Flow123d
JS_before_hm-1884-g94bc49f8c
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22 #include <unordered_map>
68 "Use BIH for finding initial candidates, then continue by prolongation.")
70 "Use BIH for finding all candidates.")
72 "Use bounding boxes for finding initial candidates, then continue by prolongation.")
77 return IT::Record(
"Mesh",
"Record with mesh related data." )
80 "Input file with mesh description.")
82 "List of additional region and region set definitions not contained in the mesh. "
83 "There are three region sets implicitly defined:\n\n"
84 "- ALL (all regions of the mesh)\n"
85 "- .BOUNDARY (all boundary regions)\n"
86 "- BULK (all bulk regions)")
90 IT::Default(
"\"BIHsearch\""),
"Search algorithm for element intersections.")
92 "Maximal snapping distance from the mesh in various search operations. In particular, it is used "
93 "to find the closest mesh element of an observe point; and in FieldFormula to find closest surface "
94 "element in plan view (Z projection).")
96 "Output file with neighboring data from mesh.")
98 "This will speed up the calculations. GMSH output preserves original ordering but is slower. All variants of VTK output use the permuted.")
110 node_4_loc_(nullptr),
120 optimize_memory_locality(true),
121 in_record_(in_record),
128 node_4_loc_(nullptr),
139 optimize_memory_locality(other.optimize_memory_locality),
140 in_record_(other.in_record_),
147 node_4_loc_(nullptr),
166 istringstream is(
"{mesh_file=\"\", optimize_mesh=false}");
193 for(
int dim=0; dim < 3; dim++) {
195 for(
int i_side=0; i_side < dim+2; i_side++)
199 for (
unsigned int sid=0; sid<RefElement<1>::n_sides; sid++)
200 for (
unsigned int nid=0; nid<RefElement<1>::n_nodes_per_side; nid++)
203 for (
unsigned int sid=0; sid<RefElement<2>::n_sides; sid++)
204 for (
unsigned int nid=0; nid<RefElement<2>::n_nodes_per_side; nid++)
207 for (
unsigned int sid=0; sid<RefElement<3>::n_sides; sid++)
208 for (
unsigned int nid=0; nid<RefElement<3>::n_nodes_per_side; nid++)
215 if (edg.side_)
delete[] edg.side_;
217 for (
unsigned int idx=0; idx <
bulk_size_; idx++) {
253 unsigned int li, count = 0;
255 for (li=0; li<ele->n_nodes(); li++) {
265 return Edge(
this, edge_idx);
289 std::string reg_name =
"UndefinedRegion";
292 dim_to_check = ele.
dim();
296 for (
auto elem_to_region :
map) {
299 if( ele.
dim() != dim_to_check){
300 THROW(ExcRegionElmDiffDim() << EI_Region(reg_name) << EI_RegIdx(elem_to_region.second) << EI_Dim(dim_to_check)
301 << EI_DimOther(ele.
dim()) << EI_ElemId(elem_to_region.first) );
316 double quality = ele.quality_measure_smooth();
322 if (quality < 4*std::numeric_limits<double>::epsilon())
323 THROW( ExcBadElement() << EI_Quality(quality) << EI_ElemId(ele.idx()) );
325 WarningOut().fmt(
"Bad quality element ID={}, ({}<0.001).\n", ele.idx(), quality);
328 for (
uint ele_node=0; ele_node<ele->n_nodes(); ele_node++) {
329 uint inode = ele->node_idx(ele_node);
330 nodes_new_idx[inode] = inode;
340 for(
uint inode = 0; inode < nodes_new_idx.size(); inode++) {
342 WarningOut().fmt(
"A node {} does not belong to any element "
343 " and will be removed.",
348 nodes_new_idx[inode] = inode_new;
358 uint n_nodes_new = inode_new;
361 if(n_nodes_new < nodes_new_idx.size()){
363 DebugOut() <<
"Updating node-element numbering due to unused nodes: "
372 for (
uint ele_node=0; ele_node<ele->n_nodes(); ele_node++) {
373 uint inode_orig = ele->node_idx(ele_node);
374 uint inode = nodes_new_idx[inode_orig];
376 const_cast<Element*
>(ele.element())->
nodes_[ele_node] = inode;
424 id_4_old[i++] = ele.idx();
491 for (
unsigned int n=0; n<ele->n_nodes(); n++)
495 stable_sort(n->begin(), n->end());
505 if (nodes_list.size() == 0) {
506 intersection_element_list.clear();
507 }
else if (nodes_list.size() == 1) {
514 it1=set_intersection(
517 intersection_element_list.begin());
518 intersection_element_list.resize(it1-intersection_element_list.begin());
520 for(;it2<nodes_list.end();++it2) {
521 it1=set_intersection(
522 intersection_element_list.begin(), intersection_element_list.end(),
524 intersection_element_list.begin());
525 intersection_element_list.resize(it1-intersection_element_list.begin());
532 bool is_neighbour =
false;
543 if (is_neighbour)
THROW(ExcTooMatchingIds() << EI_ElemId(this->
elem_index(*ele)) << EI_ElemIdOther(this->
elem_index(element_idx)) );
549 element_list.resize( e_dest - element_list.begin());
558 return ( ni == si->
n_nodes() );
573 .error(
"Temporary structure of boundary element data is not empty. Did you call create_boundary_elements?");
577 unsigned int ngh_element_idx;
580 neighbour.
mesh_ =
this;
601 THROW( ExcBdrElemMatchRegular() << EI_ElemId(bc_ele.
idx()) << EI_ElemIdOther(this->
elem_index(ngh_element_idx)) );
603 if (intersection_list.size() == 0) {
605 WarningOut().fmt(
"Lonely boundary element, id: {}, region: {}, dimension {}.\n",
609 last_edge_idx=
edges.size();
610 edges.resize(last_edge_idx+1);
611 edg = &(
edges.back() );
613 edg->
side_ =
new struct SideIter[ intersection_list.size() ];
627 for (
unsigned int ecs=0; ecs<elem->
n_sides(); ecs++) {
633 int new_bc_ele_idx=i;
634 THROW( ExcDuplicateBoundary()
661 for (
unsigned int s=0; s<e->n_sides(); s++)
664 if (e->edge_idx(s) !=
undef_idx)
continue;
669 for (
unsigned n=0; n<e.side(s)->
n_nodes(); n++)
side_nodes[n] = e.side(s)->node(n).idx();
679 last_edge_idx=
edges.size();
680 edges.resize(last_edge_idx+1);
681 edg = &(
edges.back() );
683 edg->
side_ =
new struct SideIter[ intersection_list.size() ];
687 if (intersection_list.size() == 1) {
691 edg->
side_[0] = e.side(s);
694 if (e->boundary_idx_ == NULL) {
725 for (
unsigned int ecs=0; ecs<elem->
n_sides(); ecs++) {
731 last_edge_idx=
edges.size();
732 edges.resize(last_edge_idx+1);
733 edg = &(
edges.back() );
755 ASSERT_EQ( (
unsigned int) edg->
n_sides, intersection_list.size())(e.index())(s).error(
"Missing edge sides.");
773 ele->n_neighs_vb_ =0;
776 for (
auto & ngh : this->
vb_neighbours_) ngh.element()->n_neighs_vb_++;
780 if( ele->n_neighs_vb() > 0 ) {
781 ele->neigh_vb =
new struct Neighbour* [ele->n_neighs_vb()];
787 for (
auto & ngh : this->vb_neighbours_) {
809 intersections = std::make_shared<MixedMeshIntersections>(
this);
831 if (bulk_elements_id.size() ==0) {
836 map_it = bulk_elements_id.begin();
838 for(
unsigned int idx=0; idx <
n_elements(); idx++, ++map_it) {
840 last_id=*map_it = id;
842 std::sort(bulk_elements_id.begin(), bulk_elements_id.end());
845 map_it = boundary_elements_id.begin();
852 if (
id < 0) last_id=*map_it=-1;
854 if (last_id >=
id)
THROW( ExcElmWrongOrder() << EI_ElemId(
id) );
855 last_id=*map_it = id;
863 static const double point_tolerance = 1E-10;
864 return fabs(p1[0]-p2[0]) < point_tolerance
865 && fabs(p1[1]-p2[1]) < point_tolerance
866 && fabs(p1[2]-p2[2]) < point_tolerance;
878 std::shared_ptr<EquivalentMeshMap> map_ptr =
889 unsigned int i_node, i_elm_node;
900 for (i_node=0; i_node<ele->
n_nodes(); i_node++)
902 static const double point_tolerance = 1E-10;
903 if ( arma::norm(*ele.
node(i_node) - *nod, 1) < point_tolerance) {
904 i_elm_node = ele.
node(i_node).idx();
906 found_i_node = i_elm_node;
907 else if (found_i_node != i_elm_node) {
909 return std::make_shared<EquivalentMeshMap>();
916 node_ids[nod.idx()] = found_i_node;
918 searched_elements.clear();
922 unsigned int n_found = 0;
930 return std::make_shared<EquivalentMeshMap>();
949 unsigned int n_found = 0;
953 for (
unsigned int j=0; j<elm->n_nodes(); j++) {
954 if (node_ids[ elm->node_idx(j) ] ==
undef_idx)
956 node_list.push_back( node_ids[ elm->node_idx(j) ] );
961 for (
auto i_elm : candidate_list) {
963 result_list.push_back(i_elm);
967 if (result_list.size() == 1) {
968 map[result_list[0]] = elm.idx();
982 it != region_list.
end();
1021 bih_tree_ = std::make_shared<BIHTree>();
1045 void Mesh::add_element(
unsigned int elm_id,
unsigned int dim,
unsigned int region_id,
unsigned int partition_id,
1057 WarningOut().fmt(
"Bulk elements of zero size(dim=0) are not supported. Element ID: {}.\n", elm_id);
1062 this->
init_element(ele, elm_id, dim, region_idx, partition_id, node_ids);
1070 ele->
init(dim, region_idx);
1071 ele->
pid_ = partition_id;
1074 for (; ni<ele->
n_nodes(); ni++) {
1085 WarningOut().fmt(
"Tetrahedron element with id {} has wrong numbering or is degenerated (Jacobian = {}).",elm_id, jac);
1143 auto bgn_it = make_iter<Edge>(
Edge(
this, 0) );
1144 auto end_it = make_iter<Edge>(
Edge(
this,
edges.size()) );
1163 ofstream raw_ngh_output_file;
1167 MessageOut() <<
"Opening raw ngh output: " << raw_output_file_path <<
"\n";
1169 raw_output_file_path.
open_stream(raw_ngh_output_file);
1173 if (! raw_ngh_output_file.is_open())
return;
1176 raw_ngh_output_file <<
"// fields:\n//ele_id n_sides ns_side_neighbors[n] neighbors[n*ns] n_vb_neighbors vb_neighbors[n_vb]\n";
1182 unsigned int undefined_ele_id = -1;
1185 if(ele->n_neighs_vb() > 0){
1186 for (
unsigned int i = 0; i < ele->n_neighs_vb(); i++){
1189 auto search = neigh_vb_map.find(higher_ele.
idx());
1190 if(search != neigh_vb_map.end()){
1192 search->second[ele->neigh_vb[i]->side()->side_idx()] = ele.idx();
1197 higher_ele_side_ngh[ele->neigh_vb[i]->side()->side_idx()] = ele.idx();
1198 neigh_vb_map[higher_ele.
idx()] = higher_ele_side_ngh;
1205 raw_ngh_output_file << ele.idx() <<
" ";
1206 raw_ngh_output_file << ele->n_sides() <<
" ";
1208 auto search_neigh = neigh_vb_map.end();
1209 for (
unsigned int i = 0; i < ele->n_sides(); i++) {
1210 unsigned int n_side_neighs = ele.side(i)->edge().n_sides()-1;
1212 if(n_side_neighs == 0){
1214 if(search_neigh == neigh_vb_map.end())
1215 search_neigh = neigh_vb_map.find(ele.idx());
1217 if(search_neigh != neigh_vb_map.end())
1218 if(search_neigh->second[i] != undefined_ele_id)
1221 raw_ngh_output_file << n_side_neighs <<
" ";
1224 for (
unsigned int i = 0; i < ele->n_sides(); i++) {
1233 else if(search_neigh != neigh_vb_map.end()
1234 && search_neigh->second[i] != undefined_ele_id){
1235 raw_ngh_output_file << search_neigh->second[i] <<
" ";
1240 raw_ngh_output_file << ele->n_neighs_vb() <<
" ";
1241 for (
unsigned int i = 0; i < ele->n_neighs_vb(); i++)
1242 raw_ngh_output_file << ele->neigh_vb[i]->side()->element().idx() <<
" ";
1244 raw_ngh_output_file << endl;
1247 raw_ngh_output_file <<
"$EndFlowField\n" << endl;
1256 e_data.partition_id, e_data.node_ids);
1272 ASSERT_PTR(
el_4_loc).error(
"Array 'el_4_loc' is not initialized. Did you call Partitioning::id_maps?\n");
1274 unsigned int i_proc, i_node, i_ghost_node, elm_node;
1275 unsigned int my_proc =
el_ds->
myp();
1276 unsigned int n_proc =
el_ds->
np();
1284 i_proc = elm.proc();
1285 for (elm_node=0; elm_node<elm->n_nodes(); elm_node++) {
1286 i_node = elm->node_idx(elm_node);
1287 if (i_proc == my_proc) local_node_flag[i_node] =
true;
1288 if (i_proc < node_proc[i_node]) node_proc[i_node] = i_proc;
1294 for(
uint i_proc : node_proc) {
1295 if (i_proc == my_proc)
1297 else if (i_proc == n_proc)
1298 ASSERT(0)(
find_node_id(n_own_nodes)).error(
"A node does not belong to any element!");
1305 i_ghost_node = n_own_nodes;
1306 for (
unsigned int i=0; i<this->
n_nodes(); ++i) {
1307 if (local_node_flag[i]) {
1308 if (node_proc[i]==my_proc)
Edge edge() const
Returns pointer to the edge connected to the side.
void calculate_node_curve_values_as_hilbert()
unsigned int create_boundary_elements()
Create boundary elements from data of temporary structure, this method MUST be call after read mesh f...
unsigned int np() const
get num of processors
Class RefElement defines numbering of vertices, sides, calculation of normal vectors etc.
Armor::Array< double > nodes_
Mesh * mesh_
Pointer to Mesh to which belonged.
std::vector< int > sort_elements(std::vector< unsigned int > &elem_permutation)
std::string label() const
Returns label of the region (using RegionDB)
static const Input::Type::Selection & get_input_intersection_variant()
The definition of input record for selection of variant of file format.
std::vector< BoundingBox > get_element_boxes()
Compute bounding boxes of elements contained in mesh.
unsigned int edge_idx_
Index of Edge in Mesh.
LongIdx * node_4_loc_
Index set assigning to local node index its global index.
void init_element_vector(unsigned int size)
Initialize element_vec_, set size and reset counters of boundary and bulk elements.
unsigned int elem_idx_
Index of element in Mesh::element_vec_.
void init_element(Element *ele, unsigned int elm_id, unsigned int dim, RegionIdx region_idx, unsigned int partition_id, std::vector< unsigned int > node_ids)
Initialize element.
unsigned int myp() const
get my processor
static Input::Type::Abstract & get_input_type()
void calculate_element_curve_values_as_hilbert_of_centers()
#define ASSERT(expr)
Allow use shorter versions of macro names if these names is not used with external library.
virtual Range< ElementAccessor< 3 > > elements_range() const
Returns range of bulk elements.
unsigned int n_sides() const
virtual std::shared_ptr< EquivalentMeshMap > check_compatible_mesh(Mesh &input_mesh)
Support classes for parallel programing.
unsigned int n_sides() const
Returns number of sides aligned with the edge.
Main class for computation of intersection of meshes of combined dimensions.
bool compare_points(const arma::vec3 &p1, const arma::vec3 &p2)
unsigned int boundary_loaded_size_
Count of boundary elements loaded from mesh file.
ArmaVec< Type, nr > vec(uint mat_index) const
vector< Element > element_vec_
int pid_
Id # of mesh partition.
Dedicated class for storing path to input and output files.
bool is_valid() const
Returns false if the region has undefined/invalid value.
void sort_permuted_nodes_elements(std::vector< int > new_node_ids, std::vector< int > new_elem_ids)
Sort elements and nodes by order stored in permutation vectors.
void mark_used_region(unsigned int idx)
static const Input::Type::Record & get_input_type()
Class for O(log N) lookup for intersections with a set of bounding boxes.
#define THROW(whole_exception_expr)
Wrapper for throw. Saves the throwing point.
friend class RegionSetBase
unsigned int max_edge_sides_[3]
Maximal number of sides per one edge in the actual mesh (set in make_neighbours_and_edges()).
Class for the mesh partitioning. This should provide:
Region get_region(unsigned int id, unsigned int dim)
Range< NodeAccessor< 3 > > node_range() const
Returns range of nodes.
const LongIdx * get_loc_part() const
Boundary boundary(uint edge_idx) const
unsigned int idx() const
Returns a global index of the region.
unsigned int n_local_nodes_
Hold number of local nodes (own + ghost), value is equal with size of node_4_loc array.
std::string format(CStringRef format_str, ArgList args)
const Element * element() const
void open_stream(Stream &stream) const
void read_regions_from_input(Input::Array region_list)
std::string create_label_from_id(unsigned int id) const
MapElementIDToRegionID el_to_reg_map_
IntersectionSearch get_intersection_search()
Getter for input type selection for intersection search algorithm.
bool optimize_memory_locality
unsigned int n_vb_neighbours() const
virtual unsigned int n_elements() const
Returns count of boundary or bulk elements.
#define ASSERT_PTR_DBG(ptr)
Definition of assert macro checking non-null pointer (PTR) only for debug mode.
Distribution * el_ds
Parallel distribution of elements.
unsigned int id() const
Returns id of the region (using RegionDB)
void intersect_element_lists(vector< unsigned int > const &nodes_list, vector< unsigned int > &intersection_element_list)
static const unsigned int undefined_dim
std::vector< int > sort_nodes(std::vector< unsigned int > &node_permutation)
void output_internal_ngh_data()
Output of neighboring data into raw output.
virtual const LongIdx * get_local_part()
BidirectionalMap< int > node_ids_
Maps node ids to indexes into vector node_vec_.
BoundingBox bounding_box() const
void check_mesh_on_read()
void find_point(const Space< 3 >::Point &point, std::vector< unsigned int > &result_list, bool full_list=false) const
bool find_lower_dim_element(vector< unsigned int > &element_list, unsigned int dim, unsigned int &element_idx)
const BIHTree & get_bih_tree()
Getter for BIH. Creates and compute BIH at first call.
void distribute_nodes()
Fill array node_4_loc_ and create object node_ds_ according to element distribution.
SideIter side(const unsigned int i) const
Gets side iterator of the i -th side.
const unsigned int undef_idx
BCMesh * get_bc_mesh()
Create boundary mesh if doesn't exist and return it.
bool is_boundary() const
Returns true if it is a Boundary region and false if it is a Bulk region.
LongIdx * el_4_loc
Index set assigning to local element index its global index.
void elements_id_maps(vector< LongIdx > &bulk_elements_id, vector< LongIdx > &boundary_elements_id) const
unsigned int n_neighs_vb_
vector< vector< vector< unsigned int > > > side_nodes
std::vector< unsigned int > node_permutation_
Vector of node permutations of optimized mesh (see class MeshOptimizer)
const unsigned int * get_lsizes_array()
get local sizes array
ElementAccessor< 3 > element()
double jacobian_S3() const
IntersectionSearch
Types of search algorithm for finding intersection candidates.
int find_elem_id(unsigned int pos) const
Return element id (in GMSH file) of element of given position in element vector.
#define ASSERT_EQ(a, b)
Definition of comparative assert macro (EQual)
void init(unsigned int dim, RegionIdx reg)
Region find_id(unsigned int id, unsigned int dim) const
ElementAccessor< 3 > element() const
Returns iterator to the element of the side.
std::shared_ptr< BIHTree > bih_tree_
Distribution * node_ds_
Parallel distribution of nodes. Depends on elements distribution.
unsigned int n_nodes() const
Returns number of nodes of the side.
NodeAccessor< 3 > node(unsigned int ni) const
bool same_sides(const SideIter &si, vector< unsigned int > &side_nodes)
ArrayMatSet set(uint index)
void element_to_neigh_vb()
unsigned int node_idx(unsigned int ni) const
Return index (in Mesh::node_vec) of ni-th node.
void check_element_size(unsigned int elem_idx) const
Check if given index is in element_vec_.
void add_element(unsigned int elm_id, unsigned int dim, unsigned int region_id, unsigned int partition_id, std::vector< unsigned int > node_ids)
Add new element of given id to mesh.
unsigned int side_idx() const
Returns local index of the side on the element.
static const Input::Type::Record & get_input_type()
Region implicit_boundary_region()
virtual ~Mesh()
Destructor.
std::array< unsigned int, 4 > nodes_
indices to element's nodes
void create_node_element_lists()
unsigned int edge_idx(unsigned int edg_idx) const
Return edge_idx of given index.
int LongIdx
Define type that represents indices of large arrays (elements, nodes, dofs etc.)
Element * add_element_to_vector(int id)
Adds element to mesh data structures (element_vec_, element_ids_), returns pointer to this element.
void modify_element_ids(const RegionDB::MapElementIDToRegionID &map)
unsigned int n_sides() const
int elem_index(int elem_id) const
For element of given elem_id returns index in element_vec_ or (-1) if element doesn't exist.
std::vector< EdgeData > edges
Vector of MH edges, this should not be part of the geometrical mesh.
void make_neighbours_and_edges()
void clear()
Clear the content. Do not release memory.
void init_node_vector(unsigned int size)
Initialize node_vec_, set size.
std::vector< unsigned int > elem_permutation_
Vector of element permutations of optimized mesh (see class MeshOptimizer)
#define WarningOut()
Macro defining 'warning' record of log.
void append(const ArmaMat< Type, nr, nc > &item)
int node_index(int node_id) const
For node of given node_id returns index in element_vec_ or (-1) if node doesn't exist.
Class represents boundary part of mesh.
Range< Edge > edge_range() const
Returns range of edges.
vector< vector< unsigned int > > node_elements_
For each node the vector contains a list of elements that use this node.
#define ASSERT_LT_DBG(a, b)
Definition of comparative assert macro (Less Than) only for debug mode.
BidirectionalMap< int > element_ids_
Maps element ids to indexes into vector element_vec_.
void add_node(unsigned int node_id, arma::vec3 coords)
Add new node of given id and coordinates to mesh.
vector< ElementTmpData > bc_element_tmp_
Hold data of boundary elements during reading mesh (allow to preserve correct order during reading of...
unsigned int idx() const
Return local idx of element in boundary / bulk part of element vector.
Region add_region(unsigned int id, const std::string &label, unsigned int dim, const std::string &address="implicit")
std::shared_ptr< Partitioning > part_
unsigned int check_compatible_elements(Mesh *source_mesh, Mesh *target_mesh, const std::vector< unsigned int > &node_ids, std::vector< LongIdx > &map)
unsigned int bulk_size_
Count of bulk elements.
unsigned int add_item(T val)
Add new item at the end position of map.
void print_region_table(std::ostream &stream) const
LongIdx * row_4_el
Index set assigning to global element index the local index used in parallel vectors.
const vector< vector< unsigned int > > & node_elements()
double global_snap_radius() const
Maximal distance of observe point from Mesh relative to its size.
vector< BoundaryData > boundary_
unsigned int n_local_nodes() const
virtual Partitioning * get_part()
NodeAccessor< 3 > node(unsigned int i) const
Returns node for given local index i on the side.
BCMesh * bc_mesh_
Boundary mesh, object is created only if it's necessary.
MixedMeshIntersections & mixed_intersections()
#define DebugOut()
Macro defining 'debug' record of log.
#define ASSERT_PTR(ptr)
Definition of assert macro checking non-null pointer (PTR)
SideIter side(const unsigned int loc_index)
NodeAccessor< 3 > node(unsigned int idx) const
Create and return NodeAccessor to node of given idx.
virtual ElementAccessor< 3 > element_accessor(unsigned int idx) const
Create and return ElementAccessor to element of given idx.
void reserve(unsigned int init_size=0)
Reset data of map, reserve space for given size.
virtual unsigned int n_nodes() const
#define START_TIMER(tag)
Starts a timer with specified tag.
int find_node_id(unsigned int pos) const
Return node id (in GMSH file) of node of given position in node vector.
unsigned int * boundary_idx_
Edge edge(uint edge_idx) const
void add_physical_name(unsigned int dim, unsigned int id, std::string name)
Add new node of given id and coordinates to mesh.
vector< Neighbour > vb_neighbours_
#define END_TIMER(tag)
Ends a timer with specified tag.
unsigned int n_nodes() const
unsigned int size() const
Return size of map.
Implementation of range helper class.
#define MessageOut()
Macro defining 'message' record of log.
std::shared_ptr< MixedMeshIntersections > intersections