def exterior_facets(self): if self._plex.getStratumSize("exterior_facets", 1) > 0: # Compute the facet_numbering # Order exterior facets by OP2 entity class exterior_facets, exterior_facet_classes = \ dmplex.get_facets_by_class(self._plex, "exterior_facets") # Derive attached boundary IDs if self._plex.hasLabel("boundary_ids"): boundary_ids = np.zeros(exterior_facets.size, dtype=np.int32) for i, facet in enumerate(exterior_facets): boundary_ids[i] = self._plex.getLabelValue("boundary_ids", facet) unique_ids = np.sort(self._plex.getLabelIdIS("boundary_ids").indices) else: boundary_ids = None unique_ids = None exterior_local_facet_number, exterior_facet_cell = \ dmplex.facet_numbering(self._plex, "exterior", exterior_facets, self._cell_numbering, self.cell_closure) return _Facets(self, exterior_facet_classes, "exterior", exterior_facet_cell, exterior_local_facet_number, boundary_ids, unique_markers=unique_ids) else: if self._plex.hasLabel("boundary_ids"): unique_ids = np.sort(self._plex.getLabelIdIS("boundary_ids").indices) else: unique_ids = None return _Facets(self, 0, "exterior", None, None, unique_markers=unique_ids)
def interior_facets(self): if self._plex.getStratumSize("interior_facets", 1) > 0: # Compute the facet_numbering # Order interior facets by OP2 entity class interior_facets, interior_facet_classes = dmplex.get_facets_by_class(self._plex, "interior_facets") interior_local_facet_number, interior_facet_cell = dmplex.facet_numbering( self._plex, "interior", interior_facets, self._cell_numbering, self.cell_closure ) return _Facets(self, interior_facet_classes, "interior", interior_facet_cell, interior_local_facet_number) else: return _Facets(self, 0, "interior", None, None)
def interior_facets(self): if self._plex.getStratumSize("interior_facets", 1) > 0: # Compute the facet_numbering # Order interior facets by OP2 entity class interior_facets, interior_facet_classes = \ dmplex.get_facets_by_class(self._plex, "interior_facets") interior_local_facet_number, interior_facet_cell = \ dmplex.facet_numbering(self._plex, "interior", interior_facets, self._cell_numbering, self.cell_closure) return _Facets(self, interior_facet_classes, "interior", interior_facet_cell, interior_local_facet_number) else: return _Facets(self, 0, "interior", None, None)
def interior_facets(self): # If there are no interior facets on this process, everything # just falls through nicely, so no need to special case. # Compute the facet_numbering # Order interior facets by OP2 entity class interior_facets, interior_facet_classes = \ dmplex.get_facets_by_class(self._plex, "interior_facets", self._facet_ordering) interior_local_facet_number, interior_facet_cell = \ dmplex.facet_numbering(self._plex, "interior", interior_facets, self._cell_numbering, self.cell_closure) return _Facets(self, interior_facet_classes, "interior", interior_facet_cell, interior_local_facet_number)
def exterior_facets(self): # If there are no exterior facets on this process, everything # just falls through nicely, so no need to special case. # Compute the facet_numbering # Order exterior facets by OP2 entity class exterior_facets, exterior_facet_classes = \ dmplex.get_facets_by_class(self._plex, "exterior_facets", self._facet_ordering) # Derive attached boundary IDs if self._plex.hasLabel("boundary_ids"): boundary_ids = np.zeros(exterior_facets.size, dtype=np.int32) for i, facet in enumerate(exterior_facets): boundary_ids[i] = self._plex.getLabelValue("boundary_ids", facet) # Determine union of boundary IDs. All processes must # know the values of all ids, for collective reasons. comm = self.comm from mpi4py import MPI def merge_ids(x, y, datatype): return x.union(y) op = MPI.Op.Create(merge_ids, commute=True) local_ids = set(self._plex.getLabelIdIS("boundary_ids").indices) unique_ids = np.asarray(sorted(comm.allreduce(local_ids, op=op)), dtype=np.int32) op.Free() else: boundary_ids = None unique_ids = None exterior_local_facet_number, exterior_facet_cell = \ dmplex.facet_numbering(self._plex, "exterior", exterior_facets, self._cell_numbering, self.cell_closure) return _Facets(self, exterior_facet_classes, "exterior", exterior_facet_cell, exterior_local_facet_number, boundary_ids, unique_markers=unique_ids)
def exterior_facets(self): # If there are no exterior facets on this process, everything # just falls through nicely, so no need to special case. # Compute the facet_numbering # Order exterior facets by OP2 entity class exterior_facets, exterior_facet_classes = \ dmplex.get_facets_by_class(self._plex, "exterior_facets", self._facet_ordering) # Derive attached boundary IDs if self._plex.hasLabel("boundary_ids"): boundary_ids = np.zeros(exterior_facets.size, dtype=np.int32) for i, facet in enumerate(exterior_facets): boundary_ids[i] = self._plex.getLabelValue("boundary_ids", facet) # Determine union of boundary IDs. All processes must # know the values of all ids, for collective reasons. comm = self._plex.comm.tompi4py() from mpi4py import MPI def merge_ids(x, y, datatype): return x.union(y) op = MPI.Op.Create(merge_ids, commute=True) local_ids = set(self._plex.getLabelIdIS("boundary_ids").indices) unique_ids = np.asarray(sorted(comm.allreduce(local_ids, op=op)), dtype=np.int32) op.Free() else: boundary_ids = None unique_ids = None exterior_local_facet_number, exterior_facet_cell = \ dmplex.facet_numbering(self._plex, "exterior", exterior_facets, self._cell_numbering, self.cell_closure) return _Facets(self, exterior_facet_classes, "exterior", exterior_facet_cell, exterior_local_facet_number, boundary_ids, unique_markers=unique_ids)