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GetFEM: src/getfem/bgeot_convex.h Source File
GetFEM  5.4.2
bgeot_convex.h
Go to the documentation of this file.
1 /* -*- c++ -*- (enables emacs c++ mode) */
2 /*===========================================================================
3 
4  Copyright (C) 1999-2020 Yves Renard
5 
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30 ===========================================================================*/
31 
32 /**@file bgeot_convex.h
33  @author Yves Renard <Yves.Renard@insa-lyon.fr>
34  @date December 20, 1999.
35  @brief Convex objects (structure + vertices)
36 */
37 
38 #ifndef BGEOT_CONVEX_H__
39 #define BGEOT_CONVEX_H__
40 
41 #include "bgeot_convex_structure.h"
42 
43 namespace bgeot {
44 
45  /** @defgroup convexes Convexes */
46  /** @addtogroup convexes */
47  /*@{*/
48 
49  /// generic definition of a convex ( bgeot::convex_structure + vertices coordinates )
50  template<class PT, class PT_TAB = std::vector<PT> > class convex {
51  public :
52 
53  typedef PT point_type;
54  typedef PT_TAB point_tab_type;
55  typedef typename PT_TAB::size_type size_type;
56 
57  typedef gmm::tab_ref_index_ref< typename PT_TAB::const_iterator,
58  convex_ind_ct::const_iterator> ref_convex_pt_ct;
59 
60  typedef gmm::tab_ref_index_ref< typename PT_TAB::const_iterator,
62 
63  protected :
64 
66  PT_TAB pts;
67 
68  public :
69 
70  ref_convex_pt_ct points_of_face(short_type i) const {
71  return ref_convex_pt_ct(pts.begin(), cvs->ind_points_of_face(i).begin(),
72  cvs->ind_points_of_face(i).end());
73  }
74 
75  /** Return "direct" points. These are the subset of points than can be
76  used to build a direct vector basis. (rarely used)
77  */
79  return ref_convex_pt_ct(pts.begin(), cvs->ind_dir_points().begin(),
80  cvs->ind_dir_points().end());
81  }
82  /** Direct points for a given face.
83  @param i the face number.
84  */
86  return dref_convex_pt_ct(pts.begin(),
87  cvs->ind_dir_points_of_face(i).begin(),
88  cvs->ind_dir_points_of_face(i).end());
89  }
90  pconvex_structure structure() const { return cvs; }
91  pconvex_structure &structure() { return cvs; }
92  const PT_TAB &points() const { return pts; }
93  PT_TAB &points() { return pts; }
94  short_type nb_points() const { return cvs->nb_points(); }
95 
96  //void translate(const typename PT::vector_type &v);
97  //template <class CONT> void base_of_orthogonal(CONT &tab);
98  convex() { }
99  /** Build a convex object.
100  @param c the convex structure.
101  @param t the points array.
102  */
103  convex(pconvex_structure c, const PT_TAB &t) : cvs(c), pts(t) {}
104  convex(pconvex_structure c) : cvs(c) {}
105  };
106  /*@}*/
107  /*template<class PT, class PT_TAB>
108  void convex<PT, PT_TAB>::translate(const typename PT::vector_type &v) {
109  typename PT_TAB::iterator b = pts.begin(), e = pts.end();
110  for ( ; b != e ; ++b) *b += v;
111  }
112  */
113  /*
114  template<class PT, class PT_TAB> template<class CONT>
115  void convex<PT, PT_TAB>::base_of_orthogonal(CONT &tab)
116  { // programmation a revoir.
117  int N = (points())[0].size();
118  pconvex_structure cv = structure();
119  int n = cv->dim();
120  dal::dynamic_array<typename PT::vector_type> vect_;
121  vsvector<double> A(N), B(N);
122  ref_convex_ind_ct dptf = cv->ind_dir_points_of_face(f);
123  int can_b = 0;
124 
125  for (int i = 0; i < n-1; i++) {
126  vect_[i] = (points())[dptf[i+1]]; vect_[i] -= (points())[dptf[0]];
127 
128  for (j = 0; j < i; j++)
129  A[j] = vect_sp(vect_[i], vect_[j]);
130  for (j = 0; j < i; j++)
131  { B = vect_[j]; B *= A[j]; vect_[i] -= B; }
132  vect_[i] /= vect_norm2(vect_[i]);
133  }
134 
135  for (int i = n; i < N; i++) {
136  vect_[i] = vect_[0];
137  vect_random(vect_[i]);
138  for (j = 0; j < i; j++)
139  A[j] = vect_sp(vect_[i], vect_[j]);
140  for (j = 0; j < i; j++)
141  { B = vect_[j]; B *= A[j]; vect_[i] -= B; }
142 
143  if (vect_norm2(vect_[i]) < 1.0E-4 )
144  i--;
145  else
146  vect_[i] /= vect_norm2(vect_[i]);
147  }
148  for (int i = n; i < N; i++) tab[i-n] = vect_[i];
149  }
150  */
151 
152  template<class PT, class PT_TAB>
153  std::ostream &operator <<(std::ostream &o, const convex<PT, PT_TAB> &cv)
154  {
155  o << *(cv.structure());
156  o << " points : ";
157  for (size_type i = 0; i < cv.nb_points(); ++i) o << cv.points()[i] << " ";
158  o << endl;
159  return o;
160  }
161 
162  /* ********************************************************************** */
163  /* Unstabilized part. */
164  /* ********************************************************************** */
165 
166  template<class PT, class PT_TAB>
167  convex<PT, PT_TAB> simplex(const PT_TAB &t, int nc)
168  { return convex<PT, PT_TAB>(simplex_structure(nc), t); }
169 
170 
171  template<class PT, class PT_TAB1, class PT_TAB2>
172  convex<PT> convex_product(const convex<PT, PT_TAB1> &cv1,
173  const convex<PT, PT_TAB2> &cv2)
174  { // optimisable
175  typename convex<PT>::point_tab_type tab;
176  tab.resize(cv1.nb_points() * cv2.nb_points());
177  size_type i,j,k;
178  for (i = 0, k = 0; i < cv1.nb_points(); ++i)
179  for (j = 0; j < cv2.nb_points(); ++j, ++k)
180  { tab[k] = (cv1.points())[i]; tab[k] += (cv2.points())[j]; }
181  return convex<PT>(
182  convex_product_structure(cv1.structure(), cv2.structure()), tab);
183  }
184 
185  struct special_convex_structure_key_ : virtual public dal::static_stored_object_key {
187  bool compare(const static_stored_object_key &oo) const override {
188  auto &o = dynamic_cast<const special_convex_structure_key_ &>(oo);
189  return p < o.p;
190  }
191  bool equal(const static_stored_object_key &oo) const override {
192  auto &o = dynamic_cast<const special_convex_structure_key_ &>(oo);
193  if (p == o.p) return true;
194 
195  auto pkey = dal::key_of_stored_object(p);
196  auto poo_key = dal::key_of_stored_object(o.p);
197  return *pkey == *poo_key;
198  }
199  special_convex_structure_key_(pconvex_structure pp) : p(pp) {}
200  };
201 
202  template<class PT, class PT_TAB1, class PT_TAB2>
203  convex<PT> convex_direct_product(const convex<PT, PT_TAB1> &cv1,
204  const convex<PT, PT_TAB2> &cv2) {
205  if (cv1.nb_points() == 0 || cv2.nb_points() == 0)
206  throw std::invalid_argument(
207  "convex_direct_product : null convex product");
208 
209  if (!dal::exists_stored_object(cv1.structure())) {
210  dal::pstatic_stored_object_key
211  pcs = std::make_shared<special_convex_structure_key_>(cv1.structure());
212  dal::add_stored_object(pcs, cv1.structure(),
213  dal::AUTODELETE_STATIC_OBJECT);
214  }
215  if (!dal::exists_stored_object(cv2.structure())) {
216  dal::pstatic_stored_object_key
217  pcs = std::make_shared<special_convex_structure_key_>(cv2.structure());
218  dal::add_stored_object(pcs, cv2.structure(),
219  dal::AUTODELETE_STATIC_OBJECT);
220  }
221  convex<PT> r(convex_product_structure(cv1.structure(), cv2.structure()));
222  r.points().resize(r.nb_points());
223  std::fill(r.points().begin(), r.points().end(), PT(r.structure()->dim()));
224  dim_type dim1 = cv1.structure()->dim();
225  typename PT_TAB1::const_iterator it1, it1e = cv1.points().end();
226  typename PT_TAB2::const_iterator it2, it2e = cv2.points().end();
227  typename convex<PT>::point_tab_type::iterator it = r.points().begin();
228  for (it2 = cv2.points().begin(); it2 != it2e; ++it2)
229  for (it1 = cv1.points().begin() ; it1 != it1e; ++it1, ++it)
230  {
231  std::copy((*it1).begin(), (*it1).end(), (*it).begin());
232  std::copy((*it2).begin(), (*it2).end(), (*it).begin()+dim1);
233  }
234  return r;
235  }
236 
237  template<class PT, class PT_TAB>
238  convex<PT> convex_multiply(const convex<PT, PT_TAB> &cv, dim_type n)
239  {
240  if (cv.nb_points() == 0 || n == 0)
241  throw std::invalid_argument(
242  "convex_multiply : null convex product");
243  convex<PT> r(multiply_convex_structure(cv.structure(), n));
244  r.points().resize(r.nb_points());
245  std::fill(r.points().begin(), r.points().end(), PT(r.structure()->dim()));
246  dim_type dim1 = cv.structure()->dim();
247  typename convex<PT>::point_tab_type::iterator it = r.points().begin();
248  typename PT_TAB::const_iterator it1 = cv.points().begin(), it2,
249  it1e = cv.points().end();
250  for (dim_type k = 0; k < n; ++k)
251  for (it2 = it1; it2 != it1e; ++it2) *it++ = *it2;
252  return r;
253  }
254 
255 } /* end of namespace bgeot. */
256 
257 
258 #endif /* BGEOT_CONVEX_H__ */
bgeot::operator<<
std::ostream & operator<<(std::ostream &o, const convex_structure &cv)
Print the details of the convex structure cvs to the output stream o.
Definition: bgeot_convex_structure.cc:71
bgeot::convex_product_structure
pconvex_structure convex_product_structure(pconvex_structure a, pconvex_structure b)
Give a pointer on the structures of a convex which is the direct product of the convexes represented ...
Definition: bgeot_convex_structure.cc:368
bgeot::size_type
size_t size_type
used as the common size type in the library
Definition: bgeot_poly.h:49
bgeot::convex::convex
convex(pconvex_structure c, const PT_TAB &t)
Build a convex object.
Definition: bgeot_convex.h:103
bgeot::convex
generic definition of a convex ( bgeot::convex_structure + vertices coordinates )
Definition: bgeot_convex.h:50
bgeot::short_type
gmm::uint16_type short_type
used as the common short type integer in the library
Definition: bgeot_config.h:72
bgeot::simplex_structure
pconvex_structure simplex_structure(dim_type nc)
Give a pointer on the structures of a simplex of dimension d.
Definition: bgeot_convex_structure.cc:148
gmm::tab_ref_index_ref_iterator_
iterator over a gmm::tab_ref_index_ref<ITER,ITER_INDEX>
Definition: gmm_ref.h:226
bgeot::convex::dir_points
ref_convex_pt_ct dir_points() const
Return "direct" points.
Definition: bgeot_convex.h:78
dal::exists_stored_object
bool exists_stored_object(pstatic_stored_object o)
Test if an object is stored.
Definition: dal_static_stored_objects.cc:171
bgeot::convex::dir_points_of_face
dref_convex_pt_ct dir_points_of_face(short_type i) const
Direct points for a given face.
Definition: bgeot_convex.h:85
bgeot_convex_structure.h
Definition of convex structures.
dal::add_stored_object
void add_stored_object(pstatic_stored_object_key k, pstatic_stored_object o, permanence perm)
Add an object with two optional dependencies.
Definition: dal_static_stored_objects.cc:284
bgeot
Basic Geometric Tools.
Definition: bgeot_convex_ref.cc:27
bgeot::pconvex_structure
std::shared_ptr< const convex_structure > pconvex_structure
Pointer on a convex structure description.
Definition: bgeot_convex_structure.h:54
gmm::tab_ref_index_ref
indexed array reference (given a container X, and a set of indexes I, this class provides a pseudo-co...
Definition: gmm_ref.h:289