1 // Copyright (C) 2003 OPEN CASCADE, EADS/CCR, LIP6, CEA/DEN,
2 // CEDRAT, EDF R&D, LEG, PRINCIPIA R&D, BUREAU VERITAS
4 // This library is free software; you can redistribute it and/or
5 // modify it under the terms of the GNU Lesser General Public
6 // License as published by the Free Software Foundation; either
7 // version 2.1 of the License.
9 // This library is distributed in the hope that it will be useful,
10 // but WITHOUT ANY WARRANTY; without even the implied warranty of
11 // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
12 // Lesser General Public License for more details.
14 // You should have received a copy of the GNU Lesser General Public
15 // License along with this library; if not, write to the Free Software
16 // Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
18 // See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
20 // File : SMESH_Block.hxx
21 // Created : Tue Nov 30 12:42:18 2004
22 // Author : Edward AGAPOV (eap)
25 #ifndef SMESH_Block_HeaderFile
26 #define SMESH_Block_HeaderFile
28 #include "SMESH_SMESH.hxx"
30 //#include <Geom2d_Curve.hxx>
31 //#include <Geom_Curve.hxx>
32 //#include <Geom_Surface.hxx>
35 #include <TopTools_IndexedMapOfOrientedShape.hxx>
36 #include <TopoDS_Edge.hxx>
37 #include <TopoDS_Face.hxx>
38 #include <TopoDS_Shell.hxx>
39 #include <TopoDS_Vertex.hxx>
42 #include <math_FunctionSetWithDerivatives.hxx>
48 class SMDS_MeshVolume;
50 class Adaptor3d_Surface;
51 class Adaptor2d_Curve2d;
52 class Adaptor3d_Curve;
55 // =========================================================
56 // class calculating coordinates of 3D points by normalized
57 // parameters inside the block and vice versa
58 // =========================================================
60 class SMESH_EXPORT SMESH_Block: public math_FunctionSetWithDerivatives
64 // ----------------------------
65 // Ids of the block sub-shapes
66 // ----------------------------
69 ID_V000 = 1, ID_V100, ID_V010, ID_V110, ID_V001, ID_V101, ID_V011, ID_V111,
71 ID_Ex00, ID_Ex10, ID_Ex01, ID_Ex11,
72 ID_E0y0, ID_E1y0, ID_E0y1, ID_E1y1,
73 ID_E00z, ID_E10z, ID_E01z, ID_E11z,
75 ID_Fxy0, ID_Fxy1, ID_Fx0z, ID_Fx1z, ID_F0yz, ID_F1yz,
79 enum { // to use TShapeID for indexing certain type subshapes
81 ID_FirstV = ID_V000, ID_FirstE = ID_Ex00, ID_FirstF = ID_Fxy0
87 // -------------------------------------------------
88 // Block topology in terms of block sub-shapes' ids
89 // -------------------------------------------------
91 static int NbVertices() { return 8; }
92 static int NbEdges() { return 12; }
93 static int NbFaces() { return 6; }
94 static int NbSubShapes() { return ID_Shell; }
95 // to avoid magic numbers when allocating memory for subshapes
97 static inline bool IsVertexID( int theShapeID )
98 { return ( theShapeID >= ID_V000 && theShapeID <= ID_V111 ); }
100 static inline bool IsEdgeID( int theShapeID )
101 { return ( theShapeID >= ID_Ex00 && theShapeID <= ID_E11z ); }
103 static inline bool IsFaceID( int theShapeID )
104 { return ( theShapeID >= ID_Fxy0 && theShapeID <= ID_F1yz ); }
106 static int ShapeIndex( int theShapeID )
108 if ( IsVertexID( theShapeID )) return theShapeID - ID_V000;
109 if ( IsEdgeID( theShapeID )) return theShapeID - ID_Ex00;
110 if ( IsFaceID( theShapeID )) return theShapeID - ID_Fxy0;
113 // return index [0-...] for each type of sub-shapes,
115 // ShapeIndex( ID_Ex00 ) == 0
116 // ShapeIndex( ID_Ex10 ) == 1
118 static void GetFaceEdgesIDs (const int faceID, std::vector< int >& edgeVec );
119 // return edges IDs of a face in the order u0, u1, 0v, 1v
121 static void GetEdgeVertexIDs (const int edgeID, std::vector< int >& vertexVec );
122 // return vertex IDs of an edge
124 static int GetCoordIndOnEdge (const int theEdgeID)
125 { return (theEdgeID < ID_E0y0) ? 1 : (theEdgeID < ID_E00z) ? 2 : 3; }
126 // return an index of a coordinate which varies along the edge
128 static double* GetShapeCoef (const int theShapeID);
129 // for theShapeID( TShapeID ), returns 3 coefficients used
130 // to compute an addition of an on-theShape point to coordinates
131 // of an in-shell point. If an in-shell point has parameters (Px,Py,Pz),
132 // then the addition of a point P is computed as P*kx*ky*kz and ki is
133 // defined by the returned coef like this:
134 // ki = (coef[i] == 0) ? 1 : (coef[i] < 0) ? 1 - Pi : Pi
136 static int GetShapeIDByParams ( const gp_XYZ& theParams );
137 // define an id of the block sub-shape by point parameters
139 static ostream& DumpShapeID (const int theBlockShapeID, ostream& stream);
140 // DEBUG: dump an id of a block sub-shape
150 bool LoadBlockShapes(const TopoDS_Shell& theShell,
151 const TopoDS_Vertex& theVertex000,
152 const TopoDS_Vertex& theVertex001,
153 TopTools_IndexedMapOfOrientedShape& theShapeIDMap );
154 // Initialize block geometry with theShell,
155 // add sub-shapes of theBlock to theShapeIDMap so that they get
156 // IDs acoording to enum TShapeID
158 bool LoadBlockShapes(const TopTools_IndexedMapOfOrientedShape& theShapeIDMap);
159 // Initialize block geometry with shapes from theShapeIDMap
161 bool LoadMeshBlock(const SMDS_MeshVolume* theVolume,
162 const int theNode000Index,
163 const int theNode001Index,
164 std::vector<const SMDS_MeshNode*>& theOrderedNodes);
165 // prepare to work with theVolume and
166 // return nodes in theVolume corners in the order of TShapeID enum
168 bool LoadFace(const TopoDS_Face& theFace,
170 const TopTools_IndexedMapOfOrientedShape& theShapeIDMap);
171 // Load face geometry.
172 // It is enough to compute params or coordinates on the face.
173 // Face subshapes must be loaded into theShapeIDMap before
175 static bool Insert(const TopoDS_Shape& theShape,
176 const int theShapeID,
177 TopTools_IndexedMapOfOrientedShape& theShapeIDMap);
178 // Insert theShape into theShapeIDMap with theShapeID,
179 // Not yet set shapes preceding theShapeID are filled with compounds
180 // Return true if theShape was successfully bound to theShapeID
182 static bool FindBlockShapes(const TopoDS_Shell& theShell,
183 const TopoDS_Vertex& theVertex000,
184 const TopoDS_Vertex& theVertex001,
185 TopTools_IndexedMapOfOrientedShape& theShapeIDMap );
186 // add sub-shapes of theBlock to theShapeIDMap so that they get
187 // IDs acoording to enum TShapeID
190 // ---------------------------------
191 // Define coordinates by parameters
192 // ---------------------------------
194 bool VertexPoint( const int theVertexID, gp_XYZ& thePoint ) const {
195 if ( !IsVertexID( theVertexID )) return false;
196 thePoint = myPnt[ theVertexID - ID_FirstV ]; return true;
198 // return vertex coordinates, parameters are defined by theVertexID
200 bool EdgePoint( const int theEdgeID, const gp_XYZ& theParams, gp_XYZ& thePoint ) const {
201 if ( !IsEdgeID( theEdgeID )) return false;
202 thePoint = myEdge[ theEdgeID - ID_FirstE ].Point( theParams ); return true;
204 // return coordinates of a point on edge
206 bool EdgeU( const int theEdgeID, const gp_XYZ& theParams, double& theU ) const {
207 if ( !IsEdgeID( theEdgeID )) return false;
208 theU = myEdge[ theEdgeID - ID_FirstE ].GetU( theParams ); return true;
210 // return parameter on edge by in-block parameters
212 bool FacePoint( const int theFaceID, const gp_XYZ& theParams, gp_XYZ& thePoint ) const {
213 if ( !IsFaceID ( theFaceID )) return false;
214 thePoint = myFace[ theFaceID - ID_FirstF ].Point( theParams ); return true;
216 // return coordinates of a point on face
218 bool FaceUV( const int theFaceID, const gp_XYZ& theParams, gp_XY& theUV ) const {
219 if ( !IsFaceID ( theFaceID )) return false;
220 theUV = myFace[ theFaceID - ID_FirstF ].GetUV( theParams ); return true;
222 // return UV coordinates on a face by in-block parameters
224 bool ShellPoint( const gp_XYZ& theParams, gp_XYZ& thePoint ) const;
225 // return coordinates of a point in shell
227 static bool ShellPoint(const gp_XYZ& theParams,
228 const std::vector<gp_XYZ>& thePointOnShape,
230 // computes coordinates of a point in shell by points on sub-shapes
231 // and point parameters.
232 // thePointOnShape[ subShapeID ] must be a point on a subShape;
233 // thePointOnShape.size() == ID_Shell, thePointOnShape[0] not used
237 // ---------------------------------
238 // Define parameters by coordinates
239 // ---------------------------------
241 bool ComputeParameters (const gp_Pnt& thePoint,
243 const int theShapeID = ID_Shell,
244 const gp_XYZ& theParamsHint = gp_XYZ(-1,-1,-1));
245 // compute point parameters in the block.
246 // Note: for edges, it is better to use EdgeParameters()
248 bool VertexParameters(const int theVertexID, gp_XYZ& theParams);
249 // return parameters of a vertex given by TShapeID
251 bool EdgeParameters(const int theEdgeID, const double theU, gp_XYZ& theParams);
252 // return parameters of a point given by theU on edge
267 static bool IsForwardEdge (const TopoDS_Edge & theEdge,
268 const TopTools_IndexedMapOfOrientedShape& theShapeIDMap) {
269 int v1ID = theShapeIDMap.FindIndex( TopExp::FirstVertex( theEdge ).Oriented( TopAbs_FORWARD ));
270 int v2ID = theShapeIDMap.FindIndex( TopExp::LastVertex( theEdge ).Oriented( TopAbs_FORWARD ));
271 return ( v1ID < v2ID );
273 // Return true if an in-block parameter increases along theEdge curve
275 static int GetOrderedEdges (const TopoDS_Face& theFace,
276 TopoDS_Vertex theFirstVertex,
277 std::list< TopoDS_Edge >& theEdges,
278 std::list< int > & theNbVertexInWires);
279 // Return nb wires and a list of oredered edges.
280 // It is used to assign indices to subshapes.
281 // theFirstVertex may be NULL.
282 // Always try to set a seam edge first
285 // -----------------------------------------------------------
286 // Methods of math_FunctionSetWithDerivatives used internally
287 // to define parameters by coordinates
288 // -----------------------------------------------------------
289 Standard_Integer NbVariables() const;
290 Standard_Integer NbEquations() const;
291 Standard_Boolean Value(const math_Vector& X,math_Vector& F) ;
292 Standard_Boolean Derivatives(const math_Vector& X,math_Matrix& D) ;
293 Standard_Boolean Values(const math_Vector& X,math_Vector& F,math_Matrix& D) ;
294 Standard_Integer GetStateNumber ();
299 * \brief Call it after geometry initialisation
303 // Note: to compute params of a point on a face, it is enough to set
304 // TFace, TEdge's and points for that face only
306 // Note 2: curve adaptors need to have only Value(double), FirstParameter() and
307 // LastParameter() defined to be used by Block algoritms
309 class SMESH_EXPORT TEdge {
313 Adaptor3d_Curve* myC3d;
317 void Set( const int edgeID, Adaptor3d_Curve* curve, const bool isForward );
318 void Set( const int edgeID, const gp_XYZ& node1, const gp_XYZ& node2 );
319 Adaptor3d_Curve* GetCurve() const { return myC3d; }
320 double EndParam(int i) const { return i ? myLast : myFirst; }
321 int CoordInd() const { return myCoordInd; }
322 const gp_XYZ& NodeXYZ(int i) const { return i ? myNodes[1] : myNodes[0]; }
323 gp_XYZ Point( const gp_XYZ& theParams ) const; // Return coord by params
324 double GetU( const gp_XYZ& theParams ) const; // Return U by params
329 class SMESH_EXPORT TFace {
330 // 4 edges in the order u0, u1, 0v, 1v
332 double myFirst [ 4 ];
334 Adaptor2d_Curve2d* myC2d [ 4 ];
335 // 4 corner points in the order 00, 10, 11, 01
336 gp_XY myCorner [ 4 ];
338 Adaptor3d_Surface* myS;
342 void Set( const int faceID, Adaptor3d_Surface* S, // must be in GetFaceEdgesIDs() order:
343 Adaptor2d_Curve2d* c2d[4], const bool isForward[4] );
344 void Set( const int faceID, const TEdge& edgeU0, const TEdge& edgeU1 );
345 gp_XY GetUV( const gp_XYZ& theParams ) const;
346 gp_XYZ Point( const gp_XYZ& theParams ) const;
347 int GetUInd() const { return myCoordInd[ 0 ]; }
348 int GetVInd() const { return myCoordInd[ 2 ]; }
349 void GetCoefs( int i, const gp_XYZ& theParams, double& eCoef, double& vCoef ) const;
350 TFace(): myS(0) { myC2d[0]=myC2d[1]=myC2d[2]=myC2d[3]=0; }
354 // geometry in the order as in TShapeID:
362 // for param computation
364 enum { SQUARE_DIST = 0, DRV_1, DRV_2, DRV_3 };
365 double distance () const { return sqrt( myValues[ SQUARE_DIST ]); }
366 double funcValue(double sqDist) const { return mySquareFunc ? sqDist : sqrt(sqDist); }
367 bool computeParameters(const gp_Pnt& thePoint, gp_XYZ& theParams, const gp_XYZ& theParamsHint);
376 gp_XYZ myPoint; // the given point
377 gp_XYZ myParam; // the best parameters guess
378 double myValues[ 4 ]; // values computed at myParam: square distance and 3 derivatives
380 typedef std::pair<gp_XYZ,gp_XYZ> TxyzPair;
381 TxyzPair my3x3x3GridNodes[ 27 ]; // to compute the first param guess