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12 #include <unordered_set>
40 template<
unsigned int dim>
66 if (snap_dim <= dim) {
67 double min_dist = 2.0;
71 double dist = arma::norm(center - observe_data.
local_coords_, 2);
72 if ( dist < min_dist) {
108 return IT::Record(
"ObservePoint",
"Specification of the observation point.\n"
109 "The actual observation element and the observation point on it is determined as follows:\n\n"
110 "1. Find an initial element containing the initial point. If no such element exists, we report an error.\n"
111 "2. Use BFS (Breadth-first search) starting from the inital element to find the 'observe element'. The observe element is the closest element.\n"
112 "3. Find the closest projection of the inital point on the observe element and snap this projection according to the ``snap_dim``.\n")
116 "Default name have the form 'obs_<id>', where 'id' "
117 "is the rank of the point on the input."),
118 "Optional point name, which has to be unique.\n"
119 "Any string that is a valid YAML key in record without any quoting can be used, however, "
120 "using just alpha-numerical characters, and underscore instead of the space, is recommended."
123 "Initial point for the observe point search.")
125 "The dimension of the sub-element to which center we snap. For value 4 no snapping is done. "
126 "For values 0 up to 3 the element containing the initial point is found and then the observe"
127 "point is snapped to the nearest center of the sub-element of the given dimension. "
128 "E.g. for dimension 2 we snap to the nearest center of the face of the initial element."
131 "The region of the initial element for snapping. Without snapping we make a projection to the initial element.")
133 IT::Default::read_time(
"Maximal distance of the observe point from the mesh relative to the mesh diameter. "),
134 "Global value is defined in mesh record by the key global_snap_radius.")
146 string default_label = string(
"obs_") +
std::to_string(point_idx);
147 name_ = in_rec.
val<
string>(
"name", default_label );
158 double max_mesh_size = arma::max(main_box.max() - main_box.min());
192 default:
ASSERT(
false).error(
"Clipping supported only for dim=1,2,3.");
200 if (region_set.size() == 0)
206 std::unordered_set<unsigned int> closed_elements(1023);
207 std::priority_queue< ObservePointData, std::vector<ObservePointData>,
CompareByDist > candidate_queue;
211 bih_tree.
find_point(projected_point, candidate_list,
true);
216 for (
unsigned int i_candidate=0; i_candidate<candidate_list.size(); ++i_candidate) {
217 unsigned int i_elm=candidate_list[i_candidate];
224 if(observe_data.distance_ < min_observe_point_data.
distance_)
225 min_observe_point_data = observe_data;
229 candidate_queue.push(observe_data);
230 closed_elements.insert(i_elm);
234 if (candidate_queue.empty()) {
235 THROW(ExcNoObserveElementCandidates()
236 << EI_PointName(
name_)
238 << EI_ClosestEle(min_observe_point_data));
241 while (!candidate_queue.empty())
243 auto candidate_data = candidate_queue.top();
244 candidate_queue.pop();
246 unsigned int i_elm=candidate_data.element_idx_;
262 for (
unsigned int n=0; n < elm->
n_nodes(); n++)
264 if (closed_elements.find(i_node_ele) == closed_elements.end()) {
268 candidate_queue.push(observe_data);
269 closed_elements.insert(i_node_ele);
275 THROW(ExcNoObserveElement()
277 << EI_PointName(
name_)
279 << EI_ClosestEle(min_observe_point_data));
285 if (dist > 2*elm_norm)
286 WarningOut().fmt(
"Observe point ({}) is too distant from the mesh.\n",
name_);
294 out << setw(indent_spaces) <<
"" <<
"- name: " <<
name_ << endl;
296 out << setw(indent_spaces) <<
"" <<
" snap_dim: " <<
snap_dim_ << endl;
297 out << setw(indent_spaces) <<
"" <<
" snap_region: " <<
snap_region_name_ << endl;
324 ASSERT(
false).error(
"Invalid element dimension!");
341 unsigned int precision,
const std::shared_ptr<TimeUnitConversion>& time_unit_conv)
342 : observe_name_(observe_name),
343 precision_(precision),
344 time_unit_conversion_(time_unit_conv),
351 unsigned int global_point_idx=0, local_point_idx=0;
375 if (
points_.size() == 0)
return;
384 }
INPUT_CATCH(FilePath::ExcFileOpen, FilePath::EI_Address_String, in_array)
398 template <
typename T>
412 = std::make_shared< ElementDataCache<T> >(field_name, n_rows * n_cols,
point_ds_->
lsize());
419 #define OBSERVE_PREPARE_COMPUTE_DATA(TYPE) \
420 template ElementDataCache<TYPE> & Observe::prepare_compute_data<TYPE>(std::string field_name, double field_time, \
421 unsigned int n_rows, unsigned int n_cols)
429 unsigned int indent = 2;
446 auto serial_data = field_data.second->gather(
point_ds_, &(local_to_global[0]));
447 if (
rank_==0) field_data.second = serial_data;
451 unsigned int indent = 2;
452 DebugOut() <<
"Observe::output_time_frame WRITE\n";
456 observe_file_ << setw(indent) <<
"" <<
" " << field_data.second->field_input_name() <<
": ";
470 if (
points_.size() == 0)
return;
friend class ObservePointAccessor
unsigned int precision_
Precision of float output.
unsigned int lsize(int proc) const
get local size
Basic time management class.
const RegionDB & region_db() const
unsigned int myp() const
get my processor
std::string to_string(const T &value)
#define ASSERT(expr)
Allow use shorter versions of macro names if these names is not used with external library.
Distribution * get_el_ds() const
LongIdx local_idx_
Local index on actual process of the observe point.
Distribution * point_ds_
Parallel distribution of observe points.
bool operator()(const ObservePointData &lhs, const ObservePointData &rhs) const
ProjectionHandler()
Constructor.
Dedicated class for storing path to input and output files.
Range< ObservePointAccessor > local_range() const
Returns local range of observe points.
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.
static BaryPoint project_real_to_unit(const RealPoint &point, const ElementMap &map)
std::vector< double > observe_values_time_
Common evaluation time of the fields for single time frame.
void open_stream(Stream &stream) const
#define OBSERVE_PREPARE_COMPUTE_DATA(TYPE)
Bounding box in 3d ambient space.
bool have_observe_element()
bool is_in_region_set(const RegionSet &set) const
static const Input::Type::Record & get_input_type()
BoundingBox bounding_box() const
void find_point(const Space< 3 >::Point &point, std::vector< unsigned int > &result_list, bool full_list=false) const
void flush_values()
Effectively writes the data into the observe stream.
const BIHTree & get_bih_tree()
Getter for BIH. Creates and compute BIH at first call.
const BoundingBox & tree_box() const
unsigned int proc_
Actual process of the observe point.
void output(ostream &out, unsigned int indent_spaces, unsigned int precision)
const vector< vector< unsigned int > > & node_elements()
ElementAccessor< 3 > element_accessor(unsigned int idx) const
Create and return ElementAccessor to element of given idx.
RegionSet get_region_set(const std::string &set_name) const
Observe(string observe_name, Mesh &mesh, Input::Array in_array, unsigned int precision, const std::shared_ptr< TimeUnitConversion > &time_unit_conv)
std::ofstream observe_file_
Output file stream.
unsigned int proc() const
NodeAccessor< 3 > node(unsigned int ni) const
ObservePointData projection(arma::vec3 input_point, unsigned int i_elm, ElementAccessor< 3 > elm)
void output_time_frame(bool flush)
void snap_to_subelement(ObservePointData &observe_data, ElementAccessor< 3 > elm, unsigned int snap_dim)
std::vector< unsigned int > observed_element_indices_
Elements of the o_points.
static ElementMap element_map(ElementAccessor< 3 > elm)
~Observe()
Destructor, must close the file.
static BaryPoint clip_to_element(BaryPoint &barycentric)
ElementDataCache< T > & prepare_compute_data(std::string field_name, double field_time, unsigned int n_rows, unsigned int n_cols)
arma::vec local_coords_
Local (barycentric) coordinates on the element.
Global macros to enhance readability and debugging, general constants.
static const unsigned int max_observe_value_time
Maximal size of observe values times vector.
#define WarningOut()
Macro defining 'warning' record of log.
#define ASSERT_LE(a, b)
Definition of comparative assert macro (Less or Equal)
OutputDataFieldMap observe_field_values_
Stored field values.
ObservePointData point_projection(unsigned int i_elm, ElementAccessor< 3 > elm)
Project point to given element by dimension of this element.
ObservePointData observe_data_
Helper object stored projection data.
std::vector< LongIdx > point_4_loc_
Index set assigning to local point index its global index.
std::string observe_name_
unsigned int element_idx_
Final element of the observe point. The index in the mesh.
const Point & max() const
double max_search_radius_
Class MappingP1 implements the affine transformation of the unit cell onto the actual cell.
std::shared_ptr< TimeUnitConversion > time_unit_conversion_
Time unit conversion object.
static BaryPoint local_to_bary(const LocalPoint &lp)
Converts from local to barycentric coordinates.
double global_snap_radius() const
Maximal distance of observe point from Mesh relative to its size.
unsigned int observe_time_idx_
Index of actual (last) time in observe_values_time_ vector.
#define DebugOut()
Macro defining 'debug' record of log.
std::vector< ObservePoint > points_
Full information about observe points.
LongIdx global_idx_
Global index of the observe point.
arma::vec3 global_coords_
Global coordinates of the observation point.
Input::Record in_rec_
Index in the input array.
Point project_point(const Point &point) const
const Point & min() const
void find_observe_point(Mesh &mesh)
std::string name_
Observation point name.
unsigned int n_nodes() const
arma::vec3 input_point_
Input coordinates of the initial position of the observation point.
arma::vec::fixed< spacedim > centre() const
Computes the barycenter.