33 return IT::Record(
"OutputMesh",
"Parameters of the refined output mesh. [Not impemented]")
35 "Maximal level of refinement of the output mesh.")
37 "Set true for using ``error_control_field``. Set false for global uniform refinement to max_level.")
39 "Name of an output field, according to which the output mesh will be refined. The field must be a SCALAR one.")
41 "Tolerance for element refinement by error. If tolerance is reached, refinement is stopped." 42 "Relative difference between error control field and its linear approximation on element is computed" 43 "and compared with tolerance.")
111 return nodes_->n_values();
116 unsigned int elm_idx[1];
117 unsigned int node_idx[1];
118 unsigned int region_idx[1];
120 elem_ids_ = std::make_shared< ElementDataCache<unsigned int> >(
"elements_ids", (
unsigned int)1, this->
n_elements());
121 node_ids_ = std::make_shared< ElementDataCache<unsigned int> >(
"node_ids", (
unsigned int)1, this->
n_nodes());
122 region_ids_ = std::make_shared< ElementDataCache<unsigned int> >(
"region_ids", (
unsigned int)1, this->
n_elements());
123 partitions_ = std::make_shared< ElementDataCache<int> >(
"partitions", (
unsigned int)1, this->
n_elements());
125 for (
unsigned int i = 0; i < this->
n_elements(); ++i, ++it) {
127 else elm_idx[0] = it->idx();
131 region_ids_->store_value( i, region_idx );
134 partitions_->store_value( i, partition );
137 for (
unsigned int j = 0; j < it->n_nodes(); ++j) {
139 else node_idx[0] = node_list[j];
140 node_ids_->store_value( node_list[j], node_idx );
156 DebugOut() <<
"Create output submesh containing only local elements.";
158 unsigned int ele_id = 0,
170 const unsigned int n_local_elements =
el_ds_->
lsize();
177 auto &offset_vec = *( offsets_->get_component_data(0).get() );
179 for (
unsigned int loc_el = 0; loc_el < n_local_elements; loc_el++) {
182 offset += elm->
dim() + 1;
183 offset_vec[ele_id] = offset;
184 (*orig_element_indices_)[ele_id] =
el_4_loc_[loc_el];
189 offset_vec[offset_vec.size()-1]);
190 auto &connectivity_vec = *(
connectivity_->get_component_data(0).get() );
191 for (
unsigned int loc_el = 0; loc_el < n_local_elements; loc_el++) {
193 for (
unsigned int li=0; li<elm->
n_nodes(); li++) {
195 connectivity_vec[conn_id++] = local_nodes_map[ elm.
node_accessor(li).idx() ];
201 auto &node_vec = *(
nodes_->get_component_data(0).get() );
203 for(
unsigned int i_node=0; i_node<local_nodes_map.size(); ++i_node) {
206 coord_id = 3*local_nodes_map[i_node];
207 node_vec[coord_id++] = node->
getX();
208 node_vec[coord_id++] = node->
getY();
209 node_vec[coord_id] = node->
getZ();
217 std::shared_ptr<ElementDataCache<unsigned int>> global_offsets;
225 master_mesh_->orig_element_indices_ = std::make_shared<std::vector<unsigned int>>(n_elems);
227 auto &offsets_vec = *(
master_mesh_->offsets_->get_component_data(0).get() );
228 auto &elems_n_nodes_vec = *( elems_n_nodes->get_component_data(0).get() );
229 unsigned int offset=0;
230 for (
unsigned int i=0; i<n_elems; ++i) {
231 offset += elems_n_nodes_vec[i];
232 offsets_vec[i] = offset;
244 master_mesh_->connectivity_ = serial_connectivity_cache;
256 auto &local_elems_n_nodes_vec = *( local_elems_n_nodes.get_component_data(0).get() );
257 auto &offset_vec = *(
offsets_->get_component_data(0).get() );
258 for (
unsigned int i=offset_vec.size()-1; i>0; --i) local_elems_n_nodes_vec[i] = offset_vec[i] - offset_vec[i-1];
259 local_elems_n_nodes_vec[0] = offset_vec[0];
262 std::shared_ptr<ElementDataCache<unsigned int>> global_elems_n_nodes;
265 return global_elems_n_nodes;
293 ASSERT(0).error(
"Not implemented yet.");
298 ASSERT(0).error(
"Not implemented yet.");
305 return std::make_shared<OutputMesh>(*orig_mesh_);
311 std::shared_ptr<ElementDataCache<double>> serial_nodes_cache;
317 return serial_nodes_cache;
323 std::shared_ptr<ElementDataCache<unsigned int>> serial_connectivity_cache;
326 auto &conn_vec = *(
connectivity_->get_component_data(0).get() );
328 auto &global_conn_vec = *( global_conn.get_component_data(0).get() );
329 for(
unsigned int i=0; i<conn_vec.size(); i++) {
334 auto &local_offset_vec = *(
offsets_->get_component_data(0).get() );
335 auto global_fix_size_conn = global_conn.element_node_cache_fixed_size(local_offset_vec);
336 auto collective_conn = global_fix_size_conn->gather(
el_ds_,
el_4_loc_);
339 auto &offset_vec = *( global_offsets->get_component_data(0).get() );
340 serial_connectivity_cache = std::dynamic_pointer_cast<
ElementDataCache<unsigned int> >( collective_conn->element_node_cache_optimize_size(offset_vec) );
342 return serial_connectivity_cache;
371 static const unsigned int n_subelements = 1 << dim;
451 refinement.push_back(aux_element);
463 nodes.reserve(n_old_nodes+n_new_nodes);
466 for(
unsigned int e=0; e < n_new_nodes; e++)
470 nodes.push_back( p / 2.0);
474 unsigned int diagonal = 0;
477 double min_diagonal = arma::norm(nodes[4]-nodes[9],2);
478 double d = arma::norm(nodes[5]-nodes[8],2);
479 if(d < min_diagonal){
483 d = arma::norm(nodes[6]-nodes[7],2);
484 if(d < min_diagonal){
490 for(
unsigned int i=0; i < n_subelements; i++)
493 sub_ele.
nodes.resize(n_old_nodes);
497 for(
unsigned int j=0; j < n_old_nodes; j++)
499 unsigned int conn_id = (n_old_nodes)*i + j;
500 sub_ele.
nodes[j] = nodes[conn[dim+diagonal][conn_id]];
502 refine_aux_element<dim>(sub_ele, refinement, ele_acc);
526 for(
auto& v : aux_ele.
nodes ) centre += v;
527 centre = centre/aux_ele.
nodes.size();
549 point_list.push_back(centre);
550 point_list.insert(point_list.end(), ele.
nodes.begin(), ele.
nodes.end());
557 double average_val = 0.0;
558 for(
unsigned int i=1; i<ele.
nodes.size()+1; ++i)
559 average_val += val_list[i];
560 average_val = average_val / ele.
nodes.size();
562 double diff = std::abs((average_val - val_list[0])/val_list[0]);
571 return std::make_shared<OutputMeshDiscontinuous>(*orig_mesh_);
577 std::shared_ptr<ElementDataCache<double>> serial_nodes_cache;
580 std::shared_ptr< ElementDataCache<double> > discont_node_cache = std::make_shared<ElementDataCache<double>>(
"",
582 auto &discont_node_vec = *( discont_node_cache->get_component_data(0).get() );
583 auto &local_nodes_vec = *( this->
nodes_->get_component_data(0).get() );
584 auto &local_conn_vec = *( this->
connectivity_->get_component_data(0).get() );
585 auto &local_offset_vec = *( this->
offsets_->get_component_data(0).get() );
586 unsigned int i_old, i_new;
587 for (
unsigned int i_conn=0; i_conn<this->
connectivity_->n_values(); ++i_conn) {
591 discont_node_vec[i_new+i] = local_nodes_vec[i_old+i];
595 auto fix_size_node_cache = discont_node_cache->element_node_cache_fixed_size(local_offset_vec);
596 auto collect_fix_size_node_cache = fix_size_node_cache->gather(
el_ds_,
el_4_loc_);
599 auto &offset_vec = *( global_offsets->get_component_data(0).get() );
600 serial_nodes_cache = std::dynamic_pointer_cast<
ElementDataCache<double> >(collect_fix_size_node_cache->element_node_cache_optimize_size(offset_vec));
602 return serial_nodes_cache;
608 std::shared_ptr<ElementDataCache<unsigned int>> serial_connectivity_cache;
611 auto &offset_vec = *( global_offsets->get_component_data(0).get() );
613 offset_vec[offset_vec.size()-1]);
614 auto &conn_vec = *( serial_connectivity_cache->get_component_data(0).get() );
615 for (
unsigned int i=0; i<conn_vec.size(); ++i) conn_vec[i] = i;
617 return serial_connectivity_cache;
625 DebugOut() <<
"Create refined discontinuous submesh containing only local elements.";
633 unsigned int last_offset = 0;
635 auto &node_vec = *(
nodes_->get_component_data(0).get() );
636 auto &conn_vec = *(
connectivity_->get_component_data(0).get() );
637 auto &offset_vec = *(
offsets_->get_component_data(0).get() );
646 for (
unsigned int loc_el = 0; loc_el < n_local_elements; loc_el++) {
653 aux_ele.
nodes.resize(ele->n_nodes());
657 for (li=0; li<ele->n_nodes(); li++) {
658 aux_ele.
nodes[li] = ele.node_accessor(li)->point();
664 case 1: this->refine_aux_element<1>(aux_ele, refinement, ele);
break;
665 case 2: this->refine_aux_element<2>(aux_ele, refinement, ele);
break;
666 case 3: this->refine_aux_element<3>(aux_ele, refinement, ele);
break;
667 default:
ASSERT(0 < dim && dim < 4);
672 unsigned int node_offset = node_vec.size(),
673 con_offset = conn_vec.size();
674 node_vec.resize(node_vec.size() + (refinement.size() * (dim+1))*
spacedim);
675 conn_vec.resize(conn_vec.size() + refinement.size()*(dim+1));
680 for(
unsigned int i=0; i < refinement.size(); i++)
682 last_offset += dim+1;
683 offset_vec.push_back(last_offset);
684 (*orig_element_indices_).push_back(ele_idx);
685 for(
unsigned int j=0; j < dim+1; j++)
687 unsigned int con = i*(dim+1) + j;
688 conn_vec[con_offset + con] = con_offset + con;
690 for(
unsigned int k=0; k <
spacedim; k++) {
691 node_vec[node_offset + con*spacedim + k] = refinement[i].nodes[j][k];
697 conn_vec.shrink_to_fit();
698 node_vec.shrink_to_fit();
699 offset_vec.shrink_to_fit();
703 offsets_->set_n_values(offset_vec.size());
711 for (
unsigned int i=0; i<
el_ds_->
lsize(); ++i, ++global_el_idx) {
716 for (
unsigned int i=0; i<node_ds_->
lsize(); ++i, ++global_node_idx) {
730 auto &conn_vec = *( this->
connectivity_->get_component_data(0).get() );
733 auto &master_conn_vec = *(
master_mesh_->connectivity_->get_component_data(0).get() );
734 for (
unsigned int i=0; i<master_conn_vec.size(); ++i) master_conn_vec[i] = i;
737 auto &node_vec = *( this->
nodes_->get_component_data(0).get() );
738 auto &master_node_vec = *(
master_mesh_->nodes_->get_component_data(0).get() );
739 unsigned int i_own, i_master, j;
740 for (
unsigned int i=0; i<conn_vec.size(); ++i) {
744 master_node_vec[i_master+j] = node_vec[i_own+j];
int LongIdx
Define type that represents indices of large arrays (elements, nodes, dofs etc.)
Classes for auxiliary output mesh.
static const unsigned int spacedim
Shortcut instead of spacedim template. We suppose only spacedim=3 at the moment.
unsigned int n_nodes() const
Iter< OutputElement > OutputElementIterator
Base class for Output mesh.
Distribution * el_ds_
Parallel distribution of elements.
std::shared_ptr< ElementDataCache< double > > make_serial_nodes_cache(std::shared_ptr< ElementDataCache< unsigned int >> global_offsets) override
Implements OutputMeshBase::make_serial_nodes_cache.
NodeAccessor< 3 > node_accessor(unsigned int ni) const
std::function< void(const std::vector< Space< spacedim >::Point > &, const ElementAccessor< spacedim > &, std::vector< double > &)> ErrorControlFieldFunc
bool refinement_criterion_error(const AuxElement &ele, const Space< spacedim >::Point ¢re, const ElementAccessor< spacedim > &ele_acc)
Refinement flag - measures discretisation error according to error control field. ...
unsigned int n_elements()
Returns number of element.
std::shared_ptr< ElementDataCache< double > > make_serial_nodes_cache(std::shared_ptr< ElementDataCache< unsigned int >> global_offsets) override
Implements OutputMeshBase::make_serial_nodes_cache.
Mesh * orig_mesh_
Pointer to the computational mesh.
LongIdx * get_node_4_loc() const
static const unsigned int undef_idx
NodeAccessor< 3 > node_accessor(unsigned int idx) const
Create and return NodeAccessor to node of given idx.
~OutputMeshDiscontinuous()
std::shared_ptr< ElementDataCache< unsigned int > > make_serial_connectivity_cache(std::shared_ptr< ElementDataCache< unsigned int >> global_offsets) override
Implements OutputMeshBase::make_serial_connectivity_cache.
static const Input::Type::Record & get_input_type()
The specification of output mesh.
const unsigned int max_level_
Maximal level of refinement.
unsigned int n_local_nodes() const
double refinement_error_tolerance_
Tolerance for error criterion refinement.
std::shared_ptr< ElementDataCache< unsigned int > > connectivity_
Vector maps the nodes to their coordinates in vector nodes_.
bool refinement_criterion(const AuxElement &ele, const ElementAccessor< spacedim > &ele_acc)
Collects different refinement criteria results.
#define ASSERT(expr)
Allow use shorter versions of macro names if these names is not used with external library...
virtual unsigned int n_nodes() const
std::shared_ptr< ElementDataCache< unsigned int > > node_ids_
Vector gets ids of nodes. Data is used in GMSH output.
virtual std::shared_ptr< ElementDataCache< double > > make_serial_nodes_cache(std::shared_ptr< ElementDataCache< unsigned int >> global_offsets)=0
Distribution * node_ds_
Parallel distribution of nodes. Depends on elements distribution.
std::shared_ptr< ElementDataCache< unsigned int > > offsets_
Vector of offsets of node indices of elements. Maps elements to their nodes in connectivity_.
std::shared_ptr< ElementDataCache< unsigned int > > make_serial_connectivity_cache(std::shared_ptr< ElementDataCache< unsigned int >> global_offsets) override
Implements OutputMeshBase::make_serial_connectivity_cache.
unsigned int n_nodes()
Returns number of nodes.
virtual ElementAccessor< 3 > element_accessor(unsigned int idx) const
Create and return ElementAccessor to element of given idx.
std::shared_ptr< ElementDataCache< double > > nodes_
Vector of node coordinates. [spacedim x n_nodes].
int find_elem_id(unsigned int pos) const
Return element id (in GMSH file) of element of given position in element vector.
std::shared_ptr< ElementDataCacheBase > gather(Distribution *distr, LongIdx *local_to_global) override
Implements ElementDataCacheBase::gather.
ErrorControlFieldFunc error_control_field_func_
Refinement error control field function (hold value_list function of field).
arma::vec::fixed< spacedim > Point
std::shared_ptr< OutputMeshBase > construct_mesh() override
Implements OutputMeshBase::construct_mesh.
unsigned int begin(int proc) const
get starting local index
static const IdxVector< (InDim >OutDim?InDim+1:dim-InDim) > interact(TInteraction< OutDim, InDim > interaction)
Auxiliary structure defining element of refined output mesh.
void make_parallel_master_mesh() override
Overrides OutputMeshBase::make_parallel_master_mesh.
void refine_aux_element(const AuxElement &aux_element, std::vector< AuxElement > &refinement, const ElementAccessor< spacedim > &ele_acc)
Performs the actual refinement of AuxElement. Recurrent.
void set_error_control_field(ErrorControlFieldFunc error_control_field_func)
Selects the error control field computing function of output field set according to input record...
void create_refined_sub_mesh() override
Implements OutputMeshBase::create_refined_sub_mesh.
void make_serial_master_mesh()
Synchronize parallel data and create serial COLECTIVE output mesh on zero process.
std::shared_ptr< ElementDataCache< unsigned int > > region_ids_
Vector gets ids of regions. Data is used in GMSH output.
bool refinement_criterion()
virtual ~OutputMeshBase()
unsigned int np() const
get num of processors
Distribution * get_el_ds() const
LongIdx * node_4_loc_
Index set assigning to local node index its global index.
OutputMeshDiscontinuous(Mesh &mesh)
Input::Record input_record_
Input record for output mesh.
General iterator template. Provides iterator over objects in some container.
virtual std::shared_ptr< OutputMeshBase > construct_mesh()=0
bool refinement_criterion_uniform(const AuxElement &ele)
Refinement flag - checks only maximal level of refinement.
OutputElementIterator end()
Gives iterator to the LAST element of the output mesh.
unsigned int myp() const
get my processor
unsigned int end(int proc) const
get last local index +1
Support classes for parallel programing.
friend class OutputElement
Friend provides access to vectors for element accessor class.
virtual unsigned int n_elements(bool boundary=false) const
Returns count of boundary or bulk elements.
std::shared_ptr< ElementDataCache< int > > partitions_
Vector gets partitions of elements. Data is used in GMSH output.
std::shared_ptr< OutputMeshBase > master_mesh_
#define ASSERT_PTR(ptr)
Definition of assert macro checking non-null pointer (PTR)
void create_refined_sub_mesh() override
Implements OutputMeshBase::create_refined_sub_mesh.
virtual std::shared_ptr< ElementDataCache< unsigned int > > make_serial_connectivity_cache(std::shared_ptr< ElementDataCache< unsigned int >> global_offsets)=0
bool refine_by_error_
True, if output mesh is to be refined by error criterion.
Class OutputElement and its iterator OutputElementIterator on the output mesh.
Class RefElement defines numbering of vertices, sides, calculation of normal vectors etc...
MeshType mesh_type_
Type of OutputMesh.
LongIdx * el_4_loc_
Index set assigning to local element index its global index.
std::shared_ptr< ElementDataCache< unsigned int > > get_elems_n_nodes()
Compute and return number of nodes for each elements (compute from offsets)
std::vector< Space< spacedim >::Point > nodes
void create_id_caches()
Create nodes and elements data caches.
bool is_created()
Check if nodes_, connectivity_ and offsets_ data caches are created.
Distribution * get_node_ds() const
std::shared_ptr< ElementDataCache< unsigned int > > elem_ids_
Vector gets ids of elements. Data is used in GMSH output.
#define DebugOut()
Macro defining 'debug' record of log.
#define ASSERT_PTR_DBG(ptr)
Definition of assert macro checking non-null pointer (PTR) only for debug mode.
LongIdx * get_el_4_loc() const
Implementation of range helper class.
unsigned int n_local_nodes_
Hold number of local nodes (own + ghost), value is equal with size of node_4_loc array.
std::shared_ptr< std::vector< unsigned int > > orig_element_indices_
Vector of element indices in the computational mesh. (Important when refining.)
std::shared_ptr< OutputMeshBase > construct_mesh() override
Implements OutputMeshBase::construct_mesh.
OutputElementIterator begin()
Gives iterator to the FIRST element of the output mesh.
int find_node_id(unsigned int pos) const
Return node id (in GMSH file) of node of given position in node vector.
OutputMeshBase(Mesh &mesh)
Constructor. Takes computational mesh as a parameter.
unsigned int lsize(int proc) const
get local size