# This code is part of the Biopython distribution and governed by its # license. Please see the LICENSE file that should have been included # as part of this package. # """Generic functions which are useful for working with HMMs. This just collects general functions which you might like to use in dealing with HMMs. """ from __future__ import print_function def pretty_print_prediction(emissions, real_state, predicted_state, emission_title="Emissions", real_title="Real State", predicted_title="Predicted State", line_width=75): """Print out a state sequence prediction in a nice manner. Arguments: o emissions -- The sequence of emissions of the sequence you are dealing with. o real_state -- The actual state path that generated the emissions. o predicted_state -- A state path predicted by some kind of HMM model. """ # calculate the length of the titles and sequences title_length = max(len(emission_title), len(real_title), len(predicted_title)) + 1 seq_length = line_width - title_length # set up the titles so they'll print right emission_title = emission_title.ljust(title_length) real_title = real_title.ljust(title_length) predicted_title = predicted_title.ljust(title_length) cur_position = 0 # while we still have more than seq_length characters to print while True: if (cur_position + seq_length) < len(emissions): extension = seq_length else: extension = len(emissions) - cur_position print("%s%s" % (emission_title, emissions[cur_position:cur_position + seq_length])) print("%s%s" % (real_title, real_state[cur_position:cur_position + seq_length])) print("%s%s\n" % (predicted_title, predicted_state[cur_position: cur_position + seq_length])) if (len(emissions) < (cur_position + seq_length)): break cur_position += seq_length