import re import logging log = logging.getLogger("interp") from interp.grid import grid as basegrid, cell from subprocess import Popen, PIPE def get_qdelaunay_dump(g): """ pass in interp.grid g, and get back lines from a qhull triangulation: qdelaunay Qt f """ cmd = 'qdelaunay Qt f' p = Popen(cmd.split(), bufsize=1, stdin=PIPE, stdout=PIPE) so, se = p.communicate(g.for_qhull()) for i in so.splitlines(): yield i def get_qdelaunay_dump_str(g): return "\n".join(get_qdelaunay_dump(g)) def get_index_only(g): cmd = 'qdelaunay Qt i' p = Popen(cmd.split(), bufsize=1, stdin=PIPE, stdout=PIPE) so, se = p.communicate(g.for_qhull()) for i in so.splitlines(): yield i def get_index_only_str(g): return "\n".join(get_index_only(g)) class dgrid(basegrid): cell_re = re.compile(r''' -\s+(?Pf\d+).*? vertices:\s(?P.*?)\n.*? neighboring\s facets:\s+(?P[\sf\d]*) ''', re.S|re.X) vert_re = re.compile(r''' (p\d+) ''', re.S|re.X) def __init__(self, verts, q = None): self.dim = len(verts[0]) basegrid.__init__(self, verts,q) self.construct_connectivity() def construct_connectivity(self): """ a call to this method prepares the internal connectivity structure. """ log.info('start') qdelaunay_string = get_qdelaunay_dump_str(self) with open('/tmp/qdel.out', 'w') as of: of.write(qdelaunay_string) cell_to_cells = [] for matcher in dgrid.cell_re.finditer(qdelaunay_string): d = matcher.groupdict() cell_name = d['cell'] verticies = d['verts'] neighboring_cells = d['neigh'] cur_cell = cell(cell_name) self.cells[cell_name] = cur_cell for v in dgrid.vert_re.findall(verticies): vertex_index = int(v[1:]) cur_cell.add_vert(vertex_index) self.cells_for_vert[vertex_index].append(cur_cell) nghbrs = [(cell_name, i) for i in neighboring_cells.split()] cell_to_cells.extend(nghbrs) log.debug(cell_to_cells) for rel in cell_to_cells: if rel[1] in self.cells: self.cells[rel[0]].add_neighbor(self.cells[rel[1]]) log.debug(self.cells) log.info('end')