vetoes = ligolw_segments.segmenttable_get_by_name(xmldoc, options.vetoes_name).coalesce() # # Run coincidence algorithm. # thinca.ligolw_thinca( xmldoc, process_id = process.process_id, delta_t = options.threshold, ntuple_comparefunc = ntuple_comparefunc, seglists = None, # FIXME veto_segments = vetoes, min_instruments = options.min_instruments, verbose = options.verbose ) # # Close out the process table. # ligolw_process.set_process_end_time(process) # # Write back to disk, and clean up. # ligolw_utils.write_filename(xmldoc, filename, verbose = options.verbose, gz = (filename or "stdout").endswith(".gz")) xmldoc.unlink() lsctables.reset_next_ids(lsctables.TableByName.values())
# # Run coincidence algorithm. # thinca.ligolw_thinca( xmldoc, process_id=process.process_id, delta_t=options.threshold, ntuple_comparefunc=ntuple_comparefunc, seglists=None, # FIXME veto_segments=vetoes, min_instruments=options.min_instruments, verbose=options.verbose) # # Close out the process table. # ligolw_process.set_process_end_time(process) # # Write back to disk, and clean up. # ligolw_utils.write_filename(xmldoc, filename, verbose=options.verbose, gz=(filename or "stdout").endswith(".gz")) xmldoc.unlink() lsctables.reset_next_ids(lsctables.TableByName.values())