GetFEM  5.4.3
getfem_interpolated_fem.h
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4  Copyright (C) 2004-2020 Yves Renard
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31 /**@file getfem_interpolated_fem.h
32  @author Yves Renard <[email protected]>
33  @date October 29, 2004.
34  @brief FEM which interpolates a mesh_fem on a different mesh.
35 
36  To be corrected : dependencies. The mesh fem using this fem will
37  not depend on the mesh fem arguments.
38 */
39 
40 
41 #ifndef GETFEM_INTERPOLATED_FEM_H__
42 #define GETFEM_INTERPOLATED_FEM_H__
43 
44 #include "getfem_fem.h"
45 #include "getfem_mesh_fem.h"
46 #include "getfem_mesh_im.h"
47 #include "bgeot_rtree.h"
48 #include "bgeot_geotrans_inv.h"
49 
50 namespace getfem {
51 
52  // Object representing global transformation. To be derived.
53 
54  struct virtual_interpolated_func {
55  virtual void val(const base_node&, base_node &) const
56  { GMM_ASSERT1(false, "this interpolated_func has no value"); }
57  virtual void grad(const base_node&, base_matrix &) const
58  { GMM_ASSERT1(false, "this interpolated_func has no gradient"); }
59  virtual void hess(const base_node&, base_matrix &) const
60  { GMM_ASSERT1(false, "this interpolated_func has no hessian"); }
61  virtual ~virtual_interpolated_func() {}
62  };
63 
64 
65  typedef const virtual_interpolated_func *pinterpolated_func;
66 
67 
68  struct gausspt_interpolation_data {
69  size_type elt; // convex of the interpolated mesh_fem under the gauss point
70  size_type iflags; // flags & 1 : there is an element or not
71  // flags & 2 : base_val is stored
72  // flags & 4 : grad_val is stored
73  base_node ptref; // coords on reference element of mf1 element
74  base_tensor base_val; // optional storage of the base values
75  base_tensor grad_val; // optional storage of the grad base values
76  std::vector<size_type> local_dof; // correspondence between dof of the
77  // mf1 element and dof of the interpolated element.
78  gausspt_interpolation_data() : elt(size_type(-1)), iflags(size_type(-1)) {}
79  };
80 
81  /** FEM which interpolates a mesh_fem on a different mesh.
82 
83  Note that the memory cost of this method is extremely high!
84  */
86 
87  protected :
88 
89  struct elt_interpolation_data {
91  std::vector<gausspt_interpolation_data> gausspt;
92  std::vector<size_type> inddof;
93  pintegration_method pim; // for DEBUG
94  elt_interpolation_data() : nb_dof(0), pim(0) {}
95  };
96 
97  const mesh_fem &mf; // mf represents the original finite element method
98  // to be interpolated.
99  const mesh_im &mim; // mesh on which mf1 is interpolated. contains
100  // also the integration method.
101  pinterpolated_func pif; // optional transformation
102 
103  bool store_values;
104  dal::bit_vector blocked_dof;
105 
106  // auxiliary variables
107  mutable std::vector<elt_interpolation_data> elements;
108  mutable bgeot::rtree boxtree; // Tree containing the bounding box
109  // of mf1 elements
110  mutable std::map<size_type, std::vector<size_type>> box_to_convexes_map;
111  mutable std::vector<size_type> ind_dof; /* all functions using this work
112  array should keep it full of
113  size_type(-1) */
114  mutable size_type cv_stored;
115  mutable bgeot::rtree::pbox_set boxlst;
116  mutable bgeot::geotrans_inv_convex gic;
117  mutable base_tensor taux;
118  mutable fem_interpolation_context fictx;
119  mutable size_type fictx_cv;
120  mutable base_matrix G;
121  mutable bgeot::pstored_point_tab pspt_override;
122  mutable bgeot::multi_index mi2, mi3;
123  mutable base_node ptref;
124  mutable gmm::dense_matrix<scalar_type> trans;
125 
126  void build_rtree(void) const;
127 
128  bool find_a_point(base_node pt, base_node &ptr,
129  size_type &cv) const;
130 
131  virtual void update_from_context(void) const;
132  inline void actualize_fictx(pfem pf, size_type cv,
133  const base_node &ptr) const;
134 
135  public :
136 
137  virtual size_type nb_dof(size_type cv) const;
138  virtual size_type index_of_global_dof(size_type cv, size_type i) const;
139  virtual bgeot::pconvex_ref ref_convex(size_type cv) const;
140  virtual const bgeot::convex<base_node> &node_convex(size_type cv) const;
141  virtual bgeot::pstored_point_tab node_tab(size_type) const
142  { return pspt_override; }
143  void base_value(const base_node &, base_tensor &) const;
144  void grad_base_value(const base_node &, base_tensor &) const;
145  void hess_base_value(const base_node &, base_tensor &) const;
147  base_tensor &t, bool = true) const;
149  base_tensor &t, bool = true) const;
151  base_tensor &, bool = true) const;
152 
153  /** return the list of convexes of the interpolated mesh_fem which
154  * contain at least one gauss point (should be all convexes)! */
155  dal::bit_vector interpolated_convexes() const;
156 
157  /** return the min/max/mean number of gauss points in the convexes
158  * of the interpolated mesh_fem */
159  void gauss_pts_stats(unsigned &ming, unsigned &maxg,
160  scalar_type &meang) const;
161  size_type memsize() const;
162  interpolated_fem(const mesh_fem &mef, const mesh_im &meim,
163  pinterpolated_func pif_ = 0,
164  dal::bit_vector blocked_dof = dal::bit_vector(),
165  bool store_val = true);
166  virtual ~interpolated_fem()
167  { DAL_STORED_OBJECT_DEBUG_DESTROYED(this, "Interpolated fem"); }
168  };
169 
170 
171  /** create a new interpolated FEM.
172  @param mef the mesh_fem that will be interpolated.
173  @param mim the integration method on the final mesh (not the mesh
174  of mef!).
175  @param pif an optional geometric transformation applied to
176  mef.linked_mesh() (used for getfem::spider_fem)
177  @param blocked_dof list of dof of mef which won't be interpolated.
178  @param store_val if true, the values/gradients of interpolated base
179  function are cached at each gauss point (eats much memory).
180  */
181  pfem new_interpolated_fem(const mesh_fem &mef, const mesh_im &mim,
182  pinterpolated_func pif = 0,
183  dal::bit_vector blocked_dof = dal::bit_vector(),
184  bool store_val = true);
185 
186  /** release an interpolated fem */
187  inline void del_interpolated_fem(const pfem &pf)
188  { dal::del_stored_object(pf); }
189 
190 
191 } /* end of namespace getfem. */
192 
193 #endif
194 
Inversion of geometric transformations.
region-tree for window/point search on a set of rectangles.
does the inversion of the geometric transformation for a given convex
Balanced tree of n-dimensional rectangles.
Definition: bgeot_rtree.h:98
Deal with interdependencies of objects.
structure passed as the argument of fem interpolation functions.
Definition: getfem_fem.h:750
FEM which interpolates a mesh_fem on a different mesh.
void real_grad_base_value(const fem_interpolation_context &c, base_tensor &t, bool=true) const
Give the gradient of all components of the base functions at the current point of the fem_interpolati...
void real_base_value(const fem_interpolation_context &c, base_tensor &t, bool=true) const
Give the value of all components of the base functions at the current point of the fem_interpolation_...
void grad_base_value(const base_node &, base_tensor &) const
Give the value of all gradients (on ref.
virtual size_type nb_dof(size_type cv) const
Number of degrees of freedom.
virtual void update_from_context(void) const
this function has to be defined and should update the object when the context is modified.
virtual const bgeot::convex< base_node > & node_convex(size_type cv) const
Gives the convex representing the nodes on the reference element.
void hess_base_value(const base_node &, base_tensor &) const
Give the value of all hessians (on ref.
void base_value(const base_node &, base_tensor &) const
Give the value of all components of the base functions at the point x of the reference element.
void gauss_pts_stats(unsigned &ming, unsigned &maxg, scalar_type &meang) const
return the min/max/mean number of gauss points in the convexes of the interpolated mesh_fem
void real_hess_base_value(const fem_interpolation_context &, base_tensor &, bool=true) const
Give the hessian of all components of the base functions at the current point of the fem_interpolatio...
dal::bit_vector interpolated_convexes() const
return the list of convexes of the interpolated mesh_fem which contain at least one gauss point (shou...
virtual bgeot::pconvex_ref ref_convex(size_type cv) const
Return the convex of the reference element.
Describe a finite element method linked to a mesh.
Describe an integration method linked to a mesh.
Base class for finite element description.
Definition: getfem_fem.h:256
Definition of the finite element methods.
Define the getfem::mesh_fem class.
Define the getfem::mesh_im class (integration of getfem::mesh_fem).
std::shared_ptr< const getfem::virtual_fem > pfem
type of pointer on a fem description
Definition: getfem_fem.h:244
size_t size_type
used as the common size type in the library
Definition: bgeot_poly.h:49
void del_stored_object(const pstatic_stored_object &o, bool ignore_unstored)
Delete an object and the object which depend on it.
GEneric Tool for Finite Element Methods.
void del_interpolated_fem(const pfem &pf)
release an interpolated fem
pfem new_interpolated_fem(const mesh_fem &mef, const mesh_im &mim, pinterpolated_func pif=0, dal::bit_vector blocked_dof=dal::bit_vector(), bool store_val=true)
create a new interpolated FEM.