From b2d38f17e56bf3b391fe20b77532df23e5721413 Mon Sep 17 00:00:00 2001
From: Aleksey Lim <alsroot@member.fsf.org>
Date: Thu, 12 Aug 2010 16:20:23 +0000
Subject: Add copyright notes to python files

---
(limited to 'aiml/PatternMgr.py')

diff --git a/aiml/PatternMgr.py b/aiml/PatternMgr.py
new file mode 100644
index 0000000..21b73f1
--- /dev/null
+++ b/aiml/PatternMgr.py
@@ -0,0 +1,329 @@
+# This class implements the AIML pattern-matching algorithm described
+# by Dr. Richard Wallace at the following site:
+# http://www.alicebot.org/documentation/matching.html
+
+import marshal
+import pprint
+import re
+import string
+import sys
+
+class PatternMgr:
+	# special dictionary keys
+	_UNDERSCORE = 0
+	_STAR       = 1
+	_TEMPLATE   = 2
+	_THAT       = 3
+	_TOPIC		= 4
+	_BOT_NAME   = 5
+	
+	def __init__(self):
+		self._root = {}
+		self._templateCount = 0
+		self._botName = u"Nameless"
+		punctuation = "\"`~!@#$%^&*()-_=+[{]}\|;:',<.>/?"
+		self._puncStripRE = re.compile("[" + re.escape(punctuation) + "]")
+		self._whitespaceRE = re.compile("\s", re.LOCALE | re.UNICODE)
+
+	def numTemplates(self):
+		"""Return the number of templates currently stored."""
+		return self._templateCount
+
+	def setBotName(self, name):
+		"""Set the name of the bot, used to match <bot name="name"> tags in
+		patterns.  The name must be a single word!
+
+		"""
+		# Collapse a multi-word name into a single word
+		self._botName = unicode(string.join(name.split()))
+
+	def dump(self):
+		"""Print all learned patterns, for debugging purposes."""
+		pprint.pprint(self._root)
+
+	def save(self, filename):
+		"""Dump the current patterns to the file specified by filename.  To
+		restore later, use restore().
+
+		"""
+		try:
+			outFile = open(filename, "wb")
+			marshal.dump(self._templateCount, outFile)
+			marshal.dump(self._botName, outFile)
+			marshal.dump(self._root, outFile)
+			outFile.close()
+		except Exception, e:
+			print "Error saving PatternMgr to file %s:" % filename
+			raise Exception, e
+
+	def restore(self, filename):
+		"""Restore a previously save()d collection of patterns."""
+		try:
+			inFile = open(filename, "rb")
+			self._templateCount = marshal.load(inFile)
+			self._botName = marshal.load(inFile)
+			self._root = marshal.load(inFile)
+			inFile.close()
+		except Exception, e:
+			print "Error restoring PatternMgr from file %s:" % filename
+			raise Exception, e
+
+	def add(self, (pattern,that,topic), template):
+		"""Add a [pattern/that/topic] tuple and its corresponding template
+		to the node tree.
+
+		"""
+		# TODO: make sure words contains only legal characters
+		# (alphanumerics,*,_)
+
+		# Navigate through the node tree to the template's location, adding
+		# nodes if necessary.
+		node = self._root
+		for word in string.split(pattern):
+			key = word
+			if key == u"_":
+				key = self._UNDERSCORE
+			elif key == u"*":
+				key = self._STAR
+			elif key == u"BOT_NAME":
+				key = self._BOT_NAME
+			if not node.has_key(key):
+				node[key] = {}
+			node = node[key]
+
+		# navigate further down, if a non-empty "that" pattern was included
+		if len(that) > 0:
+			if not node.has_key(self._THAT):
+				node[self._THAT] = {}
+			node = node[self._THAT]
+			for word in string.split(that):
+				key = word
+				if key == u"_":
+					key = self._UNDERSCORE
+				elif key == u"*":
+					key = self._STAR
+				if not node.has_key(key):
+					node[key] = {}
+				node = node[key]
+
+		# navigate yet further down, if a non-empty "topic" string was included
+		if len(topic) > 0:
+			if not node.has_key(self._TOPIC):
+				node[self._TOPIC] = {}
+			node = node[self._TOPIC]
+			for word in string.split(topic):
+				key = word
+				if key == u"_":
+					key = self._UNDERSCORE
+				elif key == u"*":
+					key = self._STAR
+				if not node.has_key(key):
+					node[key] = {}
+				node = node[key]
+
+
+		# add the template.
+		if not node.has_key(self._TEMPLATE):
+			self._templateCount += 1	
+		node[self._TEMPLATE] = template
+
+	def match(self, pattern, that, topic):
+		"""Return the template which is the closest match to pattern. The
+		'that' parameter contains the bot's previous response. The 'topic'
+		parameter contains the current topic of conversation.
+
+		Returns None if no template is found.
+		
+		"""
+		if len(pattern) == 0:
+			return None
+		# Mutilate the input.  Remove all punctuation and convert the
+		# text to all caps.
+		input = string.upper(pattern)
+		input = re.sub(self._puncStripRE, "", input)
+		if that.strip() == u"": that = u"ULTRABOGUSDUMMYTHAT" # 'that' must never be empty
+		thatInput = string.upper(that)
+		thatInput = re.sub(self._whitespaceRE, " ", thatInput)
+		thatInput = re.sub(self._puncStripRE, "", thatInput)
+		if topic.strip() == u"": topic = u"ULTRABOGUSDUMMYTOPIC" # 'topic' must never be empty
+		topicInput = string.upper(topic)
+		topicInput = re.sub(self._puncStripRE, "", topicInput)
+		
+		# Pass the input off to the recursive call
+		patMatch, template = self._match(input.split(), thatInput.split(), topicInput.split(), self._root)
+		return template
+
+	def star(self, starType, pattern, that, topic, index):
+		"""Returns a string, the portion of pattern that was matched by a *.
+
+		The 'starType' parameter specifies which type of star to find.
+		Legal values are:
+		 - 'star': matches a star in the main pattern.
+		 - 'thatstar': matches a star in the that pattern.
+		 - 'topicstar': matches a star in the topic pattern.
+
+		"""
+		# Mutilate the input.  Remove all punctuation and convert the
+		# text to all caps.
+		input = string.upper(pattern)
+		input = re.sub(self._puncStripRE, "", input)
+		if that.strip() == u"": that = u"ULTRABOGUSDUMMYTHAT" # 'that' must never be empty
+		thatInput = string.upper(that)
+		thatInput = re.sub(self._whitespaceRE, " ", thatInput)
+		thatInput = re.sub(self._puncStripRE, "", thatInput)
+		if topic.strip() == u"": topic = u"ULTRABOGUSDUMMYTOPIC" # 'topic' must never be empty
+		topicInput = string.upper(topic)
+		topicInput = re.sub(self._puncStripRE, "", topicInput)
+
+		# Pass the input off to the recursive pattern-matcher
+		patMatch, template = self._match(input.split(), thatInput.split(), topicInput.split(), self._root)
+		if template == None:
+			return ""
+
+		# Extract the appropriate portion of the pattern, based on the
+		# starType argument.
+		words = None
+		if starType == 'star':
+			patMatch = patMatch[:patMatch.index(self._THAT)]
+			words = input.split()
+		elif starType == 'thatstar':
+			patMatch = patMatch[patMatch.index(self._THAT)+1 : patMatch.index(self._TOPIC)]
+			words = thatInput.split()
+		elif starType == 'topicstar':
+			patMatch = patMatch[patMatch.index(self._TOPIC)+1 :]
+			words = topicInput.split()
+		else:
+			# unknown value
+			raise ValueError, "starType must be in ['star', 'thatstar', 'topicstar']"
+		
+		# compare the input string to the matched pattern, word by word.
+		# At the end of this loop, if foundTheRightStar is true, start and
+		# end will contain the start and end indices (in "words") of
+		# the substring that the desired star matched.
+		foundTheRightStar = False
+		start = end = j = numStars = k = 0
+		for i in range(len(words)):
+			# This condition is true after processing a star
+			# that ISN'T the one we're looking for.
+			if i < k:
+				continue
+			# If we're reached the end of the pattern, we're done.
+			if j == len(patMatch):
+				break
+			if not foundTheRightStar:
+				if patMatch[j] in [self._STAR, self._UNDERSCORE]: #we got a star
+					numStars += 1
+					if numStars == index:
+						# This is the star we care about.
+						foundTheRightStar = True
+					start = i
+					# Iterate through the rest of the string.
+					for k in range (i, len(words)):
+						# If the star is at the end of the pattern,
+						# we know exactly where it ends.
+						if j+1  == len (patMatch):
+							end = len (words)
+							break
+						# If the words have started matching the
+						# pattern again, the star has ended.
+						if patMatch[j+1] == words[k]:
+							end = k - 1
+							i = k
+							break
+				# If we just finished processing the star we cared
+				# about, we exit the loop early.
+				if foundTheRightStar:
+					break
+			# Move to the next element of the pattern.
+			j += 1
+			
+		# extract the star words from the original, unmutilated input.
+		if foundTheRightStar:
+			#print string.join(pattern.split()[start:end+1])
+			if starType == 'star': return string.join(pattern.split()[start:end+1])
+			elif starType == 'thatstar': return string.join(that.split()[start:end+1])
+			elif starType == 'topicstar': return string.join(topic.split()[start:end+1])
+		else: return ""
+
+	def _match(self, words, thatWords, topicWords, root):
+		"""Return a tuple (pat, tem) where pat is a list of nodes, starting
+		at the root and leading to the matching pattern, and tem is the
+		matched template.
+
+		""" 
+		# base-case: if the word list is empty, return the current node's
+		# template.
+		if len(words) == 0:
+			# we're out of words.
+			pattern = []
+			template = None
+			if len(thatWords) > 0:
+				# If thatWords isn't empty, recursively
+				# pattern-match on the _THAT node with thatWords as words.
+				try:
+					pattern, template = self._match(thatWords, [], topicWords, root[self._THAT])
+					if pattern != None:
+						pattern = [self._THAT] + pattern
+				except KeyError:
+					pattern = []
+					template = None
+			elif len(topicWords) > 0:
+				# If thatWords is empty and topicWords isn't, recursively pattern
+				# on the _TOPIC node with topicWords as words.
+				try:
+					pattern, template = self._match(topicWords, [], [], root[self._TOPIC])
+					if pattern != None:
+						pattern = [self._TOPIC] + pattern
+				except KeyError:
+					pattern = []
+					template = None
+			if template == None:
+				# we're totally out of input.  Grab the template at this node.
+				pattern = []
+				try: template = root[self._TEMPLATE]
+				except KeyError: template = None
+			return (pattern, template)
+
+		first = words[0]
+		suffix = words[1:]
+		
+		# Check underscore.
+		# Note: this is causing problems in the standard AIML set, and is
+		# currently disabled.
+		if root.has_key(self._UNDERSCORE):
+			# Must include the case where suf is [] in order to handle the case
+			# where a * or _ is at the end of the pattern.
+			for j in range(len(suffix)+1):
+				suf = suffix[j:]
+				pattern, template = self._match(suf, thatWords, topicWords, root[self._UNDERSCORE])
+				if template is not None:
+					newPattern = [self._UNDERSCORE] + pattern
+					return (newPattern, template)
+
+		# Check first
+		if root.has_key(first):
+			pattern, template = self._match(suffix, thatWords, topicWords, root[first])
+			if template is not None:
+				newPattern = [first] + pattern
+				return (newPattern, template)
+
+		# check bot name
+		if root.has_key(self._BOT_NAME) and first == self._botName:
+			pattern, template = self._match(suffix, thatWords, topicWords, root[self._BOT_NAME])
+			if template is not None:
+				newPattern = [first] + pattern
+				return (newPattern, template)
+		
+		# check star
+		if root.has_key(self._STAR):
+			# Must include the case where suf is [] in order to handle the case
+			# where a * or _ is at the end of the pattern.
+			for j in range(len(suffix)+1):
+				suf = suffix[j:]
+				pattern, template = self._match(suf, thatWords, topicWords, root[self._STAR])
+				if template is not None:
+					newPattern = [self._STAR] + pattern
+					return (newPattern, template)
+
+		# No matches were found.
+		return (None, None)			
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