GetFEM  5.4.3
bgeot_mesh_structure.h
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31 
32 /**@file bgeot_mesh_structure.h
33  @author Yves Renard <[email protected]>
34  @date November 5, 1999.
35  @brief Mesh structure definition
36 */
37 
38 #ifndef BGEOT_MESH_STRUCTURE_H__
39 #define BGEOT_MESH_STRUCTURE_H__
40 
41 #include <set>
42 #include "bgeot_convex_structure.h"
43 #include "dal_tree_sorted.h"
44 
45 namespace bgeot {
46 
47  struct APIDECL mesh_convex_structure {
48  typedef std::vector<size_type> ind_pt_ct;
49 
50  pconvex_structure cstruct; /* type of convex. */
51  ind_pt_ct pts; /* point list indices. */
52 
53  pconvex_structure structure() const { return cstruct; }
54  pconvex_structure &structure() { return cstruct; }
55  mesh_convex_structure() : cstruct(0) {}
56  };
57 
58  struct convex_face
59  {
60  convex_face(size_type element, short_type face) : cv(element), f(face) {}
61  size_type cv = -1;
62  short_type f = -1;
63  bool valid() const {return (cv != size_type(-1)) && (f != short_type(-1));}
64  static convex_face invalid_face() {return {size_type(-1), short_type(-1)};}
65  };
66 
67  /**@addtogroup mesh */
68  ///@{
69  /** Mesh structure definition.
70  * At this point, the mesh is just a graph: the points have no
71  * associated coordinates
72  */
73  class APIDECL mesh_structure {
74 
75  public :
76 
77  typedef std::vector<size_type> ind_cv_ct;
78  typedef std::vector<size_type> ind_set;
79  typedef gmm::tab_ref_index_ref<ind_cv_ct::const_iterator,
80  convex_ind_ct::const_iterator> ind_pt_face_ct;
82 
83  protected :
84 
85  dal::dynamic_tas<mesh_convex_structure, 8> convex_tab;
86  point_ct points_tab;
87 
88  public :
89 
90  /// Return the list of valid convex IDs
91  const dal::bit_vector &convex_index() const
92  { return convex_tab.index(); }
93  /// Return the list of valid convex IDs of a given dimension
94  dal::bit_vector convex_index(dim_type) const;
95  /// The total number of convexes in the mesh
96  size_type nb_convex() const { return convex_tab.card(); }
97  /// The number of convex indexes from 0 to the index of the last convex
99  { return convex_tab.index().last_true()+1; }
100  /// Return true if i is in convex_index()
101  bool is_convex_valid(size_type i) { return (convex_tab.index())[i]; }
102  size_type nb_max_points() const { return points_tab.size(); }
103  /// Return true if the point i is used by at least one convex
104  bool is_point_valid(size_type i) const { return !(points_tab[i].empty()); }
105  /** Return a container to the list of points attached to convex ic.
106  They are ordered according to structure_of_convex(ic) */
107  const ind_set &ind_points_of_convex(size_type ic) const
108  { return convex_tab[ic].pts; }
109  /// Return the "local" index for point ip of the mesh
110  size_type local_ind_of_convex_point(size_type ic, size_type ip) const;
111  /// Return the pconvex_structure of the convex ic.
113  { return convex_tab[ic].cstruct; }
114  /// Return the number of points of convex ic.
116  { return convex_tab[ic].cstruct->nb_points(); }
117  /// Return the number of faces of convex ic.
119  { return short_type(convex_tab[ic].cstruct->nb_faces()); }
120  /// Exchange two point IDs
121  void swap_points(size_type i, size_type j);
122  /// Exchange two convex IDs
123  void swap_convex(size_type cv1, size_type cv2);
124 
125  template<class ITER>
126  size_type add_convex_noverif(pconvex_structure cs, ITER ipts,
127  size_type to_index = size_type(-1));
128  /** Insert a new convex in the mesh_structure.
129  @param cs the structure of the new convex.
130  @param ipts an iterator over a sequence of integers (point IDs of the convex nodes).
131  @param present an optional argument, contains true on return if the convex already exists in the mesh_structure.
132  @return the convex ID
133  */
134  template<class ITER>
135  size_type add_convex(pconvex_structure cs,
136  ITER ipts, bool *present = 0);
137  template<class ITER> size_type add_simplex(dim_type dim, ITER ipts)
138  { return add_convex(simplex_structure(dim), ipts); }
139  size_type add_segment(size_type a, size_type b);
140  /** Remove the convex ic */
141  void sup_convex(size_type ic);
142  /** Remove a convex given its points
143  @param nb the number of points for the convex
144  @param ipts an iterator over the list of point IDs of the convex
145  */
146  template<class ITER>
147  void sup_convex_with_points(ITER ipts, short_type nb);
148  void sup_segment(size_type a, size_type b)
149  { size_type t[2]; t[0] = a; t[1] = b; sup_convex_with_points(&t[0], 2); }
150  /** Insert a new convex corresponding to face f of the convex ic */
151  size_type add_face_of_convex(size_type ic, short_type f);
152  /** Insert new convexes corresponding to the faces of the convex ic */
153  void add_faces_of_convex(size_type ic);
154  /** build a new mesh, such that its convexes are the faces of the
155  convexes of the previous one */
156  void to_faces(dim_type n);
157  /** build a new mesh, such that its convexes are the edges of the
158  convexes of the previous one */
159  void to_edges();
160 
161  size_type nb_convex_with_edge(size_type i1, size_type i2);
162  void convex_with_edge(size_type i1, size_type i2,
163  std::vector<size_type> &ipt) const;
164 
165  /** Return a container of the convexes attached to point ip */
166  const ind_cv_ct &convex_to_point(size_type ip) const
167  { return points_tab[ip]; }
168  /** Return a container of the points attached (via an edge) to point ip */
169  void ind_points_to_point(size_type, ind_set &) const;
170 
171  /** Return true if the convex contains the listed points.
172  @param ic the convex ID.
173  @param nb the number of points which are searched in ic.
174  @param pit an iterator to the list of points searched.
175  */
176  template<class ITER>
177  bool is_convex_having_points(size_type ic,short_type nb, ITER pit) const;
178 
179  /** Return true if the face of the convex contains the given list of points */
180  template<class ITER>
181  bool is_convex_face_having_points(size_type ic, short_type face_num,
182  short_type nb, ITER pit) const;
183 
184  /** Return a container of the (global) point number for face f or convex ic */
185  ind_pt_face_ct ind_points_of_face_of_convex(size_type ic,
186  short_type f) const;
187 
188  size_type memsize() const;
189  /** Reorder the convex IDs and point IDs, such that there is no
190  hole in their numbering. */
191  void optimize_structure();
192  /// erase the mesh
193  void clear();
194  void stat();
195 
196  /** Return in s a list of neighbors of a given convex face.
197  @param ic the convex id.
198  @param f the face number of the convex.
199  @param s the resulting ind_set.
200  */
201  void neighbors_of_convex(size_type ic, short_type f, ind_set &s) const;
202  void neighbours_of_convex(size_type ic, short_type f, ind_set &s) const
203  IS_DEPRECATED { neighbors_of_convex(ic, f, s); }
204 
205  /** Return in s a list of neighbors of a given convex sharing the
206  intersection of a given list of faces
207  @param ic the convex id.
208  @param f the face number of the convex.
209  @param s the resulting ind_set.
210  */
211  void neighbors_of_convex(size_type ic,
212  const std::vector<short_type> &ftab,
213  ind_set &s) const;
214  void neighbours_of_convex(size_type ic,
215  const std::vector<short_type> &ftab,
216  ind_set &s) const IS_DEPRECATED
217  { neighbors_of_convex(ic, ftab, s); }
218 
219  /** Return a list of neighbors of a given convex.
220  @param ic the convex id.
221  @param s the resulting ind_set.
222  */
223  void neighbors_of_convex(size_type ic, ind_set &s) const;
224  void neighbours_of_convex(size_type ic, ind_set &s) const
225  IS_DEPRECATED { neighbors_of_convex(ic, s); }
226 
227  /** Return a neighbor convex of a given convex face.
228  @param ic the convex id.
229  @param f the face number of the convex.
230  @return size_type(-1) if there is no neighbor to this convex and
231  the index of the first neighbor found otherwise.
232  */
233  size_type neighbor_of_convex(size_type ic, short_type f) const;
234  size_type neighbour_of_convex(size_type ic, short_type f) const
235  IS_DEPRECATED { return neighbor_of_convex(ic, f); }
236 
237  /**Return a face of the neighbouring element that is adjacent to the
238  given face
239  @param ic the convex id.
240  @param f the face number of the convex.
241  @return convex_face that contains the neighbors convex id and the
242  adjacent face number, or convex_face::invalid_face() otherwise.
243  */
244  convex_face adjacent_face(size_type ic, short_type f) const;
245 
246  bool is_convex_having_neighbor(size_type ic, short_type f) const
247  { return (neighbor_of_convex(ic, f) != size_type(-1)); }
248  bool is_convex_having_neighbour(size_type ic, short_type f) const
249  IS_DEPRECATED { return (neighbor_of_convex(ic, f) != size_type(-1)); }
250 
251  /** Convex ID of the first convex attached to the point ip. */
253  { return points_tab[ip].empty() ? size_type(-1) : points_tab[ip][0]; }
254  /** Find the local index of the point of global index ip with respect to
255  * the convex cv.
256  * @return local index (a number smaller than
257  * nb_points_of_convex(first_convex_of_point(ip))) or size_type(-1) if
258  * the point is not found.
259  */
260  size_type ind_in_convex_of_point(size_type ic, size_type ip) const;
261  };
262  ///@}
263 
264 
265 
266 
267  /** Return the cuthill_mc_kee ordering on the convexes */
268  void APIDECL cuthill_mckee_on_convexes(const bgeot::mesh_structure &ms,
269  std::vector<size_type> &cmk);
270 
271  template<class ITER>
273  short_type nb, ITER pit) const {
274  const ind_set &pt = ind_points_of_convex(ic);
275  for (short_type i = 0; i < nb; ++i, ++pit)
276  if (std::find(pt.begin(), pt.end(), *pit) == pt.end())
277  return false;
278  return true;
279  }
280 
281  template<class ITER> bool
283  short_type nb, ITER pit) const {
284  ind_pt_face_ct pt = ind_points_of_face_of_convex(ic, face_num);
285  for (short_type i = 0; i < nb; ++i, ++pit)
286  if (std::find(pt.begin(), pt.end(), *pit) == pt.end()) return false;
287  return true;
288  }
289 
290  template<class ITER>
291  size_type mesh_structure::add_convex_noverif(pconvex_structure cs,
292  ITER ipts, size_type is) {
293  mesh_convex_structure s; s.cstruct = cs;
294  size_type nb = cs->nb_points();
295 
296  if (is != size_type(-1)) { sup_convex(is); convex_tab.add_to_index(is,s); }
297  else is = convex_tab.add(s);
298 
299  convex_tab[is].pts.resize(nb);
300  for (size_type i = 0; i < nb; ++i, ++ipts)
301  { convex_tab[is].pts[i] = *ipts; points_tab[*ipts].push_back(is); }
302  return is;
303  }
304 
305  template<class ITER>
307  ITER ipts, bool *present) {
308  if (present) *present = false;
309  for (size_type i = 0; i < points_tab[*ipts].size(); ++i)
310  if (structure_of_convex(points_tab[*ipts][i]) == cs &&
311  is_convex_having_points(points_tab[*ipts][i], cs->nb_points(), ipts))
312  { if (present) *present = true; return points_tab[*ipts][i]; }
313  return add_convex_noverif(cs, ipts);
314  }
315 
316  template<class ITER>
318  if (nb) {
319  for (size_type i = 0; i < points_tab[*ipts].size(); ++i)
320  if (is_convex_having_points(points_tab[*ipts][i], nb, ipts))
321  sup_convex(points_tab[*ipts][i]);
322  }
323  }
324 
325 
326  /* ********************************************************************* */
327  /* */
328  /* Gives the list of edges of a mesh. */
329  /* */
330  /* ********************************************************************* */
331 
332  /* maybe this should be removed from the matlab interface and obsoleted */
333  struct APIDECL edge_list_elt {
334  size_type i, j;
335  size_type cv;
336  inline bool operator < (const edge_list_elt &e) const {
337  if (i < e.i) return true;
338  if (i > e.i) return false;
339  if (j < e.j) return true; else if (j > e.j) return false;
340  if (cv < e.cv) return true;
341  return false;
342  }
343  edge_list_elt(size_type ii, size_type jj, size_type ic = 0) : cv(ic)
344  { i = std::min(ii, jj); j = std::max(ii, jj); }
345  edge_list_elt() {}
346  };
347 
348  typedef dal::dynamic_tree_sorted<edge_list_elt> edge_list;
349 
350  /* do not use that */
351  void APIDECL mesh_edge_list_convex(pconvex_structure cvs,
352  std::vector<size_type> points_of_convex,
353  size_type cv_id, edge_list &el,
354  bool merge_convex);
355  void APIDECL mesh_edge_list(const mesh_structure &m, edge_list &el,
356  bool merge_convex = true);
357 
358 
359 
360 } /* end of namespace bgeot. */
361 
362 
363 #endif /* BGEOT_MESH_STRUCTURE_H__ */
Definition of convex structures.
Mesh structure definition.
bool is_convex_valid(size_type i)
Return true if i is in convex_index()
short_type nb_points_of_convex(size_type ic) const
Return the number of points of convex ic.
const dal::bit_vector & convex_index() const
Return the list of valid convex IDs.
short_type nb_faces_of_convex(size_type ic) const
Return the number of faces of convex ic.
bool is_convex_face_having_points(size_type ic, short_type face_num, short_type nb, ITER pit) const
Return true if the face of the convex contains the given list of points.
bool is_convex_having_points(size_type ic, short_type nb, ITER pit) const
Return true if the convex contains the listed points.
ind_pt_face_ct ind_points_of_face_of_convex(size_type ic, short_type f) const
Return a container of the (global) point number for face f or convex ic.
size_type nb_convex() const
The total number of convexes in the mesh.
void sup_convex_with_points(ITER ipts, short_type nb)
Remove a convex given its points.
const ind_cv_ct & convex_to_point(size_type ip) const
Return a container of the convexes attached to point ip.
size_type first_convex_of_point(size_type ip) const
Convex ID of the first convex attached to the point ip.
size_type add_convex(pconvex_structure cs, ITER ipts, bool *present=0)
Insert a new convex in the mesh_structure.
pconvex_structure structure_of_convex(size_type ic) const
Return the pconvex_structure of the convex ic.
const ind_set & ind_points_of_convex(size_type ic) const
Return a container to the list of points attached to convex ic.
bool is_point_valid(size_type i) const
Return true if the point i is used by at least one convex.
size_type nb_allocated_convex() const
The number of convex indexes from 0 to the index of the last convex.
void sup_convex(size_type ic)
Remove the convex ic.
bool empty(void) const
True if no space is allocated.
Definition: dal_basic.h:229
size_type size(void) const
Number of allocated elements.
Definition: dal_basic.h:225
indexed array reference (given a container X, and a set of indexes I, this class provides a pseudo-co...
Definition: gmm_ref.h:304
a balanced tree stored in a dal::dynamic_array
Basic Geometric Tools.
gmm::uint16_type short_type
used as the common short type integer in the library
Definition: bgeot_config.h:73
std::shared_ptr< const convex_structure > pconvex_structure
Pointer on a convex structure description.
void cuthill_mckee_on_convexes(const bgeot::mesh_structure &ms, std::vector< size_type > &cmk)
Return the cuthill_mc_kee ordering on the convexes.
pconvex_structure simplex_structure(dim_type nc)
Give a pointer on the structures of a simplex of dimension d.
size_t size_type
used as the common size type in the library
Definition: bgeot_poly.h:49