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mixed_mesh_intersections.cc
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1 /*
2  * MixedMeshIntersections.cpp
3  *
4  * Created on: 13.4.2014
5  * Author: viktor, pe, jb
6  */
7 
10 #include "intersection_aux.hh"
11 #include "intersection_local.hh"
12 
13 #include "system/global_defs.h"
14 #include "system/sys_profiler.hh"
15 
16 #include "mesh/mesh.h"
17 #include "mesh/ref_element.hh"
19 #include "mesh/bih_tree.hh"
20 #include "mesh/accessors.hh"
21 #include "mesh/node_accessor.hh"
22 #include "mesh/range_wrapper.hh"
23 
24 
26 : mesh(mesh), algorithm13_(mesh), algorithm23_(mesh), algorithm22_(mesh), algorithm12_(mesh)
27 {}
28 
30 {}
31 
32 
33 unsigned int MixedMeshIntersections::number_of_components(unsigned int dim)
34 {
35  ASSERT_EQ(dim, 2).error("Not implemented for given dim.\n");
36 // if(dim == 1) return algorithm13_.component_counter_;
37  return algorithm22_.component_counter_; // if(dim == 2) return ...
38 }
39 
40 
42 {
43  double subtotal = 0.0;
44 
45  for(unsigned int i = 0; i < intersection_storage13_.size(); i++){
46  ElementAccessor<3> ele = mesh->element_accessor( intersection_storage13_[i].component_ele_idx() );
47  double t1d_length = ele.measure();
48  double local_length = intersection_storage13_[i].compute_measure();
49 
50  if(intersection_storage13_[i].size() == 2)
51  {
52  arma::vec3 from = intersection_storage13_[i][0].coords(ele);
53  arma::vec3 to = intersection_storage13_[i][1].coords(ele);
54 // DebugOut().fmt("sublength from [{} {} {}] to [{} {} {}] = %f\n",
55 // from[0], from[1], from[2],
56 // to[0], to[1], to[2],
57 // local_length*t1d_length);
58  }
59  subtotal += local_length*t1d_length;
60  }
61  return subtotal;
62 }
63 
64 
66 {
67  double subtotal = 0.0;
68 
69  for(unsigned int i = 0; i < intersection_storage23_.size(); i++){
70  double t2dArea = mesh->element_accessor( intersection_storage23_[i].component_ele_idx() ).measure();
71  double localArea = intersection_storage23_[i].compute_measure();
72  subtotal += 2*localArea*t2dArea;
73  }
74  return subtotal;
75 }
76 
77 
79 {
80  double subtotal = 0.0;
81  double val;
82 
83  for(unsigned int i = 0; i < intersection_storage22_.size(); i++){
84  if(intersection_storage22_[i].size() > 1)
85  {
86  ElementAccessor<3> eleA = mesh->element_accessor( intersection_storage22_[i].component_ele_idx() );
87 // ElementAccessor<3> eleB = mesh->element_accessor( intersection_storage22_[i].bulk_ele_idx() );
88 
89  arma::vec3 from = intersection_storage22_[i][0].coords(eleA);
90  arma::vec3 to = intersection_storage22_[i][1].coords(eleA);
91  val = arma::norm(from - to, 2);
92 
93 // DebugOut().fmt("{}--{}:sublength from [{} {} {}] to [{} {} {}] = {}\n",
94 // eleA.idx(), eleB.idx(),
95 // from[0], from[1], from[2],
96 // to[0], to[1], to[2],
97 // val);
98  subtotal += val;
99  }
100  }
101  return subtotal;
102 }
103 
104 
105 template<uint dim_A, uint dim_B>
107  //unsigned int ele_a_idx = isec_aux.component_ele_idx();
108  //unsigned int ele_b_idx = isec_aux.bulk_ele_idx();
109 
110  //WARNING:
111  // - not all algorithms uses this function (e.g. 2d2d pushes directly into storage)
112  // - we cannot throw away isec of zero measure generaly (e.g. 1d2d, 1d3d)
113  // - is it not better to test number of IPs according to dimensions?
114 
115  IntersectionLocal<dim_A, dim_B> isec(isec_aux);
116  //if ( (! (dim_A==1 && dim_B==2)) && isec.compute_measure() < 1e-14) return;
117 
118  storage.push_back(isec);
119  /*
120  element_intersections_[ele_a_idx].push_back(
121  std::make_pair(ele_b_idx, &(storage.back())) );
122 
123  element_intersections_[ele_b_idx].push_back(
124  std::make_pair(ele_a_idx, &(storage.back())) );
125  */
126 
127 }
128 
129 template<uint dim_A, uint dim_B>
131 {
132  for(auto &isec : storage) {
133 
134  unsigned int ele_a_idx = isec.component_ele_idx();
135  unsigned int ele_b_idx = isec.bulk_ele_idx();
136  ASSERT_EQ(mesh->element_accessor(ele_a_idx)->dim(), dim_A)(ele_a_idx);
137  ASSERT_EQ(mesh->element_accessor(ele_b_idx)->dim(), dim_B)(ele_b_idx);
138  element_intersections_[ele_a_idx].push_back(
139  std::make_pair(ele_b_idx, &(isec)) );
140 
141 
142  if (dim_B==3) {
143  // necessary for 2d-2d intersections
144  element_intersections_[ele_b_idx].push_back(
145  std::make_pair(ele_a_idx, &(isec)) );
146 
147  }
148 /*
149  element_intersections_[ele_b_idx].push_back(
150  std::make_pair(ele_a_idx, &(isec)) );*/
151  }
152 }
153 
154 
155 template<unsigned int dim>
158 {
159  START_TIMER("Intersection algorithm");
160 
162  switch(is){
165  case Mesh::BBsearch: iea.compute_intersections_BB(); break;
166  default: ASSERT_PERMANENT(0).error("Unsupported search algorithm.");
167  }
168 
169  END_TIMER("Intersection algorithm");
170 
171  START_TIMER("Intersection into storage");
172  storage.reserve(iea.n_intersections_);
173 
174  for (auto elm : mesh->elements_range()) {
175  unsigned int idx = elm.idx();
176 
177  if(elm->dim() == dim)
178  {
179 // intersection_map_[idx].resize(iea.intersection_list_[idx].size());
180  element_intersections_[idx].reserve(iea.intersection_list_[idx].size());
181  for(unsigned int j = 0; j < iea.intersection_list_[idx].size(); j++){
182 
183  // skip zero intersections (are made in iea.prolongate())
184  if(iea.intersection_list_[idx][j].size() == 0) continue;
185  store_intersection(storage, iea.intersection_list_[idx][j]); }
186  }
187  }
188  END_TIMER("Intersection into storage");
189 
190 // for(IntersectionLocal<2,3> &is : intersection_storage23_) {
191 // DebugOut().fmt("comp-bulk: {} {}\n", is.component_ele_idx(), is.bulk_ele_idx());
192 // }
193 }
194 
196 {
197  START_TIMER("Intersection algorithm");
199  END_TIMER("Intersection algorithm");
200 
201 // START_TIMER("Intersection into storage");
202 //
203 // storage.reserve(algorithm22_.intersectionaux_storage22_.size());
204 //
205 // for(IntersectionAux<2,2> &is : algorithm22_.intersectionaux_storage22_) {
206 // unsigned int triaA_idx = is.component_ele_idx();
207 // unsigned int triaB_idx = is.bulk_ele_idx();
208 //
209 // //HACK: 'skip flag' move this check into algorithm12_.compute_intersections()
210 // bool skip = false;
211 // for(unsigned int i=0; i<element_intersections_[triaA_idx].size(); i++)
212 // {
213 // if(element_intersections_[triaA_idx][i].first == triaB_idx)
214 // skip = true;
215 // }
216 // if(! skip) {
217 // storage.push_back(IntersectionLocal<2,2>(is));
218 // element_intersections_[triaA_idx].push_back(std::make_pair(
219 // triaB_idx,
220 // &(storage.back())
221 // ));
222 // element_intersections_[triaB_idx].push_back(std::make_pair(
223 // triaA_idx,
224 // &(storage.back())
225 // ));
226 //
227 // // DebugOut().fmt("2D-2D intersection [{} - {}]:\n",
228 // // mesh->element_accessor(is.component_ele_idx()).idx(),
229 // // mesh->element_accessor(is.bulk_ele_idx()).idx());
230 // // for(const IntersectionPointAux<2,2>& ip : is.points()) {
231 // // DebugOut() << ip;
232 // // auto p = ip.coords(mesh->element(is.component_ele_idx()));
233 // // DebugOut() << "[" << p[0] << " " << p[1] << " " << p[2] << "]\n";
234 // // }
235 // }
236 // }
237 // DBGVAR(algorithm22_.intersectionaux_storage22_.size());
238 //
239 // END_TIMER("Intersection into storage");
240 }
241 
243 {
244  storage.reserve(intersection_storage13_.size());
246  storage.shrink_to_fit();
247 
248 // START_TIMER("Intersection into storage");
249 // storage.reserve(algorithm12_.intersectionaux_storage12_.size());
250 
251 // for(IntersectionAux<1,2> &is : algorithm12_.intersectionaux_storage12_) {
252 // unsigned int abscissa_idx = is.component_ele_idx();
253 // unsigned int triangle_idx = is.bulk_ele_idx();
254 //
255 // //HACK: 'skip flag' move this check into algorithm12_.compute_intersections()
256 // bool skip = false;
257 // for(unsigned int i=0; i<intersection_map_[abscissa_idx].size(); i++)
258 // {
259 // if(intersection_map_[abscissa_idx][i].first == triangle_idx)
260 // skip = true;
261 // }
262 // if(! skip) {
263 // storage.push_back(IntersectionLocal<1,2>(is));
264 // intersection_map_[abscissa_idx].push_back(std::make_pair(
265 // triangle_idx,
266 // &(storage.back())
267 // ));
268 // intersection_map_[triangle_idx].push_back(std::make_pair(
269 // abscissa_idx,
270 // &(storage.back())
271 // ));
272 // DebugOut().fmt("1D-2D intersection [{} - {}]:\n",is.component_ele_idx(), is.bulk_ele_idx());
273 // for(const IntersectionPointAux<1,2>& ip : is.points()) {
274 // //DebugOut() << ip;
275 // auto p = ip.coords(mesh->element(is.component_ele_idx()));
276 // DebugOut() << "[" << p[0] << " " << p[1] << " " << p[2] << "]\n";
277 // }
278 // }
279 // }
280 // END_TIMER("Intersection into storage");
281 }
282 
284 {
286 // DBGVAR(algorithm12_.intersectionaux_storage12_.size());
287 
288  START_TIMER("Intersection into storage");
289  storage.reserve(algorithm12_.intersectionaux_storage12_.size());
290 
292  store_intersection(storage, is);
293 // DebugOut().fmt("1D-2D intersection [{} - {}]:\n",is.component_ele_idx(), is.bulk_ele_idx());
294 // for(const IntersectionPointAux<1,2>& ip : is.points()) {
295 // //DebugOut() << ip;
296 // auto p = ip.coords(mesh->element(is.component_ele_idx()));
297 // DebugOut() << "[" << p[0] << " " << p[1] << " " << p[2] << "]\n";
298 // }
299  }
300  END_TIMER("Intersection into storage");
301 }
302 
304 {
306 // DBGVAR(algorithm12_.intersectionaux_storage12_.size());
307 
308  START_TIMER("Intersection into storage");
309  storage.reserve(algorithm12_.intersectionaux_storage12_.size());
310 
312  store_intersection(storage, is);
313 // DebugOut().fmt("1D-2D intersection [{} - {}]:\n",is.component_ele_idx(), is.bulk_ele_idx());
314 // for(const IntersectionPointAux<1,2>& ip : is.points()) {
315 // //DebugOut() << ip;
316 // auto p = ip.coords(mesh->element(is.component_ele_idx()));
317 // DebugOut() << "[" << p[0] << " " << p[1] << " " << p[2] << "]\n";
318 // }
319  }
320  END_TIMER("Intersection into storage");
321 }
322 
324 {
326 
327  // check whether the mesh is in plane only
328  bool mesh_in_2d_only = false;
329  auto bb = mesh->get_bih_tree().tree_box();
330  for(uint axis = 0; axis < bb.dimension; axis++)
331  if(bb.size(axis) < geometry_epsilon) mesh_in_2d_only = true;
332 
334  START_TIMER("Intersections 1D-3D");
335 // DebugOut() << "Intersection Algorithm d13\n";
336  compute_intersections<1>(algorithm13_,intersection_storage13_);
337  END_TIMER("Intersections 1D-3D");
338  }
340 
341 
343  START_TIMER("Intersections 2D-3D");
344 // DebugOut() << "Intersection Algorithm d23\n";
345  compute_intersections<2>(algorithm23_,intersection_storage23_);
346  END_TIMER("Intersections 2D-3D");
347  }
349 
350 
351  if(d & IntersectionType::d22){
352  START_TIMER("Intersections 2D-2D");
353 // DebugOut() << "Intersection Algorithm d22\n";
355  END_TIMER("Intersections 2D-2D");
356  }
357 
358  if( mesh_in_2d_only){
359  START_TIMER("Intersections 1D-2D (1)");
361  END_TIMER("Intersections 1D-2D (1)");
362  }
363  // make sence only if some intersections in 3D are computed
364  // TODO: this does NOT compute 1d-2d outside 3d bulk
365  // NOTE: create input record in mesh to decide, whether compute also outside (means to call alg. 2)
366  else if( ! intersection_storage13_.empty() &&
367  ! intersection_storage23_.empty() &&
369  START_TIMER("Intersections 1D-2D (3)");
370  DebugOut() << "Intersection Algorithm d12_3\n";
372  END_TIMER("Intersections 1D-2D (3)");
373  }
374  // otherwise compute 1d-2d in the most general case
375  else if(d & IntersectionType::d12_2){
376  START_TIMER("Intersections 1D-2D (2)");
377  DebugOut() << "Intersection Algorithm d12_2\n";
379  END_TIMER("Intersections 1D-2D (2)");
380  }
381 
382  //ASSERT_PERMANENT_EQ(intersection_storage13_.size(), 0);
383  //ASSERT_PERMANENT_EQ(intersection_storage23_.size(), 0);
384  //ASSERT_PERMANENT_EQ(intersection_storage22_.size(), 0);
385  // compose master
387 
388  // release temporary links from 3d elements
389  for (auto elm : mesh->elements_range()) {
390  if(elm->dim() == 3) element_intersections_[elm.idx()].clear();
391  }
392 
393 
394 
395 }
396 
397 
398 
399 
401 {
402  string t_name = name;
403 
404  unsigned int number_of_intersection_points = 0;
405  unsigned int number_of_nodes = mesh->n_nodes();
406 
407  for(unsigned int j = 0; j < intersection_storage13_.size();j++){
408  number_of_intersection_points += intersection_storage13_[j].size();
409  }
410 
411  FILE * file;
412  file = fopen((t_name.append(".msh")).c_str(),"w");
413 
414  fprintf(file, "$MeshFormat\n");
415  fprintf(file, "2.2 0 8\n");
416  fprintf(file, "$EndMeshFormat\n");
417  fprintf(file, "$Nodes\n");
418  fprintf(file, "%d\n", (mesh->n_nodes() + number_of_intersection_points));
419 
420  unsigned int idx = 1;
421  for (auto nod : mesh->node_range()) {
422  arma::vec3 _nod = *nod;
423  fprintf(file,"%d %.16f %.16f %.16f\n", idx, _nod[0], _nod[1], _nod[2]);
424  idx++;
425  }
426 
427  for(unsigned int j = 0; j < intersection_storage13_.size();j++){
430 // ElementAccessor<3> el3D = mesh->element_accessor( il.bulk_ele_idx() );
431 
432  for(unsigned int k = 0; k < il.size();k++){
433  number_of_nodes++;
434  IntersectionPoint<1,3> IP13 = il[k];
435  arma::vec3 global = IP13.coords(el1D);
436 
437 // if(i == 0){
438 // _global = (IP13.local_bcoords_A())[0] * el1D.node(0)->point()
439 // +(IP13.local_bcoords_A())[1] * el1D.node(1)->point();
440 // }else{
441 // _global = (IP13.local_bcoords_B())[0] * el3D.node(0)->point()
442 // +(IP13.local_bcoords_B())[1] * el3D.node(1)->point()
443 // +(IP13.local_bcoords_B())[2] * el3D.node(2)->point()
444 // +(IP13.local_bcoords_B())[3] * el3D.node(3)->point();
445 // }
446 
447  fprintf(file,"%d %.16f %.16f %.16f\n", number_of_nodes, global[0], global[1], global[2]);
448  }
449  }
450 
451  fprintf(file,"$EndNodes\n");
452  fprintf(file,"$Elements\n");
453  fprintf(file,"%d\n", ((unsigned int)intersection_storage13_.size() + mesh->n_elements()) );
454 
455  for (auto elee : mesh->elements_range()) {
456  if(elee->dim() == 3){
457  int id1 = elee.node(0).idx() + 1;
458  int id2 = elee.node(1).idx() + 1;
459  int id3 = elee.node(2).idx() + 1;
460  int id4 = elee.node(3).idx() + 1;
461 
462  fprintf(file,"%d 4 2 %d %d %d %d %d %d\n", elee.idx(), elee.region().id(), elee->pid(), id1, id2, id3, id4);
463  }else if(elee->dim() == 2){
464  int id1 = elee.node(0).idx() + 1;
465  int id2 = elee.node(1).idx() + 1;
466  int id3 = elee.node(2).idx() + 1;
467  fprintf(file,"%d 2 2 %d %d %d %d %d\n", elee.idx(), elee.region().id(), elee->pid(), id1, id2, id3);
468 
469  }else if(elee->dim() == 1){
470  int id1 = elee.node(0).idx() + 1;
471  int id2 = elee.node(1).idx() + 1;
472  fprintf(file,"%d 1 2 %d %d %d %d\n",elee.idx(), elee.region().id(), elee->pid(), id1, id2);
473  }
474  }
475 
476  unsigned int number_of_elements = mesh->n_elements();
477  unsigned int nodes = mesh->n_nodes();
478 
479  for(unsigned int j = 0; j < intersection_storage13_.size();j++){
481  number_of_elements++;
482  nodes++;
483  if(il.size() == 1){
484  fprintf(file,"%d 1 2 1001 0 %d %d\n", number_of_elements, nodes, nodes);
485  }else if(il.size() == 2){
486  fprintf(file,"%d 1 2 1001 0 %d %d\n", number_of_elements, nodes, nodes+1);
487  nodes++;
488  }
489  }
490 
491  fprintf(file,"$EndElements\n");
492  fclose(file);
493 }
494 
496 {
497  //for(unsigned int i = 0; i < 2;i++){
498  string t_name = name;
499 
500  unsigned int number_of_intersection_points = 0;
501  unsigned int number_of_nodes = mesh->n_nodes();
502 
503  for(unsigned int j = 0; j < intersection_storage23_.size();j++){
504  number_of_intersection_points += intersection_storage23_[j].size();
505  }
506 
507  FILE * file;
508  file = fopen((t_name.append(".msh")).c_str(),"w");
509 
510  fprintf(file, "$MeshFormat\n");
511  fprintf(file, "2.2 0 8\n");
512  fprintf(file, "$EndMeshFormat\n");
513  fprintf(file, "$Nodes\n");
514  fprintf(file, "%d\n", (mesh->n_nodes() + number_of_intersection_points));
515 
516  unsigned int idx = 1;
517  for (auto nod : mesh->node_range()) {
518  arma::vec3 _nod = *nod;
519  fprintf(file,"%d %.16f %.16f %.16f\n", idx, _nod[0], _nod[1], _nod[2]);
520  idx++;
521  }
522 
523  for(unsigned int j = 0; j < intersection_storage23_.size();j++){
524 
527 // ElementAccessor<3> el3D = mesh->element_accessor( il.bulk_ele_idx() );
528 
529  for(unsigned int k = 0; k < intersection_storage23_[j].size();k++){
530 
531  number_of_nodes++;
532  IntersectionPoint<2,3> IP23 = il[k];
533  arma::vec3 global = IP23.coords(el2D);
534 // if(i == 0){
535 // _global = (IP23.local_bcoords_A())[0] * el2D.node(0)->point()
536 // +(IP23.local_bcoords_A())[1] * el2D.node(1)->point()
537 // +(IP23.local_bcoords_A())[2] * el2D.node(2)->point();
538 // }else{
539 // _global = (IP23.local_bcoords_B())[0] * el3D.node(0)->point()
540 // +(IP23.local_bcoords_B())[1] * el3D.node(1)->point()
541 // +(IP23.local_bcoords_B())[2] * el3D.node(2)->point()
542 // +(IP23.local_bcoords_B())[3] * el3D.node(3)->point();
543 // }
544  fprintf(file,"%d %.16f %.16f %.16f\n", number_of_nodes, global[0], global[1], global[2]);
545  }
546  }
547 
548  fprintf(file,"$EndNodes\n");
549  fprintf(file,"$Elements\n");
550  fprintf(file,"%d\n", (number_of_intersection_points + mesh->n_elements()) );
551 
552  for (auto elee : mesh->elements_range()) {
553  if(elee->dim() == 3){
554  int id1 = elee.node(0).idx() + 1;
555  int id2 = elee.node(1).idx() + 1;
556  int id3 = elee.node(2).idx() + 1;
557  int id4 = elee.node(3).idx() + 1;
558 
559  fprintf(file,"%d 4 2 %d %d %d %d %d %d\n", elee.idx(), elee.region().id(), elee->pid(), id1, id2, id3, id4);
560  }else if(elee->dim() == 2){
561  int id1 = elee.node(0).idx() + 1;
562  int id2 = elee.node(1).idx() + 1;
563  int id3 = elee.node(2).idx() + 1;
564  fprintf(file,"%d 2 2 %d %d %d %d %d\n", elee.idx(), elee.region().id(), elee->pid(), id1, id2, id3);
565 
566  }else{
567  int id1 = elee.node(0).idx() + 1;
568  int id2 = elee.node(1).idx() + 1;
569  fprintf(file,"%d 1 2 %d %d %d %d\n",elee.idx(), elee.region().id(), elee->pid(), id1, id2);
570  }
571  }
572 
573  unsigned int number_of_elements = mesh->n_elements();
574  unsigned int last = 0;
575  unsigned int nodes = mesh->n_nodes();
576 
577  for(unsigned int j = 0; j < intersection_storage23_.size();j++){
579 
580  for(unsigned int k = 0; k < il.size();k++){
581 
582  number_of_elements++;
583  nodes++;
584  if(k == 0){
585  last = nodes;
586  }
587 
588  if((k+1) == il.size() && il.size()){
589  fprintf(file,"%d 1 2 1002 0 %d %d\n", number_of_elements, nodes, last);
590  }else{
591  fprintf(file,"%d 1 2 1002 0 %d %d\n", number_of_elements, nodes, nodes+1);
592  }
593  //if(il.size() < 3) break;
594  }
595  }
596 
597  fprintf(file,"$EndElements\n");
598  fclose(file);
599  //}
600 }
601 
602 
#define ASSERT_PERMANENT(expr)
Allow use shorter versions of macro names if these names is not used with external library.
Definition: asserts.hh:348
#define ASSERT_EQ(a, b)
Definition of comparative assert macro (EQual) only for debug mode.
Definition: asserts.hh:333
const BoundingBox & tree_box() const
Definition: bih_tree.cc:229
double measure() const
Computes the measure of the element.
unsigned int dim() const
Definition: elements.h:120
void compute_intersections_3(std::vector< std::vector< ILpair >> &intersection_map, std::vector< IntersectionLocal< 1, 2 >> &storage)
Runs the algorithm (3): compute 1D-2D intersection inside 3D mesh. It directly fills the intersection...
void compute_intersections_1(const BIHTree &bih)
Runs the algorithm (1): compute 1D-2D intersection in 2D plane. BIH is used to find intersection cand...
std::vector< IntersectionAux< 1, 2 > > intersectionaux_storage12_
Stores temporarily 1D-2D intersections.
void compute_intersections_2(const BIHTree &bih)
Runs the algorithm (2): compute 1D-2D intersection in 3D ambient space BIH is used to find intersecti...
void compute_intersections(std::vector< std::vector< ILpair >> &intersection_map, std::vector< IntersectionLocal< 2, 2 >> &storage)
Runs the core algorithm for computing 2D-2D intersection in 3D.
Class implements algorithm for dim-dimensional intersections with 3D elements.
void compute_intersections(const BIHTree &bih)
Uses BIHtree to find the initial candidate of a component and then prolongates the component interset...
unsigned int n_intersections_
Counter for intersection among elements.
std::vector< std::vector< IntersectionAux< dim, 3 > > > intersection_list_
Resulting vector of intersections.
void compute_intersections_BIHtree(const BIHTree &bih)
Uses only BIHtree to find intersection candidates. (No prolongation).
Internal auxiliary class representing intersection object of simplex<dimA> and simplex<dimB>.
unsigned int component_ele_idx() const
Returns index of component element.
Class represents intersection of two elements.
unsigned int size() const
Returns number of intersection points.
Class represents an intersection point of simplex<N> and simplex<M>. It contains barycentric coordina...
arma::vec3 coords(ElementAccessor< 3 > comp_ele) const
unsigned int n_nodes() const
Definition: mesh.h:171
unsigned int n_elements() const
Definition: mesh.h:111
Range< ElementAccessor< 3 > > elements_range() const
Returns range of mesh elements.
Definition: mesh.cc:1174
Range< NodeAccessor< 3 > > node_range() const
Returns range of nodes.
Definition: mesh.cc:1180
ElementAccessor< 3 > element_accessor(unsigned int idx) const
Create and return ElementAccessor to element of given idx.
Definition: mesh.cc:866
Definition: mesh.h:362
IntersectionSearch get_intersection_search()
Getter for input type selection for intersection search algorithm.
Definition: mesh.cc:275
const BIHTree & get_bih_tree()
Getter for BIH. Creates and compute BIH at first call.
Definition: mesh.cc:1068
IntersectionSearch
Types of search algorithm for finding intersection candidates.
Definition: mesh.h:395
@ BIHsearch
Definition: mesh.h:396
@ BBsearch
Definition: mesh.h:398
@ BIHonly
Definition: mesh.h:397
void print_mesh_to_file_23(std::string name)
void compute_intersections(IntersectionType d=IntersectionType::all)
InspectElementsAlgorithm12 algorithm12_
double measure_13()
Computes the size of the intersection in dim dimenstions.
void compute_intersections_12_3(std::vector< IntersectionLocal< 1, 2 >> &storage)
void append_to_index(std::vector< IntersectionLocal< dim_A, dim_B >> &storage)
void print_mesh_to_file_13(std::string name)
Generates a mesh file of the given name, including the intersection.
std::vector< IntersectionLocal< 1, 3 > > intersection_storage13_
Stores 1D-3D intersections.
unsigned int number_of_components(unsigned int dim)
InspectElementsAlgorithm22 algorithm22_
InspectElementsAlgorithm< 2 > algorithm23_
void compute_intersections_12_1(std::vector< IntersectionLocal< 1, 2 >> &storage)
std::vector< std::vector< ILpair > > element_intersections_
InspectElementsAlgorithm< 1 > algorithm13_
std::vector< IntersectionLocal< 2, 2 > > intersection_storage22_
Stores 2D-2D intersections.
std::vector< IntersectionLocal< 2, 3 > > intersection_storage23_
Stores 2D-3D intersections.
std::vector< IntersectionLocal< 1, 2 > > intersection_storage12_
Stores 1D-2D intersections.
void store_intersection(std::vector< IntersectionLocal< dim_A, dim_B >> &storage, IntersectionAux< dim_A, dim_B > &isec_aux)
void compute_intersections_22(std::vector< IntersectionLocal< 2, 2 >> &storage)
void compute_intersections_12_2(std::vector< IntersectionLocal< 1, 2 >> &storage)
Global macros to enhance readability and debugging, general constants.
Internal class representing intersection object.
Classes with algorithms for computation of intersections of meshes.
Internal class representing intersection point.
static const double geometry_epsilon
#define DebugOut()
Macro defining 'debug' record of log.
Definition: logger.hh:284
unsigned int uint
IntersectionType
Selection of intersections of different dimensions.
FMT_FUNC int fprintf(std::ostream &os, CStringRef format, ArgList args)
Definition: ostream.cc:56
Implementation of range helper class.
Class RefElement defines numbering of vertices, sides, calculation of normal vectors etc.
#define END_TIMER(tag)
Ends a timer with specified tag.
#define START_TIMER(tag)
Starts a timer with specified tag.