/*************************************************************************** * Copyright (c) 2009 Jürgen Riegel * * * * This file is part of the FreeCAD CAx development system. * * * * This library is free software; you can redistribute it and/or * * modify it under the terms of the GNU Library General Public * * License as published by the Free Software Foundation; either * * version 2 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 Library General Public License for more details. * * * * You should have received a copy of the GNU Library General Public * * License along with this library; see the file COPYING.LIB. If not, * * write to the Free Software Foundation, Inc., 59 Temple Place, * * Suite 330, Boston, MA 02111-1307, USA * * * ***************************************************************************/ #ifndef FEM_FEMMESH_H #define FEM_FEMMESH_H #include #include #include #include #include #include #include #include class SMESH_Gen; class SMESH_Mesh; class SMESH_Hypothesis; class TopoDS_Shape; class TopoDS_Face; class TopoDS_Edge; class TopoDS_Vertex; class TopoDS_Solid; namespace Fem { using SMESH_HypothesisPtr = std::shared_ptr; /** The representation of a FemMesh */ class FemExport FemMesh : public Data::ComplexGeoData { TYPESYSTEM_HEADER_WITH_OVERRIDE(); public: FemMesh(); FemMesh(const FemMesh&); ~FemMesh() override; FemMesh &operator=(const FemMesh&); const SMESH_Mesh* getSMesh() const; SMESH_Mesh* getSMesh(); static SMESH_Gen * getGenerator(); void addHypothesis(const TopoDS_Shape & aSubShape, SMESH_HypothesisPtr hyp); void setStandardHypotheses(); void compute(); // from base class unsigned int getMemSize () const override; void Save (Base::Writer &/*writer*/) const override; void Restore(Base::XMLReader &/*reader*/) override; void SaveDocFile (Base::Writer &writer) const override; void RestoreDocFile(Base::Reader &reader) override; /** @name Subelement management */ //@{ /** Sub type list * List of different subelement types * it is NOT a list of the subelements itself */ std::vector getElementTypes() const override; unsigned long countSubElements(const char* Type) const override; /// get the subelement by type and number Data::Segment* getSubElement(const char* Type, unsigned long) const override; /** Get points from object with given accuracy */ void getPoints(std::vector &Points, std::vector &Normals, double Accuracy, uint16_t flags=0) const override; //@} /** @name search and retrieval */ //@{ /// retrieving by region growing std::set getSurfaceNodes(long ElemId, short FaceId, float Angle=360)const; /// retrieving by solid std::set getNodesBySolid(const TopoDS_Solid &solid) const; /// retrieving by face std::set getNodesByFace(const TopoDS_Face &face) const; /// retrieving by edge std::set getNodesByEdge(const TopoDS_Edge &edge) const; /// retrieving by vertex std::set getNodesByVertex(const TopoDS_Vertex &vertex) const; /// retrieving node IDs by element ID std::list getElementNodes(int id) const; /// retrieving elements IDs by node ID std::list getNodeElements(int id, SMDSAbs_ElementType type=SMDSAbs_All) const; /// retrieving face IDs number by face std::list getFacesByFace(const TopoDS_Face &face) const; /// retrieving edge IDs number by edge std::list getEdgesByEdge(const TopoDS_Edge &edge) const; /// retrieving volume IDs and face IDs number by face std::list > getVolumesByFace(const TopoDS_Face &face) const; /// retrieving volume IDs and CalculiX face number by face std::map getccxVolumesByFace(const TopoDS_Face &face) const; /// retrieving IDs of edges not belonging to any face (and thus not belonging to any volume too) std::set getEdgesOnly() const; /// retrieving IDs of faces not belonging to any volume std::set getFacesOnly() const; //@} /** @name Placement control */ //@{ /// set the transformation void setTransform(const Base::Matrix4D& rclTrf) override; /// get the transformation Base::Matrix4D getTransform() const override; /// Bound box from the shape Base::BoundBox3d getBoundBox()const override; /// get the volume (when there are volume elements) Base::Quantity getVolume()const; //@} /** @name Modification */ //@{ /// Applies a transformation on the real geometric data type void transformGeometry(const Base::Matrix4D &rclMat) override; //@} /** @name Group management */ //@{ /// Adds group to mesh int addGroup(const std::string, const std::string, const int=-1); /// Adds elements to group (int due to int used by raw SMESH functions) void addGroupElements(int, const std::set&); /// Remove group (Name due to similarity to SMESH basis functions) bool removeGroup(int); //@} struct FemMeshInfo { int numFaces; int numNode; int numTria; int numQuad; int numPoly; int numVolu; int numTetr; int numHexa; int numPyrd; int numPris; int numHedr; }; /// struct FemMeshInfo getInfo() const; /// import from files void read(const char *FileName); void write(const char *FileName) const; void writeABAQUS(const std::string &Filename, int elemParam, bool groupParam) const; void writeZ88(const std::string &FileName) const; private: void copyMeshData(const FemMesh&); void readNastran(const std::string &Filename); void readNastran95(const std::string &Filename); void readZ88(const std::string &Filename); void readAbaqus(const std::string &Filename); private: /// positioning matrix Base::Matrix4D _Mtrx; SMESH_Mesh *myMesh; std::list hypoth; static SMESH_Gen *_mesh_gen; }; } //namespace Part #endif // FEM_FEMMESH_H