X-Git-Url: http://git.salome-platform.org/gitweb/?p=modules%2Fsmesh.git;a=blobdiff_plain;f=src%2FSMESH_I%2FSMESH_Filter_i.cxx;h=f7040c5abbea6916a6efc1c672d8a54192e68fa3;hp=0a7d4d67ea4247e7afd1755874f704031af67f47;hb=20c126bc220757c06b5576f71ed6f34ae85e3e40;hpb=fb68cb5a3d9573a3f50b3870a9797cf494afdb32 diff --git a/src/SMESH_I/SMESH_Filter_i.cxx b/src/SMESH_I/SMESH_Filter_i.cxx index 0a7d4d67e..f7040c5ab 100644 --- a/src/SMESH_I/SMESH_Filter_i.cxx +++ b/src/SMESH_I/SMESH_Filter_i.cxx @@ -1,4 +1,4 @@ -// Copyright (C) 2007-2011 CEA/DEN, EDF R&D, OPEN CASCADE +// Copyright (C) 2007-2012 CEA/DEN, EDF R&D, OPEN CASCADE // // Copyright (C) 2003-2007 OPEN CASCADE, EADS/CCR, LIP6, CEA/DEN, // CEDRAT, EDF R&D, LEG, PRINCIPIA R&D, BUREAU VERITAS @@ -18,25 +18,23 @@ // Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA // // See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com -// // SMESH SMESH_I : idl implementation based on 'SMESH' unit's calsses // File : SMESH_Filter_i.cxx // Author : Alexey Petrov, OCC // Module : SMESH -// -#include "SMESH_Filter_i.hxx" -#include "SMESH_Gen_i.hxx" -#include "SMESH_PythonDump.hxx" +#include "SMESH_Filter_i.hxx" +#include "SMDS_ElemIterator.hxx" #include "SMDS_Mesh.hxx" -#include "SMDS_MeshNode.hxx" #include "SMDS_MeshElement.hxx" -#include "SMDS_ElemIterator.hxx" -#include "SMDS_VolumeTool.hxx" - +#include "SMDS_MeshNode.hxx" #include "SMESHDS_Mesh.hxx" +#include "SMESH_Gen_i.hxx" +#include "SMESH_PythonDump.hxx" + +#include #include #include @@ -125,7 +123,7 @@ void Controls::BelongToGeom::init() { if (!myMeshDS || myShape.IsNull()) return; - // is subshape of main shape? + // is sub-shape of main shape? TopoDS_Shape aMainShape = myMeshDS->ShapeToMesh(); if (aMainShape.IsNull()) { myIsSubshape = false; @@ -281,7 +279,7 @@ void Controls::LyingOnGeom::init() { if (!myMeshDS || myShape.IsNull()) return; - // is subshape of main shape? + // is sub-shape of main shape? TopoDS_Shape aMainShape = myMeshDS->ShapeToMesh(); if (aMainShape.IsNull()) { myIsSubshape = false; @@ -488,21 +486,18 @@ static TopoDS_Shape getShapeByName( const char* theName ) { if ( theName != 0 ) { - SMESH_Gen_i* aSMESHGen = SMESH_Gen_i::GetSMESHGen(); - SALOMEDS::Study_ptr aStudy = aSMESHGen->GetCurrentStudy(); - if (!CORBA::is_nil(aStudy)) + SMESH_Gen_i* aSMESHGen = SMESH_Gen_i::GetSMESHGen(); + SALOMEDS::Study_var aStudy = aSMESHGen->GetCurrentStudy(); + if ( !aStudy->_is_nil() ) { - SALOMEDS::Study::ListOfSObject_var aList = - aStudy->FindObjectByName( theName, "GEOM" ); + SALOMEDS::Study::ListOfSObject_var aList = aStudy->FindObjectByName( theName, "GEOM" ); if ( aList->length() > 0 ) { - GEOM::GEOM_Object_var aGeomObj = GEOM::GEOM_Object::_narrow( aList[ 0 ]->GetObject() ); - if ( !aGeomObj->_is_nil() ) - { - GEOM::GEOM_Gen_ptr aGEOMGen = SMESH_Gen_i::GetGeomEngine(); - TopoDS_Shape aLocShape = aSMESHGen->GetShapeReader()->GetShape( aGEOMGen, aGeomObj ); - return aLocShape; - } + CORBA::Object_var anObj = aList[ 0 ]->GetObject(); + GEOM::GEOM_Object_var aGeomObj = GEOM::GEOM_Object::_narrow( anObj ); + TopoDS_Shape shape = aSMESHGen->GeomObjectToShape( aGeomObj ); + SALOME::UnRegister( aList ); // UnRegister() objects in aList + return shape; } } } @@ -511,48 +506,35 @@ static TopoDS_Shape getShapeByName( const char* theName ) static TopoDS_Shape getShapeByID (const char* theID) { - if (theID != 0 && theID != "") { - SMESH_Gen_i* aSMESHGen = SMESH_Gen_i::GetSMESHGen(); - SALOMEDS::Study_ptr aStudy = aSMESHGen->GetCurrentStudy(); - if (aStudy != 0) { - SALOMEDS::SObject_var aSObj = aStudy->FindObjectID(theID); - SALOMEDS::GenericAttribute_var anAttr; - if (!aSObj->_is_nil() && aSObj->FindAttribute(anAttr, "AttributeIOR")) { - SALOMEDS::AttributeIOR_var anIOR = SALOMEDS::AttributeIOR::_narrow(anAttr); - CORBA::String_var aVal = anIOR->Value(); - CORBA::Object_var obj = aStudy->ConvertIORToObject(aVal); + if ( theID && strlen( theID ) > 0 ) { + SMESH_Gen_i* aSMESHGen = SMESH_Gen_i::GetSMESHGen(); + SALOMEDS::Study_var aStudy = aSMESHGen->GetCurrentStudy(); + if ( !aStudy->_is_nil() ) { + SALOMEDS::SObject_wrap aSObj = aStudy->FindObjectID(theID); + if ( !aSObj->_is_nil() ) { + CORBA::Object_var obj = aSObj->GetObject(); GEOM::GEOM_Object_var aGeomObj = GEOM::GEOM_Object::_narrow(obj); - - if (!aGeomObj->_is_nil()) { - GEOM::GEOM_Gen_ptr aGEOMGen = SMESH_Gen_i::GetGeomEngine(); - TopoDS_Shape aLocShape = aSMESHGen->GetShapeReader()->GetShape( aGEOMGen, aGeomObj ); - return aLocShape; - } + return aSMESHGen->GeomObjectToShape( aGeomObj ); } } } return TopoDS_Shape(); } -static char* getShapeNameByID (const char* theID) +static std::string getShapeNameByID (const char* theID) { - char* aName = (char*)""; - - if (theID != 0 && theID != "") { - SMESH_Gen_i* aSMESHGen = SMESH_Gen_i::GetSMESHGen(); - SALOMEDS::Study_ptr aStudy = aSMESHGen->GetCurrentStudy(); - if (aStudy != 0) { - //SALOMEDS::SObject_var aSObj = aStudy->FindObjectIOR( theID ); - SALOMEDS::SObject_var aSObj = aStudy->FindObjectID(theID); - SALOMEDS::GenericAttribute_var anAttr; - if (!aSObj->_is_nil() && aSObj->FindAttribute(anAttr, "AttributeName")) { - SALOMEDS::AttributeName_var aNameAttr = SALOMEDS::AttributeName::_narrow(anAttr); - aName = aNameAttr->Value(); + if ( theID && strlen( theID ) > 0 ) { + SMESH_Gen_i* aSMESHGen = SMESH_Gen_i::GetSMESHGen(); + SALOMEDS::Study_var aStudy = aSMESHGen->GetCurrentStudy(); + if ( !aStudy->_is_nil() ) { + SALOMEDS::SObject_wrap aSObj = aStudy->FindObjectID(theID); + if ( !aSObj->_is_nil() ) { + CORBA::String_var name = aSObj->GetName(); + return name.in(); } } } - - return aName; + return ""; } /* @@ -597,12 +579,12 @@ CORBA::Double NumericalFunctor_i::GetValue( CORBA::Long theId ) return myNumericalFunctorPtr->GetValue( theId ); } -SMESH::Histogram* NumericalFunctor_i::GetHistogram(CORBA::Short nbIntervals) +SMESH::Histogram* NumericalFunctor_i::GetHistogram(CORBA::Short nbIntervals, CORBA::Boolean isLogarithmic) { std::vector nbEvents; std::vector funValues; std::vector elements; - myNumericalFunctorPtr->GetHistogram(nbIntervals,nbEvents,funValues,elements); + myNumericalFunctorPtr->GetHistogram(nbIntervals,nbEvents,funValues,elements,0,isLogarithmic); #ifdef WIN32 nbIntervals = CORBA::Short( min( nbEvents.size(), funValues.size() - 1)); @@ -867,6 +849,21 @@ FunctorType MultiConnection_i::GetFunctorType() return SMESH::FT_MultiConnection; } +/* + Class : BallDiameter_i + Description : Functor returning diameter of a ball element +*/ +BallDiameter_i::BallDiameter_i() +{ + myNumericalFunctorPtr.reset( new Controls::BallDiameter() ); + myFunctorPtr = myNumericalFunctorPtr; +} + +FunctorType BallDiameter_i::GetFunctorType() +{ + return SMESH::FT_BallDiameter; +} + /* Class : MultiConnection2D_i Description : Functor for calculating number of faces conneted to the edge @@ -1065,7 +1062,7 @@ void BelongToGeom_i::SetShape( const char* theID, const char* theName ) else myShapeID = 0; - if ( myShapeID && strcmp(myShapeName, getShapeNameByID(myShapeID)) == 0 ) + if ( myShapeID && myShapeName == getShapeNameByID(myShapeID)) myBelongToGeomPtr->SetGeom( getShapeByID(myShapeID) ); else myBelongToGeomPtr->SetGeom( getShapeByName( myShapeName ) ); @@ -1150,7 +1147,7 @@ void BelongToSurface_i::SetShape( const char* theID, const char* theName, Eleme else myShapeID = 0; - if ( myShapeID && strcmp(myShapeName, getShapeNameByID(myShapeID)) == 0 ) + if ( myShapeID && myShapeName == getShapeNameByID(myShapeID)) myElementsOnSurfacePtr->SetSurface( getShapeByID(myShapeID), (SMDSAbs_ElementType)theType ); else myElementsOnSurfacePtr->SetSurface( getShapeByName( myShapeName ), (SMDSAbs_ElementType)theType ); @@ -1320,7 +1317,7 @@ void LyingOnGeom_i::SetShape( const char* theID, const char* theName ) else myShapeID = 0; - if ( myShapeID && strcmp(myShapeName, getShapeNameByID(myShapeID)) == 0 ) + if ( myShapeID && myShapeName == getShapeNameByID(myShapeID)) myLyingOnGeomPtr->SetGeom( getShapeByID(myShapeID) ); else myLyingOnGeomPtr->SetGeom( getShapeByName( myShapeName ) ); @@ -1433,6 +1430,77 @@ FunctorType FreeNodes_i::GetFunctorType() return SMESH::FT_FreeNodes; } +/* + Class : EqualNodes_i + Description : Predicate for Equal nodes +*/ +EqualNodes_i::EqualNodes_i() +{ + myCoincidentNodesPtr.reset(new Controls::CoincidentNodes()); + myFunctorPtr = myPredicatePtr = myCoincidentNodesPtr; +} + +FunctorType EqualNodes_i::GetFunctorType() +{ + return SMESH::FT_EqualNodes; +} + +void EqualNodes_i::SetTolerance( double tol ) +{ + myCoincidentNodesPtr->SetTolerance( tol ); +} + +double EqualNodes_i::GetTolerance() +{ + return myCoincidentNodesPtr->GetTolerance(); +} + +/* + Class : EqualEdges_i + Description : Predicate for Equal Edges +*/ +EqualEdges_i::EqualEdges_i() +{ + myPredicatePtr.reset(new Controls::CoincidentElements1D()); + myFunctorPtr = myPredicatePtr; +} + +FunctorType EqualEdges_i::GetFunctorType() +{ + return SMESH::FT_EqualEdges; +} + +/* + Class : EqualFaces_i + Description : Predicate for Equal Faces +*/ +EqualFaces_i::EqualFaces_i() +{ + myPredicatePtr.reset(new Controls::CoincidentElements2D()); + myFunctorPtr = myPredicatePtr; +} + +FunctorType EqualFaces_i::GetFunctorType() +{ + return SMESH::FT_EqualFaces; +} + +/* + Class : EqualVolumes_i + Description : Predicate for Equal Volumes +*/ +EqualVolumes_i::EqualVolumes_i() +{ + myPredicatePtr.reset(new Controls::CoincidentElements3D()); + myFunctorPtr = myPredicatePtr; +} + +FunctorType EqualVolumes_i::GetFunctorType() +{ + return SMESH::FT_EqualVolumes; +} + + /* Class : RangeOfIds_i Description : Predicate for Range of Ids. @@ -2006,6 +2074,14 @@ MultiConnection2D_ptr FilterManager_i::CreateMultiConnection2D() return anObj._retn(); } +BallDiameter_ptr FilterManager_i::CreateBallDiameter() +{ + SMESH::BallDiameter_i* aServant = new SMESH::BallDiameter_i(); + SMESH::BallDiameter_var anObj = aServant->_this(); + TPythonDump()<_this(); + TPythonDump()<_this(); + TPythonDump()<_this(); + TPythonDump()<_this(); + TPythonDump()<length(); theCriteria->length( i + 1 ); @@ -2590,87 +2704,31 @@ static inline bool getCriteria( Predicate_i* thePred, return true; } - case FT_RangeOfIds: - { - RangeOfIds_i* aPred = dynamic_cast( thePred ); - - CORBA::ULong i = theCriteria->length(); - theCriteria->length( i + 1 ); - - theCriteria[ i ] = createCriterion(); - - theCriteria[ i ].Type = FT_RangeOfIds; - theCriteria[ i ].ThresholdStr = aPred->GetRangeStr(); - theCriteria[ i ].TypeOfElement = aPred->GetElementType(); - - return true; - } - case FT_BadOrientedVolume: + case FT_EqualNodes: { - BadOrientedVolume_i* aPred = dynamic_cast( thePred ); + EqualNodes_i* aPred = dynamic_cast( thePred ); CORBA::ULong i = theCriteria->length(); theCriteria->length( i + 1 ); theCriteria[ i ] = createCriterion(); - theCriteria[ i ].Type = FT_BadOrientedVolume; - theCriteria[ i ].TypeOfElement = aPred->GetElementType(); - - return true; - } - case FT_BareBorderVolume: - { - BareBorderVolume_i* aPred = dynamic_cast( thePred ); - - CORBA::ULong i = theCriteria->length(); - theCriteria->length( i + 1 ); - - theCriteria[ i ] = createCriterion(); - - theCriteria[ i ].Type = FT_BareBorderVolume; - theCriteria[ i ].TypeOfElement = aPred->GetElementType(); - - return true; - } - case FT_BareBorderFace: - { - BareBorderFace_i* aPred = dynamic_cast( thePred ); - - CORBA::ULong i = theCriteria->length(); - theCriteria->length( i + 1 ); - - theCriteria[ i ] = createCriterion(); - - theCriteria[ i ].Type = FT_BareBorderFace; - theCriteria[ i ].TypeOfElement = aPred->GetElementType(); - - return true; - } - case FT_OverConstrainedVolume: - { - OverConstrainedVolume_i* aPred = dynamic_cast( thePred ); - - CORBA::ULong i = theCriteria->length(); - theCriteria->length( i + 1 ); - - theCriteria[ i ] = createCriterion(); - - theCriteria[ i ].Type = FT_OverConstrainedVolume; - theCriteria[ i ].TypeOfElement = aPred->GetElementType(); + theCriteria[ i ].Type = FT_EqualNodes; + theCriteria[ i ].Tolerance = aPred->GetTolerance(); return true; } - case FT_OverConstrainedFace: + case FT_RangeOfIds: { - OverConstrainedFace_i* aPred = dynamic_cast( thePred ); + RangeOfIds_i* aPred = dynamic_cast( thePred ); CORBA::ULong i = theCriteria->length(); theCriteria->length( i + 1 ); theCriteria[ i ] = createCriterion(); - theCriteria[ i ].Type = FT_OverConstrainedFace; + theCriteria[ i ].Type = FT_RangeOfIds; + theCriteria[ i ].ThresholdStr = aPred->GetRangeStr(); theCriteria[ i ].TypeOfElement = aPred->GetElementType(); return true; @@ -2859,6 +2917,9 @@ CORBA::Boolean Filter_i::SetCriteria( const SMESH::Filter::Criteria& theCriteria case SMESH::FT_MaxElementLength3D: aFunctor = aFilterMgr->CreateMaxElementLength3D(); break; + case SMESH::FT_BallDiameter: + aFunctor = aFilterMgr->CreateBallDiameter(); + break; // Predicates @@ -2874,6 +2935,22 @@ CORBA::Boolean Filter_i::SetCriteria( const SMESH::Filter::Criteria& theCriteria case SMESH::FT_FreeNodes: aPredicate = aFilterMgr->CreateFreeNodes(); break; + case SMESH::FT_EqualNodes: + { + SMESH::EqualNodes_ptr pred = aFilterMgr->CreateEqualNodes(); + pred->SetTolerance( aTolerance ); + aPredicate = pred; + break; + } + case SMESH::FT_EqualEdges: + aPredicate = aFilterMgr->CreateEqualEdges(); + break; + case SMESH::FT_EqualFaces: + aPredicate = aFilterMgr->CreateEqualFaces(); + break; + case SMESH::FT_EqualVolumes: + aPredicate = aFilterMgr->CreateEqualVolumes(); + break; case SMESH::FT_BelongToGeom: { SMESH::BelongToGeom_ptr tmpPred = aFilterMgr->CreateBelongToGeom(); @@ -3195,8 +3272,12 @@ static inline LDOMString toString( CORBA::Long theType ) case FT_FreeEdges : return "Free edges"; case FT_FreeFaces : return "Free faces"; case FT_FreeNodes : return "Free nodes"; + case FT_EqualNodes : return "Equal nodes"; + case FT_EqualEdges : return "Equal edges"; + case FT_EqualFaces : return "Equal faces"; + case FT_EqualVolumes : return "Equal volumes"; case FT_MultiConnection : return "Borders at multi-connections"; - case FT_MultiConnection2D: return "Borders at multi-connections 2D"; + case FT_MultiConnection2D:return "Borders at multi-connections 2D"; case FT_Length : return "Length"; case FT_Length2D : return "Length 2D"; case FT_LessThan : return "Less than"; @@ -3237,6 +3318,10 @@ static inline SMESH::FunctorType toFunctorType( const LDOMString& theStr ) else if ( theStr.equals( "Free edges" ) ) return FT_FreeEdges; else if ( theStr.equals( "Free faces" ) ) return FT_FreeFaces; else if ( theStr.equals( "Free nodes" ) ) return FT_FreeNodes; + else if ( theStr.equals( "Equal nodes" ) ) return FT_EqualNodes; + else if ( theStr.equals( "Equal edges" ) ) return FT_EqualEdges; + else if ( theStr.equals( "Equal faces" ) ) return FT_EqualFaces; + else if ( theStr.equals( "Equal volumes" ) ) return FT_EqualVolumes; else if ( theStr.equals( "Borders at multi-connections" ) ) return FT_MultiConnection; // else if ( theStr.equals( "Borders at multi-connections 2D" ) ) return FT_MultiConnection2D; else if ( theStr.equals( "Length" ) ) return FT_Length; @@ -3780,19 +3865,53 @@ string_array* FilterLibrary_i::GetAllNames() static const char** getFunctNames() { static const char* functName[ SMESH::FT_Undefined + 1 ] = { - // If this line doesn't compile, this means that enum FunctorType has changed and - // it's necessary to update this array accordingly (refer to SMESH_Filter.idl) + // IT's necessary to update this array according to enum FunctorType (SMESH_Filter.idl) // The order is IMPORTANT !!! - "FT_AspectRatio", "FT_AspectRatio3D", "FT_Warping", "FT_MinimumAngle", - "FT_Taper", "FT_Skew", "FT_Area", "FT_Volume3D", "FT_MaxElementLength2D", - "FT_MaxElementLength3D", "FT_FreeBorders", "FT_FreeEdges", "FT_FreeNodes", - "FT_FreeFaces", "FT_MultiConnection", "FT_MultiConnection2D", "FT_Length", - "FT_Length2D", "FT_BelongToGeom", "FT_BelongToPlane", "FT_BelongToCylinder", - "FT_BelongToGenSurface", "FT_LyingOnGeom", "FT_RangeOfIds", "FT_BadOrientedVolume", - "FT_BareBorderVolume", "FT_BareBorderFace", "FT_OverConstrainedVolume", - "FT_OverConstrainedFace", "FT_LinearOrQuadratic", "FT_GroupColor", "FT_ElemGeomType", - "FT_CoplanarFaces", "FT_LessThan", "FT_MoreThan", "FT_EqualTo", "FT_LogicalNOT", - "FT_LogicalAND", "FT_LogicalOR", "FT_Undefined" }; + "FT_AspectRatio", + "FT_AspectRatio3D", + "FT_Warping", + "FT_MinimumAngle", + "FT_Taper", + "FT_Skew", + "FT_Area", + "FT_Volume3D", + "FT_MaxElementLength2D", + "FT_MaxElementLength3D", + "FT_FreeBorders", + "FT_FreeEdges", + "FT_FreeNodes", + "FT_FreeFaces", + "FT_EqualNodes", + "FT_EqualEdges", + "FT_EqualFaces", + "FT_EqualVolumes", + "FT_MultiConnection", + "FT_MultiConnection2D", + "FT_Length", + "FT_Length2D", + "FT_BelongToGeom", + "FT_BelongToPlane", + "FT_BelongToCylinder", + "FT_BelongToGenSurface", + "FT_LyingOnGeom", + "FT_RangeOfIds", + "FT_BadOrientedVolume", + "FT_BareBorderVolume", + "FT_BareBorderFace", + "FT_OverConstrainedVolume", + "FT_OverConstrainedFace", + "FT_LinearOrQuadratic", + "FT_GroupColor", + "FT_ElemGeomType", + "FT_CoplanarFaces", + "FT_BallDiameter", + "FT_LessThan", + "FT_MoreThan", + "FT_EqualTo", + "FT_LogicalNOT", + "FT_LogicalAND", + "FT_LogicalOR", + "FT_Undefined" }; return functName; }