-// BLSURFPlugin : C++ implementation
+// Copyright (C) 2007-2021 CEA/DEN, EDF R&D
//
-// Copyright (C) 2006 OPEN CASCADE, CEA/DEN, EDF R&D
-//
-// This library is free software; you can redistribute it and/or
-// modify it under the terms of the GNU Lesser General Public
-// License as published by the Free Software Foundation; either
-// version 2.1 of the License.
-//
-// This library is distributed in the hope that it will be useful,
-// but WITHOUT ANY WARRANTY; without even the implied warranty of
-// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
-// Lesser General Public License for more details.
-//
-// You should have received a copy of the GNU Lesser General Public
-// License along with this library; if not, write to the Free Software
-// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
-//
-// See http://www.opencascade.org/SALOME/ or email : webmaster.salome@opencascade.org
+// This library is free software; you can redistribute it and/or
+// modify it under the terms of the GNU Lesser General Public
+// License as published by the Free Software Foundation; either
+// version 2.1 of the License, or (at your option) any later version.
//
+// This library is distributed in the hope that it will be useful,
+// but WITHOUT ANY WARRANTY; without even the implied warranty of
+// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
+// Lesser General Public License for more details.
+//
+// You should have received a copy of the GNU Lesser General Public
+// License along with this library; if not, write to the Free Software
+// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
+//
+// See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
//
-// File : BLSURFPlugin_Hypothesis.hxx
-// Authors : Francis KLOSS (OCC) & Patrick LAUG (INRIA) & Lioka RAZAFINDRAZAKA (CEA)
-// & Aurelien ALLEAUME (DISTENE)
-// Date : 27/03/2006
-// Project : SALOME
-// $Header$
-//=============================================================================
+// ---
+// File : BLSURFPlugin_Hypothesis.hxx
+// Authors : Francis KLOSS (OCC) & Patrick LAUG (INRIA) & Lioka RAZAFINDRAZAKA (CEA)
+// & Aurelien ALLEAUME (DISTENE)
+// Size maps developement: Nicolas GEIMER (OCC) & Gilles DAVID (EURIWARE)
+// ---
+//
#ifndef _BLSURFPlugin_Hypothesis_HXX_
#define _BLSURFPlugin_Hypothesis_HXX_
-#include "SMESH_Hypothesis.hxx"
-#include "Utils_SALOME_Exception.hxx"
+#include "BLSURFPlugin_Attractor.hxx"
+
+#include <SMDS_ElemIterator.hxx>
+#include <SMESH_Hypothesis.hxx>
+#include <smIdType.hxx>
+
+#include <vector>
+#include <map>
+#include <set>
+#include <string>
-// Parameters for work of BLSURF
+class SMESH_Mesh;
+
+// Parameters for work of MG-CADSurf
+
+enum EnforcedMeshType { ENFORCED_MESH, ENFORCED_GROUP, ENFORCED_SUBMESH };
class BLSURFPlugin_Hypothesis: public SMESH_Hypothesis
{
public:
- BLSURFPlugin_Hypothesis(int hypId, int studyId, SMESH_Gen * gen);
+ BLSURFPlugin_Hypothesis(int hypId, SMESH_Gen * gen, bool hasgeom);
enum Topology {
FromCAD,
Process,
- Process2
+ Process2,
+ PreCAD
};
enum PhysicalMesh {
DefaultSize,
- PhysicalUserDefined
+ PhysicalGlobalSize,
+ PhysicalLocalSize
};
enum GeometricMesh {
DefaultGeom,
- UserDefined
+ GeometricalGlobalSize,
+ GeometricalLocalSize
};
- void SetTopology(Topology theTopology);
- Topology GetTopology() const { return _topology; }
+ enum ElementType {
+ Triangles,
+ QuadrangleDominant,
+ Quadrangles
+ };
+
+ static const char* GetHypType(bool hasgeom)
+ { return hasgeom ? "MG-CADSurf Parameters" : "MG-CADSurf Parameters_NOGEOM"; }
+
+ TopoDS_Shape entryToShape(std::string entry);
+
+ static std::string GetMeshGemsVersion();
void SetPhysicalMesh(PhysicalMesh thePhysicalMesh);
PhysicalMesh GetPhysicalMesh() const { return _physicalMesh; }
- void SetPhySize(double thePhySize);
- double GetPhySize() const { return _phySize; }
-
void SetGeometricMesh(GeometricMesh theGeometricMesh);
GeometricMesh GetGeometricMesh() const { return _geometricMesh; }
- void SetAngleMeshS(double theAngle);
- double GetAngleMeshS() const { return _angleMeshS; }
+ void SetPhySize(double thePhySize, bool isRelative = false);
+ double GetPhySize() const { return _phySize; }
+ bool IsPhySizeRel() const { return _phySizeRel; }
+
+ void SetMinSize(double theMinSize, bool isRelative = false);
+ double GetMinSize() const { return _minSize; }
+ bool IsMinSizeRel() const { return _minSizeRel; }
+
+ void SetMaxSize(double theMaxSize, bool isRelative = false);
+ double GetMaxSize() const { return _maxSize; }
+ bool IsMaxSizeRel() const { return _maxSizeRel; }
+ void SetUseGradation(bool toUse);
+ bool GetUseGradation() const { return _useGradation; }
void SetGradation(double theGradation);
double GetGradation() const { return _gradation; }
- void SetQuadAllowed(bool theVal);
- bool GetQuadAllowed() const { return _quadAllowed; }
+ void SetUseVolumeGradation(bool toUse);
+ bool GetUseVolumeGradation() const { return _useVolumeGradation; }
+ void SetVolumeGradation(double theGradation);
+ double GetVolumeGradation() const { return _volumeGradation; }
+
+ void SetElementType(ElementType theElementType);
+ ElementType GetElementType() const { return _elementType; }
+
+ void SetAngleMesh(double theAngle);
+ double GetAngleMesh() const { return _angleMesh; }
+
+ void SetChordalError(double theDistance);
+ double GetChordalError() const { return _chordalError; }
+
+ void SetAnisotropic(bool theVal);
+ bool GetAnisotropic() const { return _anisotropic; }
+
+ void SetAnisotropicRatio(double theVal);
+ double GetAnisotropicRatio() const { return _anisotropicRatio; }
+
+ void SetRemoveTinyEdges(bool theVal);
+ bool GetRemoveTinyEdges() const { return _removeTinyEdges; }
+
+ void SetTinyEdgeLength(double theVal);
+ double GetTinyEdgeLength() const { return _tinyEdgeLength; }
+
+ void SetOptimiseTinyEdges(bool theVal);
+ bool GetOptimiseTinyEdges() const { return _optimiseTinyEdges; }
+
+ void SetTinyEdgeOptimisationLength(double theVal);
+ double GetTinyEdgeOptimisationLength() const { return _tinyEdgeOptimisationLength; }
+
+ void SetCorrectSurfaceIntersection(bool theVal);
+ bool GetCorrectSurfaceIntersection() const { return _correctSurfaceIntersec; }
+
+ void SetCorrectSurfaceIntersectionMaxCost(double theVal);
+ double GetCorrectSurfaceIntersectionMaxCost() const { return _corrSurfaceIntersCost; }
+
+ void SetBadElementRemoval(bool theVal);
+ bool GetBadElementRemoval() const { return _badElementRemoval; }
+
+ void SetBadElementAspectRatio(double theVal);
+ double GetBadElementAspectRatio() const { return _badElementAspectRatio; }
+
+ void SetOptimizeMesh(bool theVal);
+ bool GetOptimizeMesh() const { return _optimizeMesh; }
+
+ void SetQuadraticMesh(bool theVal);
+ bool GetQuadraticMesh() const { return _quadraticMesh; }
+
+ void SetTopology(Topology theTopology);
+ Topology GetTopology() const { return _topology; }
+
+ bool GetUseSurfaceProximity() const { return _useSurfaceProximity; }
+ void SetUseSurfaceProximity( bool toUse );
+
+ int GetNbSurfaceProximityLayers() const { return _nbSurfaceProximityLayers; }
+ void SetNbSurfaceProximityLayers( int nbLayers );
+
+ double GetSurfaceProximityRatio() const { return _surfaceProximityRatio; }
+ void SetSurfaceProximityRatio( double ratio );
+
+ bool GetUseVolumeProximity() const { return _useVolumeProximity; }
+ void SetUseVolumeProximity( bool toUse );
+
+ int GetNbVolumeProximityLayers() const { return _nbVolumeProximityLayers; }
+ void SetNbVolumeProximityLayers( int nbLayers );
+
+ double GetVolumeProximityRatio() const { return _volumeProximityRatio; }
+ void SetVolumeProximityRatio( double ratio );
+
+ void SetVerbosity(int theVal);
+ int GetVerbosity() const { return _verb; }
+
+ void ClearEntry(const std::string& entry, const char * attEntry = 0);
+ void ClearSizeMaps();
+
+ void SetEnforceCadEdgesSize( bool toEnforce );
+ bool GetEnforceCadEdgesSize();
+
+ void SetJacobianRectificationRespectGeometry( bool allowRectification );
+ bool GetJacobianRectificationRespectGeometry();
+
+ void SetUseDeprecatedPatchMesher( bool useDeprecatedPatchMesher );
+ bool GetUseDeprecatedPatchMesher();
+
+ void SetJacobianRectification( bool allowRectification );
+ bool GetJacobianRectification();
+
+ void SetMaxNumberOfPointsPerPatch( int nb );
+ int GetMaxNumberOfPointsPerPatch();
+
+ void SetMaxNumberOfThreads( int nb );
+ int GetMaxNumberOfThreads();
+
+ void SetRespectGeometry( bool toRespect );
+ bool GetRespectGeometry();
+
+ void SetTinyEdgesAvoidSurfaceIntersections( bool toAvoidIntersection );
+ bool GetTinyEdgesAvoidSurfaceIntersections();
+
+ void SetClosedGeometry( bool isClosed );
+ bool GetClosedGeometry();
+
+ void SetDebug( bool isDebug );
+ bool GetDebug();
+
+ void SetPeriodicTolerance( double tol );
+ double GetPeriodicTolerance();
+
+ void SetRequiredEntities( const std::string& howToTreat );
+ std::string GetRequiredEntities();
+
+ void SetSewingTolerance( double tol );
+ double GetSewingTolerance();
+
+ void SetTags( const std::string& howToTreat );
+ std::string GetTags();
+
+ // Hyper-patches
+ typedef std::set< int > THyperPatchTags;
+ typedef std::vector< THyperPatchTags > THyperPatchList;
+ typedef std::set< std::string > THyperPatchEntries;
+ typedef std::vector< THyperPatchEntries > THyperPatchEntriesList;
+
+ void SetHyperPatches(const THyperPatchList& hpl, bool notifyMesh=true);
+ void SetHyperPatches(const THyperPatchEntriesList& hpl);
+ void SetHyperPatchIDsByEntry( const TopoDS_Shape& mainShape,
+ const std::map< std::string, TopoDS_Shape >& entryToShape);
+ const THyperPatchList& GetHyperPatches() const { return _hyperPatchList; }
+ const THyperPatchEntriesList& GetHyperPatchEntries() const { return _hyperPatchEntriesList; }
+ static int GetHyperPatchTag( int faceTag, const BLSURFPlugin_Hypothesis* hyp, int* iPatch=0 );
+
+ // Enforced mesh
+ struct EnforcedMesh
+ {
+ int _meshID; // persistent mesh ID
+ int _subID; // either persistent group ID or sub-shape ID for sub-mesh
+ EnforcedMeshType _type; /* specify what _subID means:
+ - nothing for ENFORCED_MESH
+ - group ID for ENFORCED_GROUP
+ - sub-shape ID for ENFORCED_SUBMESH */
+ std::string _groupName; // name of a group to add mesh edges to
+
+ bool operator==(const EnforcedMesh& em ) const
+ {
+ return ( _meshID == em._meshID && _subID == em._subID &&
+ _type == em._type && _groupName == em._groupName );
+ }
+ };
+
+ void SetEnforcedMeshes( std::vector< EnforcedMesh > & enforcedMeshes );
+ const std::vector< EnforcedMesh > & GetEnforcedMeshes() const { return _enforcedMeshes; }
+ SMDS_ElemIteratorPtr GetEnforcedSegments( const EnforcedMesh& enfMesh,
+ SMESH_Mesh* & mesh ) const;
+
+
+ void SetPreCADMergeEdges(bool theVal);
+ bool GetPreCADMergeEdges() const { return _preCADMergeEdges; }
+
+ void SetPreCADRemoveDuplicateCADFaces(bool theVal);
+ bool GetPreCADRemoveDuplicateCADFaces() const { return _preCADRemoveDuplicateCADFaces; }
+
+ void SetPreCADProcess3DTopology(bool theVal);
+ bool GetPreCADProcess3DTopology() const { return _preCADProcess3DTopology; }
+
+ void SetPreCADDiscardInput(bool theVal);
+ bool GetPreCADDiscardInput() const { return _preCADDiscardInput; }
+
+ static bool HasPreCADOptions(const BLSURFPlugin_Hypothesis* hyp);
+
+ typedef std::map<std::string,std::string> TSizeMap;
+
+ void SetSizeMapEntry(const std::string& entry,const std::string& sizeMap );
+ std::string GetSizeMapEntry(const std::string& entry);
+ const TSizeMap& _GetSizeMapEntries() const { return _sizeMap; }
+ /*!
+ * \brief Return the size maps
+ */
+ static TSizeMap GetSizeMapEntries(const BLSURFPlugin_Hypothesis* hyp);
+
+
+ void SetAttractorEntry(const std::string& entry,const std::string& attractor );
+ std::string GetAttractorEntry(const std::string& entry);
+ const TSizeMap& _GetAttractorEntries() const { return _attractors; };
+ /*!
+ * \brief Return the attractors
+ */
+ static TSizeMap GetAttractorEntries(const BLSURFPlugin_Hypothesis* hyp);
+
+
+/*
+ void SetCustomSizeMapEntry(const std::string& entry,const std::string& sizeMap );
+ std::string GetCustomSizeMapEntry(const std::string& entry);
+ void UnsetCustomSizeMap(const std::string& entry);
+ const TSizeMap& GetCustomSizeMapEntries() const { return _customSizeMap; }
+ */
+
+ typedef std::multimap< std::string, BLSURFPlugin_Attractor* > TAttractorMap;
+ typedef std::map< std::string, std::vector<double> > TParamsMap; //TODO ?? finir
+
+ void SetClassAttractorEntry(const std::string& entry, const std::string& att_entry, double StartSize, double EndSize, double ActionRadius, double ConstantRadius);
+ std::string GetClassAttractorEntry(const std::string& entry);
+ const TAttractorMap& _GetClassAttractorEntries() const { return _classAttractors; }
+ /*!
+ * \brief Return the attractors entries
+ */
+ static TAttractorMap GetClassAttractorEntries(const BLSURFPlugin_Hypothesis* hyp);
+
+ /*!
+ * To set/get/unset an enforced vertex
+ */
+ // Name
+ typedef std::string TEnfName;
+ // Entry
+ typedef std::string TEntry;
+ // List of entries
+ typedef std::set<TEntry> TEntryList;
+ // Group name
+ typedef std::string TEnfGroupName;
+ // Coordinates
+ typedef std::vector<double> TEnfVertexCoords;
+ typedef std::set< TEnfVertexCoords > TEnfVertexCoordsList;
+
+ // Enforced vertex
+ struct TEnfVertex {
+ TEnfName name;
+ TEntry geomEntry;
+ TEnfVertexCoords coords;
+ TEnfGroupName grpName;
+ TEntryList faceEntries;
+ TopoDS_Vertex vertex;
+ };
+
+ struct CompareEnfVertices
+ {
+ bool operator () (const TEnfVertex* e1, const TEnfVertex* e2) const {
+ if (e1 && e2) {
+ if (e1->coords.size() && e2->coords.size())
+ return (e1->coords < e2->coords);
+ else
+ return (e1->geomEntry < e2->geomEntry);
+ }
+ return false;
+ }
+ };
+
+ // PreCad Face and Edge periodicity
+ struct TPreCadPeriodicity {
+ TEntry shape1Entry;
+ TEntry shape2Entry;
+ std::vector<std::string> theSourceVerticesEntries;
+ std::vector<std::string> theTargetVerticesEntries;
+ };
+
+ // Edge periodicity
+ struct TEdgePeriodicity {
+ TEntry theFace1Entry;
+ TEntry theEdge1Entry;
+ TEntry theFace2Entry;
+ TEntry theEdge2Entry;
+ int edge_orientation;
+ };
+
+ // Vertex periodicity
+ struct TVertexPeriodicity {
+ TEntry theEdge1Entry;
+ TEntry theVertex1Entry;
+ TEntry theEdge2Entry;
+ TEntry theVertex2Entry;
+ };
+
+ typedef std::pair< TEntry, TEntry > TFacesPeriodicity;
+
+ // List of enforced vertices
+ typedef std::set< TEnfVertex*, CompareEnfVertices > TEnfVertexList;
+
+ // Map Face Entry / List of enforced vertices
+ typedef std::map< TEntry, TEnfVertexList > TFaceEntryEnfVertexListMap;
+
+ // List of Face Entry with internal enforced vertices activated
+ typedef std::set< TEntry > TFaceEntryInternalVerticesList;
+
+ // Map Face Entry / List of coords
+ typedef std::map< TEntry, TEnfVertexCoordsList > TFaceEntryCoordsListMap;
+
+ // Map Face Entry / List of Vertex entry
+ typedef std::map< TEntry, TEntryList > TFaceEntryEnfVertexEntryListMap;
+
+ // Map Coords / Enforced vertex
+ typedef std::map< TEnfVertexCoords, TEnfVertex* > TCoordsEnfVertexMap;
+
+ // Map Vertex entry / Enforced vertex
+ typedef std::map< TEntry, TEnfVertex* > TEnfVertexEntryEnfVertexMap;
+
+ typedef std::map< TEnfGroupName, std::set<smIdType> > TGroupNameNodeIDMap;
+ /* TODO GROUPS
+ // Map Group Name / List of enforced vertices
+ typedef std::map< TEnfGroupName , TEnfVertexList > TGroupNameEnfVertexListMap;
+ */
+
+ // Vector of pairs of entries
+ typedef std::vector< TPreCadPeriodicity > TPreCadPeriodicityVector;
+ typedef std::vector< TFacesPeriodicity > TFacesPeriodicityVector;
+ typedef std::vector< TEdgePeriodicity > TEdgesPeriodicityVector;
+ typedef std::vector< TVertexPeriodicity > TVerticesPeriodicityVector;
+
+
+ bool SetEnforcedVertex(TEntry theFaceEntry, TEnfName theVertexName, TEntry theVertexEntry, TEnfGroupName theGroupName,
+ double x = 0.0, double y = 0.0, double z = 0.0);
+ TEnfVertexList GetEnfVertexList(const TEntry& theFaceEntry);
+ TEnfVertexCoordsList GetEnfVertexCoordsList(const TEntry& theFaceEntry);
+ TEntryList GetEnfVertexEntryList (const TEntry& theFaceEntry);
+ TEnfVertex* GetEnfVertex(TEnfVertexCoords coords);
+ TEnfVertex* GetEnfVertex(const TEntry& theEnfVertexEntry);
+ void AddEnfVertexNodeID(TEnfGroupName theGroupName,smIdType theNodeID);
+ std::set<smIdType> GetEnfVertexNodeIDs(TEnfGroupName theGroupName);
+ void RemoveEnfVertexNodeID(TEnfGroupName theGroupName,smIdType theNodeID);
+
+ bool ClearEnforcedVertex(const TEntry& theFaceEntry, double x = 0.0, double y = 0.0, double z = 0.0, const TEntry& theVertexEntry="");
+ bool ClearEnforcedVertices(const TEntry& theFaceEntry);
+
+ void ClearAllEnforcedVertices();
+ void AddEnforcedVertex( const TEntry& theFaceEntry, TEnfVertex * theEnfVertex );
+
+ const TFaceEntryEnfVertexListMap& _GetAllEnforcedVerticesByFace() const { return _faceEntryEnfVertexListMap; }
+ const TEnfVertexList& _GetAllEnforcedVertices() const { return _enfVertexList; }
+
+ const TFaceEntryCoordsListMap& _GetAllCoordsByFace() const { return _faceEntryCoordsListMap; }
+ const TCoordsEnfVertexMap& _GetAllEnforcedVerticesByCoords() const { return _coordsEnfVertexMap; }
+
+ const TFaceEntryEnfVertexEntryListMap& _GetAllEnfVertexEntriesByFace() const { return _faceEntryEnfVertexEntryListMap; }
+ const TEnfVertexEntryEnfVertexMap& _GetAllEnforcedVerticesByEnfVertexEntry() const { return _enfVertexEntryEnfVertexMap; }
+
+// TODO GROUPS
+// const TEnfVertexGroupNameMap _GetEnforcedVertexGroupNameMap() const { return _enfVertexGroupNameMap; }
+
+
+ /*!
+ * \brief Return the enforced vertices
+ */
+ static TFaceEntryEnfVertexListMap GetAllEnforcedVerticesByFace(const BLSURFPlugin_Hypothesis* hyp);
+ static TEnfVertexList GetAllEnforcedVertices(const BLSURFPlugin_Hypothesis* hyp);
+
+ static TFaceEntryCoordsListMap GetAllCoordsByFace(const BLSURFPlugin_Hypothesis* hyp);
+ static TCoordsEnfVertexMap GetAllEnforcedVerticesByCoords(const BLSURFPlugin_Hypothesis* hyp);
+
+ static TFaceEntryEnfVertexEntryListMap GetAllEnfVertexEntriesByFace(const BLSURFPlugin_Hypothesis* hyp);
+ static TEnfVertexEntryEnfVertexMap GetAllEnforcedVerticesByEnfVertexEntry(const BLSURFPlugin_Hypothesis* hyp);
+
+ /*!
+ * \brief Internal enforced vertices
+ */
+ void SetInternalEnforcedVertexAllFaces(bool toEnforceInternalVertices);
+ bool _GetInternalEnforcedVertexAllFaces() const { return _enforcedInternalVerticesAllFaces; }
+ static bool GetInternalEnforcedVertexAllFaces( const BLSURFPlugin_Hypothesis* hyp );
+ void SetInternalEnforcedVertexAllFacesGroup(TEnfGroupName theGroupName);
+ const TEnfGroupName _GetInternalEnforcedVertexAllFacesGroup() const { return _enforcedInternalVerticesAllFacesGroup; }
+ static TEnfGroupName GetInternalEnforcedVertexAllFacesGroup( const BLSURFPlugin_Hypothesis* hyp );
+
+// Enable internal enforced vertices on specific face if requested by user
+// static TFaceEntryInternalVerticesList GetDefaultFaceEntryInternalVerticesMap() { return TFaceEntryInternalVerticesList(); }
+// const TFaceEntryInternalVerticesList _GetAllInternalEnforcedVerticesByFace() const { return _faceEntryInternalVerticesList; }
+// static TFaceEntryInternalVerticesList GetAllInternalEnforcedVerticesByFace(const BLSURFPlugin_Hypothesis* hyp);
+// void SetInternalEnforcedVertex(TEntry theFaceEntry, bool toEnforceInternalVertices, TEnfGroupName theGroupName);
+// bool GetInternalEnforcedVertex(const TEntry& theFaceEntry);
+
+ static PhysicalMesh GetDefaultPhysicalMesh() { return PhysicalGlobalSize; }
+ static GeometricMesh GetDefaultGeometricMesh() { return GeometricalGlobalSize; }
+ static double GetDefaultPhySize(double diagonal, double bbSegmentation);
+ static double GetDefaultPhySize() { return undefinedDouble(); }
+ static bool GetDefaultPhySizeRel() { return false; }
+ static double GetDefaultMinSize(double diagonal);
+ static double GetDefaultMinSize() { return undefinedDouble(); }
+ static bool GetDefaultMinSizeRel() { return false; }
+ static double GetDefaultMaxSize(double diagonal);
+ static double GetDefaultMaxSize() { return undefinedDouble(); }
+ static bool GetDefaultMaxSizeRel() { return false; }
+ static bool GetDefaultUseGradation() { return true; }
+ static double GetDefaultGradation() { return 1.3; }
+ static bool GetDefaultUseVolumeGradation() { return false; }
+ static double GetDefaultVolumeGradation() { return 2; }
+ static ElementType GetDefaultElementType() { return Triangles; }
+ static double GetDefaultAngleMesh() { return 8.0; }
+ static bool GetDefaultUseSurfaceProximity() { return false; }
+ static int GetDefaultNbSurfaceProximityLayers() { return 1; }
+ static double GetDefaultSurfaceProximityRatio() { return 1.; }
+ static bool GetDefaultUseVolumeProximity() { return false; }
+ static int GetDefaultNbVolumeProximityLayers() { return 1; }
+ static double GetDefaultVolumeProximityRatio() { return 1.; }
- void SetDecimesh(bool theVal);
- bool GetDecimesh() const { return _decimesh; }
+ static double GetDefaultChordalError(double diagonal);
+ static double GetDefaultChordalError() { return undefinedDouble(); }
+ static bool GetDefaultAnisotropic() { return false; }
+ static double GetDefaultAnisotropicRatio() { return 0.0; }
+ static bool GetDefaultRemoveTinyEdges() { return false; }
+ static double GetDefaultTinyEdgeLength(double diagonal);
+ static double GetDefaultTinyEdgeLength() { return undefinedDouble(); }
+ static bool GetDefaultOptimiseTinyEdges() { return false; }
+ static double GetDefaultTinyEdgeOptimisationLength(double diagonal);
+ static double GetDefaultTinyEdgeOptimisationLength() { return undefinedDouble(); }
+ static bool GetDefaultCorrectSurfaceIntersection() { return true; }
+ static double GetDefaultCorrectSurfaceIntersectionMaxCost() { return 15.; }
+ static bool GetDefaultBadElementRemoval() { return false; }
+ static double GetDefaultBadElementAspectRatio() {return 1000.0; }
+ static bool GetDefaultOptimizeMesh() { return true; }
+ static bool GetDefaultQuadraticMesh() { return false; }
- static Topology GetDefaultTopology();
- static PhysicalMesh GetDefaultPhysicalMesh();
- static double GetDefaultPhySize();
- static GeometricMesh GetDefaultGeometricMesh();
- static double GetDefaultAngleMeshS();
- static double GetDefaultGradation();
- static bool GetDefaultQuadAllowed();
- static bool GetDefaultDecimesh();
+ static int GetDefaultVerbosity() { return 3; }
+ static Topology GetDefaultTopology() { return FromCAD; }
+ // PreCAD
+ static bool GetDefaultPreCADMergeEdges() { return false; }
+ static bool GetDefaultPreCADRemoveDuplicateCADFaces() { return false; }
+ static bool GetDefaultPreCADProcess3DTopology() { return false; }
+ static bool GetDefaultPreCADDiscardInput() { return false; }
+ static TSizeMap GetDefaultSizeMap() { return TSizeMap();}
+ static TAttractorMap GetDefaultAttractorMap() { return TAttractorMap(); }
+
+ static TFaceEntryEnfVertexListMap GetDefaultFaceEntryEnfVertexListMap() { return TFaceEntryEnfVertexListMap(); }
+ static TEnfVertexList GetDefaultEnfVertexList() { return TEnfVertexList(); }
+ static TFaceEntryCoordsListMap GetDefaultFaceEntryCoordsListMap() { return TFaceEntryCoordsListMap(); }
+ static TCoordsEnfVertexMap GetDefaultCoordsEnfVertexMap() { return TCoordsEnfVertexMap(); }
+ static TFaceEntryEnfVertexEntryListMap GetDefaultFaceEntryEnfVertexEntryListMap() { return TFaceEntryEnfVertexEntryListMap(); }
+ static TEnfVertexEntryEnfVertexMap GetDefaultEnfVertexEntryEnfVertexMap() { return TEnfVertexEntryEnfVertexMap(); }
+ static TGroupNameNodeIDMap GetDefaultGroupNameNodeIDMap() { return TGroupNameNodeIDMap(); }
+
+ static bool GetDefaultInternalEnforcedVertex() { return false; }
+
+ /* TODO GROUPS
+ static TGroupNameEnfVertexListMap GetDefaultGroupNameEnfVertexListMap() { return TGroupNameEnfVertexListMap(); }
+ static TEnfVertexGroupNameMap GetDefaultEnfVertexGroupNameMap() { return TEnfVertexGroupNameMap(); }
+ */
+
+// const TPreCadPeriodicityEntriesVector _GetPreCadFacesPeriodicityEntries() const { return _preCadFacesPeriodicityEntriesVector; }
+
+ static TPreCadPeriodicityVector GetDefaultPreCadFacesPeriodicityVector() { return TPreCadPeriodicityVector(); }
+ const TPreCadPeriodicityVector& _GetPreCadFacesPeriodicityVector() const { return _preCadFacesPeriodicityVector; }
+ static TPreCadPeriodicityVector GetPreCadFacesPeriodicityVector(const BLSURFPlugin_Hypothesis* hyp);
+
+ static TPreCadPeriodicityVector GetDefaultPreCadEdgesPeriodicityVector() { return TPreCadPeriodicityVector(); }
+ const TPreCadPeriodicityVector& _GetPreCadEdgesPeriodicityVector() const { return _preCadEdgesPeriodicityVector; }
+ static TPreCadPeriodicityVector GetPreCadEdgesPeriodicityVector(const BLSURFPlugin_Hypothesis* hyp);
+
+ static TFacesPeriodicityVector GetDefaultFacesPeriodicityVector() { return TFacesPeriodicityVector(); }
+ const TFacesPeriodicityVector& _GetFacesPeriodicityVector() const { return _facesPeriodicityVector; }
+ static TFacesPeriodicityVector GetFacesPeriodicityVector(const BLSURFPlugin_Hypothesis* hyp);
+
+ static TEdgesPeriodicityVector GetDefaultEdgesPeriodicityVector() { return TEdgesPeriodicityVector(); }
+ const TEdgesPeriodicityVector& _GetEdgesPeriodicityVector() const { return _edgesPeriodicityVector; }
+ static TEdgesPeriodicityVector GetEdgesPeriodicityVector(const BLSURFPlugin_Hypothesis* hyp);
+
+ static TVerticesPeriodicityVector GetDefaultVerticesPeriodicityVector() { return TVerticesPeriodicityVector(); }
+ const TVerticesPeriodicityVector& _GetVerticesPeriodicityVector() const { return _verticesPeriodicityVector; }
+ static TVerticesPeriodicityVector GetVerticesPeriodicityVector(const BLSURFPlugin_Hypothesis* hyp);
+
+ void ClearPreCadPeriodicityVectors();
+
+ void AddPreCadFacesPeriodicity(TEntry theFace1Entry, TEntry theFace2Entry,
+ std::vector<std::string> &theSourceVerticesEntries, std::vector<std::string> &theTargetVerticesEntries);
+ void AddPreCadEdgesPeriodicity(TEntry theEdge1Entry, TEntry theEdge2Entry,
+ std::vector<std::string> &theSourceVerticesEntries, std::vector<std::string> &theTargetVerticesEntries);
+
+ static double undefinedDouble() { return -1.0; }
+
+ typedef std::map< std::string, std::string > TOptionValues;
+ typedef std::set< std::string > TOptionNames;
+
+ void SetOptionValue(const std::string& optionName,
+ const std::string& optionValue);
+ void SetPreCADOptionValue(const std::string& optionName,
+ const std::string& optionValue);
+ std::string GetOptionValue(const std::string& optionName, bool* isDefault=0) const;
+ std::string GetPreCADOptionValue(const std::string& optionName, bool* isDefault=0) const;
+ void ClearOption(const std::string& optionName);
+ void ClearPreCADOption(const std::string& optionName);
+ TOptionValues GetOptionValues() const;
+ TOptionValues GetPreCADOptionValues() const;
+ const TOptionValues& GetCustomOptionValues() const { return _customOption2value; }
+
+ void AddOption(const std::string& optionName, const std::string& optionValue);
+ void AddPreCADOption(const std::string& optionName, const std::string& optionValue);
+ std::string GetOption(const std::string& optionName) const;
+ std::string GetPreCADOption(const std::string& optionName) const;
+
+ static bool ToBool(const std::string& str, bool* isOk=0);
+ static double ToDbl(const std::string& str, bool* isOk=0);
+ static int ToInt(const std::string& str, bool* isOk=0);
+
+ /*!
+ * Sets the file for export resulting mesh in GMF format
+ */
+// void SetGMFFile(const std::string& theFileName, bool isBinary);
+ void SetGMFFile(const std::string& theFileName);
+ std::string GetGMFFile() const { return _GMFFileName; }
+ static std::string GetDefaultGMFFile() { return "";}
+// bool GetGMFFileMode() const { return _GMFFileMode; }
+
// Persistence
- virtual ostream & SaveTo(ostream & save);
- virtual istream & LoadFrom(istream & load);
- friend ostream & operator <<(ostream & save, BLSURFPlugin_Hypothesis & hyp);
- friend istream & operator >>(istream & load, BLSURFPlugin_Hypothesis & hyp);
+ virtual std::ostream & SaveTo(std::ostream & save);
+ virtual std::istream & LoadFrom(std::istream & load);
+ friend std::ostream & operator <<(std::ostream & save, BLSURFPlugin_Hypothesis & hyp);
+ friend std::istream & operator >>(std::istream & load, BLSURFPlugin_Hypothesis & hyp);
/*!
* \brief Does nothing
*/
virtual bool SetParametersByMesh(const SMESH_Mesh* theMesh, const TopoDS_Shape& theShape);
+ /*!
+ * \brief Initialize my parameter values by default parameters.
+ * \retval bool - true if parameter values have been successfully defined
+ */
+ virtual bool SetParametersByDefaults(const TDefaults& dflts, const SMESH_Mesh* theMesh=0);
+
+
private:
- Topology _topology;
- PhysicalMesh _physicalMesh;
- double _phySize;
- GeometricMesh _geometricMesh;
- double _angleMeshS;
- double _gradation;
- bool _quadAllowed;
- bool _decimesh;
+ PhysicalMesh _physicalMesh;
+ GeometricMesh _geometricMesh;
+ double _phySize;
+ bool _phySizeRel;
+ double _minSize, _maxSize;
+ bool _minSizeRel, _maxSizeRel;
+ bool _useGradation;
+ double _gradation;
+ bool _useVolumeGradation;
+ double _volumeGradation;
+ ElementType _elementType;
+ double _angleMesh;
+ double _chordalError;
+ bool _anisotropic;
+ double _anisotropicRatio;
+ bool _removeTinyEdges;
+ double _tinyEdgeLength;
+ bool _optimiseTinyEdges;
+ double _tinyEdgeOptimisationLength;
+ bool _correctSurfaceIntersec;
+ double _corrSurfaceIntersCost;
+ bool _badElementRemoval;
+ double _badElementAspectRatio;
+ bool _optimizeMesh;
+ bool _quadraticMesh;
+ int _verb;
+ Topology _topology;
+ bool _useSurfaceProximity;
+ int _nbSurfaceProximityLayers;
+ double _surfaceProximityRatio;
+ bool _useVolumeProximity;
+ int _nbVolumeProximityLayers;
+ double _volumeProximityRatio;
+
+ bool _preCADMergeEdges;
+ bool _preCADRemoveDuplicateCADFaces;
+ bool _preCADProcess3DTopology;
+ bool _preCADDiscardInput;
+ double _preCADEpsNano;
+
+ TOptionValues _option2value, _preCADoption2value, _customOption2value; // user defined values
+ TOptionValues _defaultOptionValues; // default values
+ TOptionNames _doubleOptions, _charOptions, _boolOptions; // to find a type of option
+ TOptionNames _preCADdoubleOptions, _preCADcharOptions;
+
+ TSizeMap _sizeMap;
+ TSizeMap _attractors;
+ TAttractorMap _classAttractors;
+
+ TFaceEntryEnfVertexListMap _faceEntryEnfVertexListMap;
+ TEnfVertexList _enfVertexList;
+ // maps to get "manual" enf vertex (through their coordinates)
+ TFaceEntryCoordsListMap _faceEntryCoordsListMap;
+ TCoordsEnfVertexMap _coordsEnfVertexMap;
+ // maps to get "geom" enf vertex (through their geom entries)
+ TFaceEntryEnfVertexEntryListMap _faceEntryEnfVertexEntryListMap;
+ TEnfVertexEntryEnfVertexMap _enfVertexEntryEnfVertexMap;
+ TGroupNameNodeIDMap _groupNameNodeIDMap;
+
+// Enable internal enforced vertices on specific face if requested by user
+// TFaceEntryInternalVerticesList _faceEntryInternalVerticesList;
+ bool _enforcedInternalVerticesAllFaces;
+ TEnfGroupName _enforcedInternalVerticesAllFacesGroup;
+
+ TPreCadPeriodicityVector _preCadFacesPeriodicityVector;
+ TPreCadPeriodicityVector _preCadEdgesPeriodicityVector;
+
+ TFacesPeriodicityVector _facesPeriodicityVector;
+ TEdgesPeriodicityVector _edgesPeriodicityVector;
+ TVerticesPeriodicityVector _verticesPeriodicityVector;
+
+ THyperPatchList _hyperPatchList;
+ THyperPatchEntriesList _hyperPatchEntriesList;
+
+ std::vector< EnforcedMesh > _enforcedMeshes; // enforced 1D meshes
+
+ // Called by SaveTo to store content of _preCadFacesPeriodicityVector and _preCadEdgesPeriodicityVector
+ void SavePreCADPeriodicity(std::ostream & save, const char* shapeType);
+
+ // Called by LoadFrom to fill _preCadFacesPeriodicityVector and _preCadEdgesPeriodicityVector
+ void LoadPreCADPeriodicity(std::istream & load, const char* shapeType);
+
+ // Called by LoadFrom to fill _facesPeriodicityVector
+ void LoadFacesPeriodicity(std::istream & load);
+
+ // Called by LoadFrom to fill _edgesPeriodicityVector
+ void LoadEdgesPeriodicity(std::istream & load);
+
+ // Called by LoadFrom to fill _verticesPeriodicityVector
+ void LoadVerticesPeriodicity(std::istream & load);
+
+ // Called by SaveTo to store content of _facesPeriodicityVector
+ void SaveFacesPeriodicity(std::ostream & save);
+
+ // Called by SaveTo to store content of _edgesPeriodicityVector
+ void SaveEdgesPeriodicity(std::ostream & save);
+
+ // Called by SaveTo to store content of _verticesPeriodicityVector
+ void SaveVerticesPeriodicity(std::ostream & save);
+
+ std::string _GMFFileName;
+// bool _GMFFileMode;
+
+// TSizeMap _customSizeMap;
};
#endif