// Copyright (C) 2007-2011 CEA/DEN, EDF R&D, OPEN CASCADE // // Copyright (C) 2003-2007 OPEN CASCADE, EADS/CCR, LIP6, CEA/DEN, // CEDRAT, EDF R&D, LEG, PRINCIPIA R&D, BUREAU VERITAS // // This library is free software; you can redistribute it and/or // modify it under the terms of the GNU Lesser General Public // License as published by the Free Software Foundation; either // version 2.1 of the License. // // 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 : GEOMImpl_Block6Explorer.hxx // Module : GEOMImpl // #ifndef GEOMImpl_Block6Explorer_HeaderFile #define GEOMImpl_Block6Explorer_HeaderFile #include #include #include #include #include // Class GEOMImpl_Block6Explorer gives easy and fast access to a certain sub-elements of hexahedral solid // Each face can be accessed by its global ID [1-6] // Each edge can be accessed by its global ID [1-12] or by its local NB [1-4] inside certain face // Each vertex can be accessed by its global ID [1-8] or by its local NB [1-4] inside certain face // Numeration of the sub-shapes is defined in constructors, see they comments // // face 2 face 4 | 4 face 2 face | // | / | \ | | // \|/ |/_ | _\| \|/ | // ' ' | ' ' | // 8_______7__7 | 7__7_______8 | // /| /| | |\ |\ | // 8 12 6 11 | 11 6 12 8 | // / | / | | | \ | \ | // 5/______5__6/ | | | \6__5______\5 | // face 5 ---> | | | | <--- 6 face | face 6 ---> | | | | <--- 5 face | // | |__3__|____| | |____|__3__| | | // | /4 | /3 | 3\ | 4\ | | // | / | / | \ | \ | | // 9 4 10 2 | 2 10 4 9 | // |/__1______|/ | \|______1__\| | // 1 2 | 2 1 | // _. . | . ._ | // /| /|\ | /|\ |\ | // / | | | \ | // 3 face 1 face | face 1 face 3 | // | | // Picture 1 (right orientation) | Picture 2 (left orientation) | // | // For the moment, the orientation of numbering is not controlled // Faces: 1 - bottom, 2 - top, 3 - front, 4 - back, 5 - left (right), 6 - right (left) // // 4_______3__3 2 ______2__3 // / / | | // 4 2 1 3 // / / | | // 1/______1__2/ | | // | | // | __4______| // face 2 face 4 1 4 // | / // \|/ |/_ // ' ' // 3 8_______7__7 3 // /| /| /| /| // 3 2 8 12 6 11 3 2 // / | / | / | / | // 4/ | 5/______5__6/ | 4/ | // | | face 5 ---> | | | | <--- 6 face | | // | | | |__3__|____| | | // | /2 | /4 | /3 | /2 // | / | / | / | / // 4 1 9 4 10 2 4 1 // |/ |/__1______|/ |/ // 1 1 2 1 // _. . // /| /|\ // / | // 2 ______2__3 3 face 1 face // | | // | | __3_______ // | | /4 /3 // | | / / // 1 3 4 2 // | __4______| /__1______ / // 1 4 1 2 // // Picture 3 (On periferal pictures the local // numeration of edges and vertices is shown) class GEOMImpl_Block6Explorer { public: // ---------- PUBLIC METHODS ---------- GEOMImpl_Block6Explorer (); // Constructor. // Initialization by existing solid, // sub-elements regulate numeration void InitByBlock (const TopoDS_Shape& theBlock); // Init by hexahedral solid. First face, edge and vertex is defined randomly void InitByBlockAndFace (const TopoDS_Shape& theBlock, const TopoDS_Shape& theFace); // Constructor from hexahedral solid, making theFace the first face. // First edge and vertex is defined randomly from theFace entities void InitByBlockAndEdges (const TopoDS_Shape& theBlock, const TopoDS_Shape& theEdge1, const TopoDS_Shape& theEdge2); // Init by hexahedral solid, making theEdge1 the first, theEdge2 the fird. // First vertex is defined randomly from theEdge1 vertices // (Picture 1 and Picture 2 shows two possible cases) void InitByBlockAndVertices (const TopoDS_Shape& theBlock, const TopoDS_Shape& theVertex1, const TopoDS_Shape& theVertex2, const TopoDS_Shape& theVertex3); // Init by hexahedral solid, making theVertex1 the first, // theVertex2 the second and theVertex3 the fird vertices. // Initialization by parts of solid to be built void InitByTwoFaces (const TopoDS_Shape& theFace1, const TopoDS_Shape& theFace2); // Init by two faces. TheFace1 will be the first, // theFace2 will be the second. // First edge and vertex is defined randomly from theFace1 entities. // Access to vertices TopoDS_Shape GetVertex (const Standard_Integer theVertexID); // [1-8] Standard_Integer GetVertexID (const TopoDS_Shape& theVertex); Standard_Integer GetVertexID (const Standard_Integer theFaceID, // [1-6] const Standard_Integer theVertexNB); // [1-4] Standard_Integer GetVertexOnEdgeID (const Standard_Integer theEdgeID, // [1-12] const Standard_Integer theVertexNB); // [1-2] // Access to edges TopoDS_Shape GetEdge (const Standard_Integer theEdgeID, // [1-12] const Standard_Boolean doMake = Standard_False); Standard_Integer GetEdgeID (const TopoDS_Shape& theEdge); Standard_Integer GetEdgeID (const Standard_Integer theFaceID, // [1-6] const Standard_Integer theEdgeNB); // [1-4] Standard_Integer FindEdgeID (const Standard_Integer theVertex1ID, const Standard_Integer theVertex2ID); Standard_Integer FindCommonEdgeID (const Standard_Integer theFace1ID, const Standard_Integer theFace2ID); // Access to faces TopoDS_Shape GetFace (const Standard_Integer theFaceID, // [1-6] const Standard_Boolean doMake = Standard_False); Standard_Integer GetFaceID (const TopoDS_Shape& theFace); Standard_Integer FindFaceID (const Standard_Integer theEdge1ID, const Standard_Integer theEdge2ID); Standard_Integer GetOppositeFaceID (const Standard_Integer theFaceID); // Check Block Standard_Boolean IsSimilarFaces (const Standard_Integer theFace1ID, const Standard_Integer theFace2ID, const gp_Trsf theTransformation); // returns true, if theFace1, transformed // by theTransformation, coincides with theFace2 public: // ---------- STATIC PUBLIC METHODS ---------- static void MapShapesAndAncestors (const TopoDS_Shape& S, const TopAbs_ShapeEnum TS, const TopAbs_ShapeEnum TA, TopTools_IndexedDataMapOfShapeListOfShape& M); static Standard_Boolean IsSimilarEdges (const TopoDS_Shape& E1, const TopoDS_Shape& E2); static Standard_Integer FindEdge (TopoDS_Shape& theResult, const TopoDS_Shape& V1, const TopoDS_Shape& V2, const TopTools_IndexedDataMapOfShapeListOfShape& MVE, const Standard_Boolean findAll = Standard_False); // returns number of found edges static Standard_Integer FindFace (TopoDS_Shape& theResult, const TopoDS_Shape& V1, const TopoDS_Shape& V2, const TopoDS_Shape& V3, const TopoDS_Shape& V4, const TopTools_IndexedDataMapOfShapeListOfShape& MVF, const Standard_Boolean findAll = Standard_False); // returns number of found faces static void MakeFace (const TopoDS_Wire& theWire, const Standard_Boolean isPlanarWanted, TopoDS_Shape& theResult); private: // ---------- PRIVATE FIELDS ---------- TopTools_Array1OfShape myFaces; TopTools_Array1OfShape myEdges; TopTools_Array1OfShape myVertices; }; #endif