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dr.botzo/modules/Markov.py
Brian S. Stephan 8dd223f778 Markov: a module to implement a chatterbot via markov chains. 
yeah, we have MegaHAL, but i can't find a good implementation in
python that actually works and is stable, so we'll implement a
simple thing ourselves. works pretty much like MegaHAL does, but
without the string corruption.

original code provided by ape, care of mike bloy
2011-01-18 22:30:59 -06:00

230 lines
8.3 KiB
Python
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"""
Markov - Chatterbot via Markov chains for IRC
Copyright (C) 2010 Brian S. Stephan
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
"""
import cPickle
import os
import random
import re
import sys
from extlib import irclib
from Module import Module
class Markov(Module):
"""
Create a chatterbot very similar to a MegaHAL, but simpler and
implemented in pure Python. Proof of concept code from Ape.
Ape wrote: based on this:
http://uswaretech.com/blog/2009/06/pseudo-random-text-markov-chains-python/
and this:
http://code.activestate.com/recipes/194364-the-markov-chain-algorithm/
"""
def __init__(self, irc, config, server):
"""Create the Markov chainer, and learn text from a file if available."""
Module.__init__(self, irc, config, server)
self.brain_filename = 'dr.botzo.markov'
# set up some keywords for use in the chains --- don't change these
# once you've created a brain
self.start1 = '__start1'
self.start2 = '__start2'
self.stop = '__stop'
# set up regexes, for replying to specific stuff
trainpattern = '!markov\s+train\s+(.*)$'
learnpattern = '!markov\s+learn\s+(.*)$'
replypattern = '!markov\s+reply(\s+(.*)$|$)'
self.trainre = re.compile(trainpattern)
self.learnre = re.compile(learnpattern)
self.replyre = re.compile(replypattern)
try:
brainfile = open(self.brain_filename, 'r')
self.brain = cPickle.load(brainfile)
brainfile.close()
except IOError:
self.brain = {}
self.brain.setdefault((self.start1, self.start2), []).append(self.stop)
def register_handlers(self, server):
"""Handle pubmsg/privmsg, to learn and/or reply to IRC events."""
self.server.add_global_handler('pubmsg', self.learn_from_irc_event)
self.server.add_global_handler('privmsg', self.learn_from_irc_event)
def unregister_handlers(self):
self.server.remove_global_handler('pubmsg', self.learn_from_irc_event)
self.server.remove_global_handler('privmsg', self.learn_from_irc_event)
def save(self):
"""Pickle the brain upon save."""
brainfile = open(self.brain_filename, 'w')
cPickle.dump(self.brain, brainfile)
brainfile.close()
def learn_from_irc_event(self, connection, event):
"""Learn from IRC events."""
what = ''.join(event.arguments()[0])
# don't learn from commands
if self.trainre.search(what) or self.learnre.search(what) or self.replyre.search(what):
return
self._learn_line(what)
def do(self, connection, event, nick, userhost, what, admin_unlocked):
"""Handle commands and inputs."""
if self.trainre.search(what):
return self.markov_train(connection, event, nick, userhost, what, admin_unlocked)
elif self.learnre.search(what):
return self.markov_learn(connection, event, nick, userhost, what, admin_unlocked)
elif self.replyre.search(what):
return self.markov_reply(connection, event, nick, userhost, what, admin_unlocked)
# not a command, so see if i'm being mentioned
if re.search(connection.get_nickname(), what, re.IGNORECASE) is not None:
addressed_pattern = '^' + connection.get_nickname() + '[:,]\s+(.*)'
addressed_re = re.compile(addressed_pattern)
if addressed_re.match(what):
# i was addressed directly, so respond, addressing the speaker
return '{0:s}: {1:s}'.format(nick, self._reply_to_line(addressed_re.match(what).group(1)))
else:
# i wasn't addressed directly, so just respond
return '{0:s}'.format(self._reply_to_line(what))
def markov_train(self, connection, event, nick, userhost, what, admin_unlocked):
"""Learn lines from a file. Good for initializing a brain."""
match = self.trainre.search(what)
if match and admin_unlocked:
filename = match.group(1)
try:
for line in open(filename, 'r'):
self._learn_line(line)
return 'Learned from \'{0:s}\'.'.format(filename)
except IOError:
return 'No such file \'{0:s}\'.'.format(filename)
def markov_learn(self, connection, event, nick, userhost, what, admin_unlocked):
"""Learn one line, as provided to the command."""
match = self.learnre.search(what)
if match:
line = match.group(1)
self._learn_line(line)
def markov_reply(self, connection, event, nick, userhost, what, admin_unlocked):
"""Generate a reply to one line, without learning it."""
match = self.replyre.search(what)
if match:
if match.group(2):
line = match.group(2)
return self._reply_to_line(line)
else:
return self._reply()
def _learn_line(self, line):
"""Create Markov chains from the provided line."""
# set up the head of the chain
w1 = self.start1
w2 = self.start2
# for each word pair, add the next word to the dictionary
for word in line.split():
self.brain.setdefault((w1, w2), []).append(word.lower())
w1, w2 = w2, word.lower()
# cap the end of the chain
self.brain.setdefault((w1, w2), []).append(self.stop)
def _reply(self, size=25):
"""Generate a totally random string from the chains, of specified limit of words."""
# if the limit is too low, there's nothing to do
if (size <= 3):
raise Exception("size is too small: %d" % size)
# start with an empty chain, and work from there
gen_words = [self.start1, self.start2]
# walk a chain, randomly, building the list of words
while len(gen_words) < size + 2 and gen_words[-1] != self.stop:
gen_words.append(random.choice(self.brain[(gen_words[-2], gen_words[-1])]))
# chop off the seed data at the start
gen_words = gen_words[2:]
# chop off the end text, if it was the keyword indicating an end of chain
if gen_words[-1] == self.stop:
gen_words = gen_words[:-1]
return ' '.join(gen_words)
def _reply_to_line(self, line, size=25):
"""Reply to a line, using some text in the line as a point in the chain."""
# if the limit is too low, there's nothing to do
if (size <= 3):
raise Exception("size is too small: %d" % size)
# get a random word from the input
words = line.split()
target_word = words[random.randint(0, len(words)-1)]
print('trying ' + target_word)
# start with an empty chain, and work from there
gen_words = [self.start1, self.start2]
# walk a chain, randomly, building the list of words
while len(gen_words) < size + 2 and gen_words[-1] != self.stop:
# use the chain that includes the target word, if it is found
if target_word in self.brain[(gen_words[-2], gen_words[-1])]:
print('found ' + target_word)
gen_words.append(target_word)
# generate new word
target_word = words[random.randint(0, len(words)-1)]
print('trying ' + target_word)
else:
gen_words.append(random.choice(self.brain[(gen_words[-2], gen_words[-1])]))
# chop off the seed data at the start
gen_words = gen_words[2:]
# chop off the end text, if it was the keyword indicating an end of chain
if gen_words[-1] == self.stop:
gen_words = gen_words[:-1]
return ' '.join(gen_words)
# vi:tabstop=4:expandtab:autoindent
# kate: indent-mode python;indent-width 4;replace-tabs on;
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