateMaxElementLength3D();
2859 case SMESH::FT_FreeBorders:
2860 aPredicate = aFilterMgr->CreateFreeBorders();
2862 case SMESH::FT_FreeEdges:
2863 aPredicate = aFilterMgr->CreateFreeEdges();
2865 case SMESH::FT_FreeFaces:
2866 aPredicate = aFilterMgr->CreateFreeFaces();
2868 case SMESH::FT_FreeNodes:
2869 aPredicate = aFilterMgr->CreateFreeNodes();
2871 case SMESH::FT_BelongToGeom:
2873 SMESH::BelongToGeom_ptr tmpPred = aFilterMgr->CreateBelongToGeom();
2874 tmpPred->SetElementType( aTypeOfElem );
2875 tmpPred->SetShape( aThresholdID, aThresholdStr );
2876 tmpPred->SetTolerance( aTolerance );
2877 aPredicate = tmpPred;
2880 case SMESH::FT_BelongToPlane:
2881 case SMESH::FT_BelongToCylinder:
2882 case SMESH::FT_BelongToGenSurface:
2884 SMESH::BelongToSurface_ptr tmpPred;
2885 switch ( aCriterion ) {
2886 case SMESH::FT_BelongToPlane:
2887 tmpPred = aFilterMgr->CreateBelongToPlane(); break;
2888 case SMESH::FT_BelongToCylinder:
2889 tmpPred = aFilterMgr->CreateBelongToCylinder(); break;
2891 tmpPred = aFilterMgr->CreateBelongToGenSurface();
2893 tmpPred->SetShape( aThresholdID, aThresholdStr, aTypeOfElem );
2894 tmpPred->SetTolerance( aTolerance );
2895 aPredicate = tmpPred;
2898 case SMESH::FT_LyingOnGeom:
2900 SMESH::LyingOnGeom_ptr tmpPred = aFilterMgr->CreateLyingOnGeom();
2901 tmpPred->SetElementType( aTypeOfElem );
2902 tmpPred->SetShape( aThresholdID, aThresholdStr );
2903 tmpPred->SetTolerance( aTolerance );
2904 aPredicate = tmpPred;
2907 case SMESH::FT_RangeOfIds:
2909 SMESH::RangeOfIds_ptr tmpPred = aFilterMgr->CreateRangeOfIds();
2910 tmpPred->SetRangeStr( aThresholdStr );
2911 tmpPred->SetElementType( aTypeOfElem );
2912 aPredicate = tmpPred;
2915 case SMESH::FT_BadOrientedVolume:
2917 aPredicate = aFilterMgr->CreateBadOrientedVolume();
2920 case SMESH::FT_BareBorderVolume:
2922 aPredicate = aFilterMgr->CreateBareBorderVolume();
2925 case SMESH::FT_BareBorderFace:
2927 aPredicate = aFilterMgr->CreateBareBorderFace();
2930 case SMESH::FT_OverConstrainedVolume:
2932 aPredicate = aFilterMgr->CreateOverConstrainedVolume();
2935 case SMESH::FT_OverConstrainedFace:
2937 aPredicate = aFilterMgr->CreateOverConstrainedFace();
2940 case SMESH::FT_LinearOrQuadratic:
2942 SMESH::LinearOrQuadratic_ptr tmpPred = aFilterMgr->CreateLinearOrQuadratic();
2943 tmpPred->SetElementType( aTypeOfElem );
2944 aPredicate = tmpPred;
2947 case SMESH::FT_GroupColor:
2949 SMESH::GroupColor_ptr tmpPred = aFilterMgr->CreateGroupColor();
2950 tmpPred->SetElementType( aTypeOfElem );
2951 tmpPred->SetColorStr( aThresholdStr );
2952 aPredicate = tmpPred;
2955 case SMESH::FT_ElemGeomType:
2957 SMESH::ElemGeomType_ptr tmpPred = aFilterMgr->CreateElemGeomType();
2958 tmpPred->SetElementType( aTypeOfElem );
2959 tmpPred->SetGeometryType( (GeometryType)(int)(aThreshold + 0.5) );
2960 aPredicate = tmpPred;
2963 case SMESH::FT_CoplanarFaces:
2965 SMESH::CoplanarFaces_ptr tmpPred = aFilterMgr->CreateCoplanarFaces();
2966 tmpPred->SetFace( atol (aThresholdID ));
2967 tmpPred->SetTolerance( aTolerance );
2968 aPredicate = tmpPred;
2977 if ( !aFunctor->_is_nil() && aPredicate->_is_nil() )
2979 SMESH::Comparator_ptr aComparator = SMESH::Comparator::_nil();
2981 if ( aCompare == SMESH::FT_LessThan )
2982 aComparator = aFilterMgr->CreateLessThan();
2983 else if ( aCompare == SMESH::FT_MoreThan )
2984 aComparator = aFilterMgr->CreateMoreThan();
2985 else if ( aCompare == SMESH::FT_EqualTo )
2986 aComparator = aFilterMgr->CreateEqualTo();
2990 aComparator->SetNumFunctor( aFunctor );
2991 aComparator->SetMargin( aThreshold );
2993 if ( aCompare == FT_EqualTo )
2995 SMESH::EqualTo_var anEqualTo = SMESH::EqualTo::_narrow( aComparator );
2996 anEqualTo->SetTolerance( aTolerance );
2999 aPredicate = aComparator;
3001 aFunctor->SetPrecision( aPrecision );
3005 if ( aUnary == FT_LogicalNOT )
3007 SMESH::LogicalNOT_ptr aNotPred = aFilterMgr->CreateLogicalNOT();
3008 aNotPred->SetPredicate( aPredicate );
3009 aPredicate = aNotPred;
3013 aPredicates.push_back( aPredicate );
3014 aBinaries.push_back( aBinary );
3015 pd <<"aCriteria.append(aCriterion)";
3018 TPythonDump pd; pd<<this<<".SetCriteria(aCriteria)";
3020 // CREATE ONE PREDICATE FROM PREVIOUSLY CREATED MAP
3022 // combine all "AND" operations
3024 std::list<SMESH::Predicate_ptr> aResList;
3026 std::list<SMESH::Predicate_ptr>::iterator aPredIter;
3027 std::list<int>::iterator aBinaryIter;
3029 SMESH::Predicate_ptr aPrevPredicate = SMESH::Predicate::_nil();
3030 int aPrevBinary = SMESH::FT_Undefined;
3032 for ( aPredIter = aPredicates.begin(), aBinaryIter = aBinaries.begin();
3033 aPredIter != aPredicates.end() && aBinaryIter != aBinaries.end();
3034 ++aPredIter, ++aBinaryIter )
3036 int aCurrBinary = *aBinaryIter;
3038 SMESH::Predicate_ptr aCurrPred = SMESH::Predicate::_nil();
3040 if ( aPrevBinary == SMESH::FT_LogicalAND )
3043 SMESH::LogicalBinary_ptr aBinaryPred = aFilterMgr->CreateLogicalAND();
3044 aBinaryPred->SetPredicate1( aPrevPredicate );
3045 aBinaryPred->SetPredicate2( *aPredIter );
3046 aCurrPred = aBinaryPred;
3049 aCurrPred = *aPredIter;
3051 if ( aCurrBinary != SMESH::FT_LogicalAND )
3052 aResList.push_back( aCurrPred );
3054 aPrevPredicate = aCurrPred;
3055 aPrevBinary = aCurrBinary;
3058 // combine all "OR" operations
3060 SMESH::Predicate_ptr aResPredicate = SMESH::Predicate::_nil();
3062 if ( aResList.size() == 1 )
3063 aResPredicate = *aResList.begin();
3064 else if ( aResList.size() > 1 )
3066 std::list<SMESH::Predicate_ptr>::iterator anIter = aResList.begin();
3067 aResPredicate = *anIter;
3069 for ( ; anIter != aResList.end(); ++anIter )
3071 SMESH::LogicalBinary_ptr aBinaryPred = aFilterMgr->CreateLogicalOR();
3072 aBinaryPred->SetPredicate1( aResPredicate );
3073 aBinaryPred->SetPredicate2( *anIter );
3074 aResPredicate = aBinaryPred;
3078 SetPredicate( aResPredicate );
3080 return !aResPredicate->_is_nil();
3083 //=======================================================================
3084 // name : Filter_i::GetPredicate_i
3085 // Purpose : Get implementation of predicate
3086 //=======================================================================
3087 Predicate_i* Filter_i::GetPredicate_i()
3092 //=======================================================================
3093 // name : Filter_i::GetPredicate
3094 // Purpose : Get predicate
3095 //=======================================================================
3096 Predicate_ptr Filter_i::GetPredicate()
3098 if ( myPredicate == 0 )
3099 return SMESH::Predicate::_nil();
3102 SMESH::Predicate_var anObj = myPredicate->_this();
3103 return anObj._retn();
3111 #define ATTR_TYPE "type"
3112 #define ATTR_COMPARE "compare"
3113 #define ATTR_THRESHOLD "threshold"
3114 #define ATTR_UNARY "unary"
3115 #define ATTR_BINARY "binary"
3116 #define ATTR_THRESHOLD_STR "threshold_str"
3117 #define ATTR_TOLERANCE "tolerance"
3118 #define ATTR_ELEMENT_TYPE "ElementType"
3120 //=======================================================================
3122 // Purpose : Convert bool to LDOMString
3123 //=======================================================================
3124 static inline LDOMString toString( CORBA::Boolean val )
3126 return val ? "logical not" : "";
3129 //=======================================================================
3131 // Purpose : Convert LDOMString to bool
3132 //=======================================================================
3133 static inline bool toBool( const LDOMString& theStr )
3135 return theStr.equals( "logical not" );
3138 //=======================================================================
3140 // Purpose : Convert double to LDOMString
3141 //=======================================================================
3142 static inline LDOMString toString( CORBA::Double val )
3145 sprintf( a, "%e", val );
3146 return LDOMString( a );
3149 //=======================================================================
3151 // Purpose : Convert LDOMString to double
3152 //=======================================================================
3153 static inline double toDouble( const LDOMString& theStr )
3155 return atof( theStr.GetString() );
3158 //=======================================================================
3160 // Purpose : Convert functor type to LDOMString
3161 //=======================================================================
3162 static inline LDOMString toString( CORBA::Long theType )
3166 case FT_AspectRatio : return "Aspect ratio";
3167 case FT_Warping : return "Warping";
3168 case FT_MinimumAngle : return "Minimum angle";
3169 case FT_Taper : return "Taper";
3170 case FT_Skew : return "Skew";
3171 case FT_Area : return "Area";
3172 case FT_Volume3D : return "Volume3D";
3173 case FT_MaxElementLength2D: return "Max element length 2D";
3174 case FT_MaxElementLength3D: return "Max element length 3D";
3175 case FT_BelongToGeom : return "Belong to Geom";
3176 case FT_BelongToPlane : return "Belong to Plane";
3177 case FT_BelongToCylinder: return "Belong to Cylinder";
3178 case FT_BelongToGenSurface: return "Belong to Generic Surface";
3179 case FT_LyingOnGeom : return "Lying on Geom";
3180 case FT_BadOrientedVolume:return "Bad Oriented Volume";
3181 case FT_BareBorderVolume: return "Volumes with bare border";
3182 case FT_BareBorderFace : return "Faces with bare border";
3183 case FT_OverConstrainedVolume: return "Over-constrained Volumes";
3184 case FT_OverConstrainedFace : return "Over-constrained Faces";
3185 case FT_RangeOfIds : return "Range of IDs";
3186 case FT_FreeBorders : return "Free borders";
3187 case FT_FreeEdges : return "Free edges";
3188 case FT_FreeFaces : return "Free faces";
3189 case FT_FreeNodes : return "Free nodes";
3190 case FT_MultiConnection : return "Borders at multi-connections";
3191 case FT_MultiConnection2D: return "Borders at multi-connections 2D";
3192 case FT_Length : return "Length";
3193 case FT_Length2D : return "Length 2D";
3194 case FT_LessThan : return "Less than";
3195 case FT_MoreThan : return "More than";
3196 case FT_EqualTo : return "Equal to";
3197 case FT_LogicalNOT : return "Not";
3198 case FT_LogicalAND : return "And";
3199 case FT_LogicalOR : return "Or";
3200 case FT_GroupColor : return "Color of Group";
3201 case FT_LinearOrQuadratic : return "Linear or Quadratic";
3202 case FT_ElemGeomType : return "Element geomtry type";
3203 case FT_Undefined : return "";
3204 default : return "";
3208 //=======================================================================
3209 // name : toFunctorType
3210 // Purpose : Convert LDOMString to functor type
3211 //=======================================================================
3212 static inline SMESH::FunctorType toFunctorType( const LDOMString& theStr )
3214 if ( theStr.equals( "Aspect ratio" ) ) return FT_AspectRatio;
3215 else if ( theStr.equals( "Warping" ) ) return FT_Warping;
3216 else if ( theStr.equals( "Minimum angle" ) ) return FT_MinimumAngle;
3217 else if ( theStr.equals( "Taper" ) ) return FT_Taper;
3218 else if ( theStr.equals( "Skew" ) ) return FT_Skew;
3219 else if ( theStr.equals( "Area" ) ) return FT_Area;
3220 else if ( theStr.equals( "Volume3D" ) ) return FT_Volume3D;
3221 else if ( theStr.equals( "Max element length 2D" ) ) return FT_MaxElementLength2D;
3222 else if ( theStr.equals( "Max element length 3D" ) ) return FT_MaxElementLength3D;
3223 else if ( theStr.equals( "Belong to Geom" ) ) return FT_BelongToGeom;
3224 else if ( theStr.equals( "Belong to Plane" ) ) return FT_BelongToPlane;
3225 else if ( theStr.equals( "Belong to Cylinder" ) ) return FT_BelongToCylinder;
3226 else if ( theStr.equals( "Belong to Generic Surface" ) ) return FT_BelongToGenSurface;
3227 else if ( theStr.equals( "Lying on Geom" ) ) return FT_LyingOnGeom;
3228 else if ( theStr.equals( "Free borders" ) ) return FT_FreeBorders;
3229 else if ( theStr.equals( "Free edges" ) ) return FT_FreeEdges;
3230 else if ( theStr.equals( "Free faces" ) ) return FT_FreeFaces;
3231 else if ( theStr.equals( "Free nodes" ) ) return FT_FreeNodes;
3232 else if ( theStr.equals( "Borders at multi-connections" ) ) return FT_MultiConnection;
3233 // else if ( theStr.equals( "Borders at multi-connections 2D" ) ) return FT_MultiConnection2D;
3234 else if ( theStr.equals( "Length" ) ) return FT_Length;
3235 // else if ( theStr.equals( "Length2D" ) ) return FT_Length2D;
3236 else if ( theStr.equals( "Range of IDs" ) ) return FT_RangeOfIds;
3237 else if ( theStr.equals( "Bad Oriented Volume" ) ) return FT_BadOrientedVolume;
3238 else if ( theStr.equals( "Volumes with bare border" ) ) return FT_BareBorderVolume;
3239 else if ( theStr.equals( "Faces with bare border" ) ) return FT_BareBorderFace;
3240 else if ( theStr.equals( "Over-constrained Volumes" ) ) return FT_OverConstrainedVolume;
3241 else if ( theStr.equals( "Over-constrained Faces" ) ) return FT_OverConstrainedFace;
3242 else if ( theStr.equals( "Less than" ) ) return FT_LessThan;
3243 else if ( theStr.equals( "More than" ) ) return FT_MoreThan;
3244 else if ( theStr.equals( "Equal to" ) ) return FT_EqualTo;
3245 else if ( theStr.equals( "Not" ) ) return FT_LogicalNOT;
3246 else if ( theStr.equals( "And" ) ) return FT_LogicalAND;
3247 else if ( theStr.equals( "Or" ) ) return FT_LogicalOR;
3248 else if ( theStr.equals( "Color of Group" ) ) return FT_GroupColor;
3249 else if ( theStr.equals( "Linear or Quadratic" ) ) return FT_LinearOrQuadratic;
3250 else if ( theStr.equals( "Element geomtry type" ) ) return FT_ElemGeomType;
3251 else if ( theStr.equals( "" ) ) return FT_Undefined;
3252 else return FT_Undefined;
3255 //=======================================================================
3256 // name : toFunctorType
3257 // Purpose : Convert LDOMString to value of ElementType enumeration
3258 //=======================================================================
3259 static inline SMESH::ElementType toElementType( const LDOMString& theStr )
3261 if ( theStr.equals( "NODE" ) ) return SMESH::NODE;
3262 else if ( theStr.equals( "EDGE" ) ) return SMESH::EDGE;
3263 else if ( theStr.equals( "FACE" ) ) return SMESH::FACE;
3264 else if ( theStr.equals( "VOLUME" ) ) return SMESH::VOLUME;
3265 else return SMESH::ALL;
3268 //=======================================================================
3270 // Purpose : Convert ElementType to string
3271 //=======================================================================
3272 static inline LDOMString toString( const SMESH::ElementType theType )
3276 case SMESH::NODE : return "NODE";
3277 case SMESH::EDGE : return "EDGE";
3278 case SMESH::FACE : return "FACE";
3279 case SMESH::VOLUME : return "VOLUME";
3280 case SMESH::ALL : return "ALL";
3281 default : return "";
3285 //=======================================================================
3286 // name : findFilter
3287 // Purpose : Find filter in document
3288 //=======================================================================
3289 static LDOM_Element findFilter( const char* theFilterName,
3290 const LDOM_Document& theDoc,
3291 LDOM_Node* theParent = 0 )
3293 LDOM_Element aRootElement = theDoc.getDocumentElement();
3294 if ( aRootElement.isNull() || !aRootElement.hasChildNodes() )
3295 return LDOM_Element();
3297 for ( LDOM_Node aTypeNode = aRootElement.getFirstChild();
3298 !aTypeNode.isNull(); aTypeNode = aTypeNode.getNextSibling() )
3300 for ( LDOM_Node aFilter = aTypeNode.getFirstChild();
3301 !aFilter.isNull(); aFilter = aFilter.getNextSibling() )
3303 LDOM_Element* anElem = ( LDOM_Element* )&aFilter;
3304 if ( anElem->getTagName().equals( LDOMString( "filter" ) ) &&
3305 anElem->getAttribute( "name" ).equals( LDOMString( theFilterName ) ) )
3307 if ( theParent != 0 )
3308 *theParent = aTypeNode;
3309 return (LDOM_Element&)aFilter;
3313 return LDOM_Element();
3316 //=======================================================================
3317 // name : getSectionName
3318 // Purpose : Get name of section of filters
3319 //=======================================================================
3320 static const char* getSectionName( const ElementType theType )
3324 case SMESH::NODE : return "Filters for nodes";
3325 case SMESH::EDGE : return "Filters for edges";
3326 case SMESH::FACE : return "Filters for faces";
3327 case SMESH::VOLUME : return "Filters for volumes";
3328 case SMESH::ALL : return "Filters for elements";
3329 default : return "";
3333 //=======================================================================
3334 // name : getSection
3335 // Purpose : Create section for filters corresponding to the entity type
3336 //=======================================================================
3337 static LDOM_Node getSection( const ElementType theType,
3338 LDOM_Document& theDoc,
3339 const bool toCreate = false )
3341 LDOM_Element aRootElement = theDoc.getDocumentElement();
3342 if ( aRootElement.isNull() )
3346 bool anExist = false;
3347 const char* aSectionName = getSectionName( theType );
3348 if ( strcmp( aSectionName, "" ) == 0 )
3351 LDOM_NodeList aSections = theDoc.getElementsByTagName( "section" );
3353 for ( int i = 0, n = aSections.getLength(); i < n; i++ )
3355 aNode = aSections.item( i );
3356 LDOM_Element& anItem = ( LDOM_Element& )aNode;
3357 if ( anItem.getAttribute( "name" ).equals( LDOMString( aSectionName ) ) )
3364 // Create new section if necessary
3369 LDOM_Element aNewItem = theDoc.createElement( "section" );
3370 aNewItem.setAttribute( "name", aSectionName );
3371 aRootElement.appendChild( aNewItem );
3381 //=======================================================================
3382 // name : createFilterItem
3383 // Purpose : Create filter item or LDOM document
3384 //=======================================================================
3385 static LDOM_Element createFilterItem( const char* theName,
3386 SMESH::Filter_ptr theFilter,
3387 LDOM_Document& theDoc )
3389 // create new filter in document
3390 LDOM_Element aFilterItem = theDoc.createElement( "filter" );
3391 aFilterItem.setAttribute( "name", theName );
3393 // save filter criterions
3394 SMESH::Filter::Criteria_var aCriteria = new SMESH::Filter::Criteria;
3396 if ( !theFilter->GetCriteria( aCriteria ) )
3397 return LDOM_Element();
3399 for ( CORBA::ULong i = 0, n = aCriteria->length(); i < n; i++ )
3401 LDOM_Element aCriterionItem = theDoc.createElement( "criterion" );
3403 aCriterionItem.setAttribute( ATTR_TYPE , toString( aCriteria[ i ].Type) );
3404 aCriterionItem.setAttribute( ATTR_COMPARE , toString( aCriteria[ i ].Compare ) );
3405 aCriterionItem.setAttribute( ATTR_THRESHOLD , toString( aCriteria[ i ].Threshold ) );
3406 aCriterionItem.setAttribute( ATTR_UNARY , toString( aCriteria[ i ].UnaryOp ) );
3407 aCriterionItem.setAttribute( ATTR_BINARY , toString( aCriteria[ i ].BinaryOp ) );
3409 aCriterionItem.setAttribute( ATTR_THRESHOLD_STR, (const char*)aCriteria[ i ].ThresholdStr );
3410 aCriterionItem.setAttribute( ATTR_TOLERANCE , toString( aCriteria[ i ].Tolerance ) );
3411 aCriterionItem.setAttribute( ATTR_ELEMENT_TYPE ,
3412 toString( (SMESH::ElementType)aCriteria[ i ].TypeOfElement ) );
3414 aFilterItem.appendChild( aCriterionItem );
3420 //=======================================================================
3421 // name : FilterLibrary_i::FilterLibrary_i
3422 // Purpose : Constructor
3423 //=======================================================================
3424 FilterLibrary_i::FilterLibrary_i( const char* theFileName )
3426 myFileName = strdup( theFileName );
3427 SMESH::FilterManager_i* aFilterMgr = new SMESH::FilterManager_i();
3428 myFilterMgr = aFilterMgr->_this();
3432 // Try to use existing library file
3433 bool anExists = false;
3434 if ( !aParser.parse( myFileName ) )
3436 myDoc = aParser.getDocument();
3439 // Create a new XML document if it doesn't exist
3441 myDoc = LDOM_Document::createDocument( LDOMString() );
3443 LDOM_Element aRootElement = myDoc.getDocumentElement();
3444 if ( aRootElement.isNull() )
3446 // If the existing document is empty --> try to create a new one
3448 myDoc = LDOM_Document::createDocument( LDOMString() );
3452 //=======================================================================
3453 // name : FilterLibrary_i::FilterLibrary_i
3454 // Purpose : Constructor
3455 //=======================================================================
3456 FilterLibrary_i::FilterLibrary_i()
3459 SMESH::FilterManager_i* aFilter = new SMESH::FilterManager_i();
3460 myFilterMgr = aFilter->_this();
3462 myDoc = LDOM_Document::createDocument( LDOMString() );
3465 FilterLibrary_i::~FilterLibrary_i()
3468 //TPythonDump()<<this<<".UnRegister()";
3471 //=======================================================================
3472 // name : FilterLibrary_i::Copy
3473 // Purpose : Create filter and initialize it with values from library
3474 //=======================================================================
3475 Filter_ptr FilterLibrary_i::Copy( const char* theFilterName )
3477 Filter_ptr aRes = Filter::_nil();
3478 LDOM_Node aFilter = findFilter( theFilterName, myDoc );
3480 if ( aFilter.isNull() )
3483 std::list<SMESH::Filter::Criterion> aCriteria;
3485 for ( LDOM_Node aCritNode = aFilter.getFirstChild();
3486 !aCritNode.isNull() ; aCritNode = aCritNode.getNextSibling() )
3488 LDOM_Element* aCrit = (LDOM_Element*)&aCritNode;
3490 const char* aTypeStr = aCrit->getAttribute( ATTR_TYPE ).GetString();
3491 const char* aCompareStr = aCrit->getAttribute( ATTR_COMPARE ).GetString();
3492 const char* aUnaryStr = aCrit->getAttribute( ATTR_UNARY ).GetString();
3493 const char* aBinaryStr = aCrit->getAttribute( ATTR_BINARY ).GetString();
3494 const char* anElemTypeStr = aCrit->getAttribute( ATTR_ELEMENT_TYPE ).GetString();
3496 SMESH::Filter::Criterion aCriterion = createCriterion();
3498 aCriterion.Type = toFunctorType( aTypeStr );
3499 aCriterion.Compare = toFunctorType( aCompareStr );
3500 aCriterion.UnaryOp = toFunctorType( aUnaryStr );
3501 aCriterion.BinaryOp = toFunctorType( aBinaryStr );
3503 aCriterion.TypeOfElement = toElementType( anElemTypeStr );
3505 LDOMString str = aCrit->getAttribute( ATTR_THRESHOLD );
3507 aCriterion.Threshold = str.Type() == LDOMBasicString::LDOM_Integer && str.GetInteger( val )
3508 ? val : atof( str.GetString() );
3510 str = aCrit->getAttribute( ATTR_TOLERANCE );
3511 aCriterion.Tolerance = str.Type() == LDOMBasicString::LDOM_Integer && str.GetInteger( val )
3512 ? val : atof( str.GetString() );
3514 str = aCrit->getAttribute( ATTR_THRESHOLD_STR );
3515 if ( str.Type() == LDOMBasicString::LDOM_Integer && str.GetInteger( val ) )
3518 sprintf( a, "%d", val );
3519 aCriterion.ThresholdStr = strdup( a );
3522 aCriterion.ThresholdStr = str.GetString();
3524 aCriteria.push_back( aCriterion );
3527 SMESH::Filter::Criteria_var aCriteriaVar = new SMESH::Filter::Criteria;
3528 aCriteriaVar->length( aCriteria.size() );
3531 std::list<SMESH::Filter::Criterion>::iterator anIter = aCriteria.begin();
3533 for( ; anIter != aCriteria.end(); ++anIter )
3534 aCriteriaVar[ i++ ] = *anIter;
3536 aRes = myFilterMgr->CreateFilter();
3537 aRes->SetCriteria( aCriteriaVar.inout() );
3539 TPythonDump()<<this<<".Copy('"<<theFilterName<<"')";
3544 //=======================================================================
3545 // name : FilterLibrary_i::SetFileName
3546 // Purpose : Set file name for library
3547 //=======================================================================
3548 void FilterLibrary_i::SetFileName( const char* theFileName )
3551 myFileName = strdup( theFileName );
3552 TPythonDump()<<this<<".SetFileName('"<<theFileName<<"')";
3555 //=======================================================================
3556 // name : FilterLibrary_i::GetFileName
3557 // Purpose : Get file name of library
3558 //=======================================================================
3559 char* FilterLibrary_i::GetFileName()
3561 return CORBA::string_dup( myFileName );
3564 //=======================================================================
3565 // name : FilterLibrary_i::Add
3566 // Purpose : Add new filter to library
3567 //=======================================================================
3568 CORBA::Boolean FilterLibrary_i::Add( const char* theFilterName, Filter_ptr theFilter )
3570 // if filter already in library or entry filter is null do nothing
3571 LDOM_Node aFilterNode = findFilter( theFilterName, myDoc );
3572 if ( !aFilterNode.isNull() || theFilter->_is_nil() )
3575 // get section corresponding to the filter type
3576 ElementType anEntType = theFilter->GetElementType();
3578 LDOM_Node aSection = getSection( anEntType, myDoc, true );
3579 if ( aSection.isNull() )
3582 // create filter item
3583 LDOM_Element aFilterItem = createFilterItem( theFilterName, theFilter, myDoc );
3584 if ( aFilterItem.isNull() )
3588 aSection.appendChild( aFilterItem );
3589 if(Filter_i* aFilter = DownCast<Filter_i*>(theFilter))
3590 TPythonDump()<<this<<".Add('"<<theFilterName<<"',"<<aFilter<<")";
3595 //=======================================================================
3596 // name : FilterLibrary_i::Add
3597 // Purpose : Add new filter to library
3598 //=======================================================================
3599 CORBA::Boolean FilterLibrary_i::AddEmpty( const char* theFilterName, ElementType theType )
3601 // if filter already in library or entry filter is null do nothing
3602 LDOM_Node aFilterNode = findFilter( theFilterName, myDoc );
3603 if ( !aFilterNode.isNull() )
3606 LDOM_Node aSection = getSection( theType, myDoc, true );
3607 if ( aSection.isNull() )
3610 // create filter item
3611 Filter_var aFilter = myFilterMgr->CreateFilter();
3613 LDOM_Element aFilterItem = createFilterItem( theFilterName, aFilter, myDoc );
3614 if ( aFilterItem.isNull() )
3618 aSection.appendChild( aFilterItem );
3619 TPythonDump()<<this<<".AddEmpty('"<<theFilterName<<"',"<<theType<<")";
3624 //=======================================================================
3625 // name : FilterLibrary_i::Delete
3626 // Purpose : Delete filter from library
3627 //=======================================================================
3628 CORBA::Boolean FilterLibrary_i::Delete ( const char* theFilterName )
3630 LDOM_Node aParentNode;
3631 LDOM_Node aFilterNode = findFilter( theFilterName, myDoc, &aParentNode );
3632 if ( aFilterNode.isNull() || aParentNode.isNull() )
3635 aParentNode.removeChild( aFilterNode );
3636 TPythonDump()<<this<<".Delete('"<<theFilterName<<"')";
3640 //=======================================================================
3641 // name : FilterLibrary_i::Replace
3642 // Purpose : Replace existing filter with entry filter.
3643 // IMPORTANT : If filter does not exist it is not created
3644 //=======================================================================
3645 CORBA::Boolean FilterLibrary_i::Replace( const char* theFilterName,
3646 const char* theNewName,
3647 Filter_ptr theFilter )
3649 LDOM_Element aFilterItem = findFilter( theFilterName, myDoc );
3650 if ( aFilterItem.isNull() || theFilter->_is_nil() )
3653 LDOM_Element aNewItem = createFilterItem( theNewName, theFilter, myDoc );
3654 if ( aNewItem.isNull() )
3658 aFilterItem.ReplaceElement( aNewItem );
3659 if(Filter_i* aFilter = DownCast<Filter_i*>(theFilter))
3660 TPythonDump()<<this<<".Replace('"<<theFilterName<<"','"<<theNewName<<"',"<<aFilter<<")";
3665 //=======================================================================
3666 // name : FilterLibrary_i::Save
3667 // Purpose : Save library on disk
3668 //=======================================================================
3669 CORBA::Boolean FilterLibrary_i::Save()
3671 if ( myFileName == 0 || strlen( myFileName ) == 0 )
3674 FILE* aOutFile = fopen( myFileName, "wt" );
3678 LDOM_XmlWriter aWriter( aOutFile );
3679 aWriter.SetIndentation( 2 );
3683 TPythonDump()<<this<<".Save()";
3687 //=======================================================================
3688 // name : FilterLibrary_i::SaveAs
3689 // Purpose : Save library on disk
3690 //=======================================================================
3691 CORBA::Boolean FilterLibrary_i::SaveAs( const char* aFileName )
3693 myFileName = strdup ( aFileName );
3694 TPythonDump()<<this<<".SaveAs('"<<aFileName<<"')";
3698 //=======================================================================
3699 // name : FilterLibrary_i::IsPresent
3700 // Purpose : Verify whether filter is in library
3701 //=======================================================================
3702 CORBA::Boolean FilterLibrary_i::IsPresent( const char* theFilterName )
3704 return !findFilter( theFilterName, myDoc ).isNull();
3707 //=======================================================================
3708 // name : FilterLibrary_i::NbFilters
3709 // Purpose : Return amount of filters in library
3710 //=======================================================================
3711 CORBA::Long FilterLibrary_i::NbFilters( ElementType theType )
3713 string_array_var aNames = GetNames( theType );
3714 return aNames->length();
3717 //=======================================================================
3718 // name : FilterLibrary_i::GetNames
3719 // Purpose : Get names of filters from library
3720 //=======================================================================
3721 string_array* FilterLibrary_i::GetNames( ElementType theType )
3723 string_array_var anArray = new string_array;
3724 TColStd_SequenceOfHAsciiString aSeq;
3726 LDOM_Node aSection = getSection( theType, myDoc, false );
3728 if ( !aSection.isNull() )
3730 for ( LDOM_Node aFilter = aSection.getFirstChild();
3731 !aFilter.isNull(); aFilter = aFilter.getNextSibling() )
3733 LDOM_Element& anElem = ( LDOM_Element& )aFilter;
3734 aSeq.Append( new TCollection_HAsciiString(
3735 (Standard_CString)anElem.getAttribute( "name" ).GetString() ) );
3739 anArray->length( aSeq.Length() );
3740 for ( int i = 1, n = aSeq.Length(); i <= n; i++ )
3741 anArray[ i - 1 ] = CORBA::string_dup( aSeq( i )->ToCString() );
3743 return anArray._retn();
3746 //=======================================================================
3747 // name : FilterLibrary_i::GetAllNames
3748 // Purpose : Get names of filters from library
3749 //=======================================================================
3750 string_array* FilterLibrary_i::GetAllNames()
3752 string_array_var aResArray = new string_array;
3753 for ( int type = SMESH::ALL; type <= SMESH::VOLUME; type++ )
3755 SMESH::string_array_var aNames = GetNames( (SMESH::ElementType)type );
3757 int aPrevLength = aResArray->length();
3758 aResArray->length( aPrevLength + aNames->length() );
3759 for ( int i = 0, n = aNames->length(); i < n; i++ )
3760 aResArray[ aPrevLength + i ] = aNames[ i ];
3763 return aResArray._retn();
3766 //================================================================================
3768 * \brief Return an array of strings corresponding to items of enum FunctorType
3770 //================================================================================
3772 static const char** getFunctNames()
3774 static const char* functName[ SMESH::FT_Undefined + 1 ] = {
3775 // If this line doesn't compile, this means that enum FunctorType has changed and
3776 // it's necessary to update this array accordingly (refer to SMESH_Filter.idl)
3777 // The order is IMPORTANT !!!
3778 "FT_AspectRatio", "FT_AspectRatio3D", "FT_Warping", "FT_MinimumAngle",
3779 "FT_Taper", "FT_Skew", "FT_Area", "FT_Volume3D", "FT_MaxElementLength2D",
3780 "FT_MaxElementLength3D", "FT_FreeBorders", "FT_FreeEdges", "FT_FreeNodes",
3781 "FT_FreeFaces", "FT_MultiConnection", "FT_MultiConnection2D", "FT_Length",
3782 "FT_Length2D", "FT_BelongToGeom", "FT_BelongToPlane", "FT_BelongToCylinder",
3783 "FT_BelongToGenSurface", "FT_LyingOnGeom", "FT_RangeOfIds", "FT_BadOrientedVolume",
3784 "FT_BareBorderVolume", "FT_BareBorderFace", "FT_OverConstrainedVolume",
3785 "FT_OverConstrainedFace", "FT_LinearOrQuadratic", "FT_GroupColor", "FT_ElemGeomType",
3786 "FT_CoplanarFaces", "FT_LessThan", "FT_MoreThan", "FT_EqualTo", "FT_LogicalNOT",
3787 "FT_LogicalAND", "FT_LogicalOR", "FT_Undefined" };
3791 //================================================================================
3793 * \brief Return a string corresponding to an item of enum FunctorType
3795 //================================================================================
3797 const char* SMESH::FunctorTypeToString(SMESH::FunctorType ft)
3799 if ( ft < 0 || ft > SMESH::FT_Undefined )
3800 return "FT_Undefined";
3801 return getFunctNames()[ ft ];
3804 //================================================================================
3806 * \brief Converts a string to FunctorType. This is reverse of FunctorTypeToString()
3808 //================================================================================
3810 SMESH::FunctorType SMESH::StringToFunctorType(const char* str)
3812 std::string name( str + 3 ); // skip "FT_"
3813 const char** functNames = getFunctNames();
3814 int ft = SMESH::FT_Undefined;
3815 for ( ; ft >= 0; --ft )
3816 if ( name == ( functNames[ft] + 3 ))
3819 //ASSERT( strcmp( str, FunctorTypeToString( SMESH::FunctorType( ft ))) == 0 );
3821 return SMESH::FunctorType( ft );