bibindex_engine_stemmer.py
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bibindex_engine_stemmer.py
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	## This file is part of CDS Invenio.
	## Copyright (C) 2002, 2003, 2004, 2005, 2006, 2007, 2008 CERN.
	##
	## CDS Invenio 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 2 of the
	## License, or (at your option) any later version.
	##
	## CDS Invenio 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 CDS Invenio; if not, write to the Free Software Foundation, Inc.,
	## 59 Temple Place, Suite 330, Boston, MA 02111-1307, USA.

	"""
	BibIndex stemmer facility based on the Porter Stemming Algorithm.
	<http://tartarus.org/~martin/PorterStemmer/>
	"""

	__revision__ = "$Id$"

	from thread import get_ident

	_stemmers = {}

	try:
	### Let's try to use SnowBall PyStemmer
	import Stemmer

	_lang_map = {
	'danish' : 'da',
	'dutch' : 'nl',
	'english' : 'en',
	'finnish' : 'fi',
	'french' : 'fr',
	'german' : 'de',
	'hungarian' : 'hu',
	'italian' : 'it',
	'norwegian' : 'no',
	'portuguese' : 'pt',
	'romanian' : 'ro',
	'russian' : 'ru',
	'spanish' : 'es',
	'swedish' : 'sv',
	'turkish' : 'tr'
	}

	def is_stemmer_available_for_language(lang):
	"""Return true if stemmer for language LANG is available.
	Return false otherwise.
	"""
	thread_ident = get_ident()
	if not _stemmers.has_key(thread_ident):
	_stemmers[thread_ident] = _create_stemmers()
	return _stemmers[thread_ident].has_key(lang)

	def stem(word, lang):
	"""Return WORD stemmed according to language LANG (e.g. 'en')."""
	if lang and is_stemmer_available_for_language(lang):
	return _stemmers[get_ident()][lang].stemWord(word)
	else:
	return word

	def stemWords(words, lang):
	"""Return WORDS stemmed according to language LANG (e.g. 'en')."""
	if lang and is_stemmer_available_for_language(lang):
	return _stemmers[get_ident()][lang].stemWords(words)
	else:
	return words

	def get_stemming_language_map():
	"""Return a diction of code language, language name for all the available
	languages."""
	ret = {}
	for language_name, language_code in _lang_map.iteritems():
	if is_stemmer_available_for_language(language_code):
	ret[language_name] = language_code
	return ret

	def _create_stemmers():
	"""Create stemmers dictionary for all possible languages."""
	stemmers_initialized = {}
	for src_lang in Stemmer.algorithms():
	try:
	dst_lang = _lang_map.get(src_lang)
	if dst_lang:
	stemmers_initialized[dst_lang] = Stemmer.Stemmer(src_lang, 40000)
	except (TypeError, KeyError):
	pass
	return stemmers_initialized


	except ImportError:
	### Here is the original PorterStemmer class provided as a fallback,
	### the "free of charge for any purpose" implementation of the Porter stemmer
	### algorithm in Python. The Invenio API interface follows below.

	class PorterStemmer:
	"""
	This is the Porter stemming algorithm, ported to Python from the
	version coded up in ANSI C by the author. It may be be regarded
	as canonical, in that it follows the algorithm presented in

	Porter, 1980, An algorithm for suffix stripping, Program, Vol. 14,
	no. 3, pp 130-137,

	only differing from it at the points maked --DEPARTURE-- below.

	See also http://www.tartarus.org/~martin/PorterStemmer

	The algorithm as described in the paper could be exactly replicated
	by adjusting the points of DEPARTURE, but this is barely necessary,
	because (a) the points of DEPARTURE are definitely improvements, and
	(b) no encoding of the Porter stemmer I have seen is anything like
	as exact as this version, even with the points of DEPARTURE!

	Vivake Gupta (v@nano.com)

	Release 1: January 2001
	"""

	def __init__(self):
	"""The main part of the stemming algorithm starts here.
	b is a buffer holding a word to be stemmed. The letters are in b[k0],
	b[k0+1] ... ending at b[k]. In fact k0 = 0 in this demo program. k is
	readjusted downwards as the stemming progresses. Zero termination is
	not in fact used in the algorithm.

	Note that only lower case sequences are stemmed. Forcing to lower case
	should be done before stem(...) is called.
	"""

	self.b = "" # buffer for word to be stemmed
	self.k = 0
	self.k0 = 0
	self.j = 0 # j is a general offset into the string

	def cons(self, i):
	"""cons(i) is TRUE <=> b[i] is a consonant."""
	if self.b[i] == 'a' or self.b[i] == 'e' or self.b[i] == 'i' or self.b[i] == 'o' or self.b[i] == 'u':
	return 0
	if self.b[i] == 'y':
	if i == self.k0:
	return 1
	else:
	return (not self.cons(i - 1))
	return 1

	def m(self):
	"""m() measures the number of consonant sequences between k0 and j.
	if c is a consonant sequence and v a vowel sequence, and <..>
	indicates arbitrary presence,

	<c><v> gives 0
	<c>vc<v> gives 1
	<c>vcvc<v> gives 2
	<c>vcvcvc<v> gives 3
	....
	"""
	n = 0
	i = self.k0
	while 1:
	if i > self.j:
	return n
	if not self.cons(i):
	break
	i = i + 1
	i = i + 1
	while 1:
	while 1:
	if i > self.j:
	return n
	if self.cons(i):
	break
	i = i + 1
	i = i + 1
	n = n + 1
	while 1:
	if i > self.j:
	return n
	if not self.cons(i):
	break
	i = i + 1
	i = i + 1

	def vowelinstem(self):
	"""vowelinstem() is TRUE <=> k0,...j contains a vowel"""
	for i in range(self.k0, self.j + 1):
	if not self.cons(i):
	return 1
	return 0

	def doublec(self, j):
	"""doublec(j) is TRUE <=> j,(j-1) contain a double consonant."""
	if j < (self.k0 + 1):
	return 0
	if (self.b[j] != self.b[j-1]):
	return 0
	return self.cons(j)

	def cvc(self, i):
	"""cvc(i) is TRUE <=> i-2,i-1,i has the form consonant - vowel - consonant
	and also if the second c is not w,x or y. this is used when trying to
	restore an e at the end of a short e.g.

	cav(e), lov(e), hop(e), crim(e), but
	snow, box, tray.
	"""
	if i < (self.k0 + 2) or not self.cons(i) or self.cons(i-1) or not self.cons(i-2):
	return 0
	ch = self.b[i]
	if ch == 'w' or ch == 'x' or ch == 'y':
	return 0
	return 1

	def ends(self, s):
	"""ends(s) is TRUE <=> k0,...k ends with the string s."""
	length = len(s)
	if s[length - 1] != self.b[self.k]: # tiny speed-up
	return 0
	if length > (self.k - self.k0 + 1):
	return 0
	if self.b[self.k-length+1:self.k+1] != s:
	return 0
	self.j = self.k - length
	return 1

	def setto(self, s):
	"""setto(s) sets (j+1),...k to the characters in the string s, readjusting k."""
	length = len(s)
	self.b = self.b[:self.j+1] + s + self.b[self.j+length+1:]
	self.k = self.j + length

	def r(self, s):
	"""r(s) is used further down."""
	if self.m() > 0:
	self.setto(s)

	def step1ab(self):
	"""step1ab() gets rid of plurals and -ed or -ing. e.g.

	caresses -> caress
	ponies -> poni
	ties -> ti
	caress -> caress
	cats -> cat

	feed -> feed
	agreed -> agree
	disabled -> disable

	matting -> mat
	mating -> mate
	meeting -> meet
	milling -> mill
	messing -> mess

	meetings -> meet
	"""
	if self.b[self.k] == 's':
	if self.ends("sses"):
	self.k = self.k - 2
	elif self.ends("ies"):
	self.setto("i")
	elif self.b[self.k - 1] != 's':
	self.k = self.k - 1
	if self.ends("eed"):
	if self.m() > 0:
	self.k = self.k - 1
	elif (self.ends("ed") or self.ends("ing")) and self.vowelinstem():
	self.k = self.j
	if self.ends("at"): self.setto("ate")
	elif self.ends("bl"): self.setto("ble")
	elif self.ends("iz"): self.setto("ize")
	elif self.doublec(self.k):
	self.k = self.k - 1
	ch = self.b[self.k]
	if ch == 'l' or ch == 's' or ch == 'z':
	self.k = self.k + 1
	elif (self.m() == 1 and self.cvc(self.k)):
	self.setto("e")

	def step1c(self):
	"""step1c() turns terminal y to i when there is another vowel in the stem."""
	if (self.ends("y") and self.vowelinstem()):
	self.b = self.b[:self.k] + 'i' + self.b[self.k+1:]

	def step2(self):
	"""step2() maps double suffices to single ones.
	so -ization ( = -ize plus -ation) maps to -ize etc. note that the
	string before the suffix must give m() > 0.
	"""
	if self.b[self.k - 1] == 'a':
	if self.ends("ational"): self.r("ate")
	elif self.ends("tional"): self.r("tion")
	elif self.b[self.k - 1] == 'c':
	if self.ends("enci"): self.r("ence")
	elif self.ends("anci"): self.r("ance")
	elif self.b[self.k - 1] == 'e':
	if self.ends("izer"): self.r("ize")
	elif self.b[self.k - 1] == 'l':
	if self.ends("bli"): self.r("ble") # --DEPARTURE--
	# To match the published algorithm, replace this phrase with
	# if self.ends("abli"): self.r("able")
	elif self.ends("alli"): self.r("al")
	elif self.ends("entli"): self.r("ent")
	elif self.ends("eli"): self.r("e")
	elif self.ends("ousli"): self.r("ous")
	elif self.b[self.k - 1] == 'o':
	if self.ends("ization"): self.r("ize")
	elif self.ends("ation"): self.r("ate")
	elif self.ends("ator"): self.r("ate")
	elif self.b[self.k - 1] == 's':
	if self.ends("alism"): self.r("al")
	elif self.ends("iveness"): self.r("ive")
	elif self.ends("fulness"): self.r("ful")
	elif self.ends("ousness"): self.r("ous")
	elif self.b[self.k - 1] == 't':
	if self.ends("aliti"): self.r("al")
	elif self.ends("iviti"): self.r("ive")
	elif self.ends("biliti"): self.r("ble")
	elif self.b[self.k - 1] == 'g': # --DEPARTURE--
	if self.ends("logi"): self.r("log")
	# To match the published algorithm, delete this phrase

	def step3(self):
	"""step3() dels with -ic-, -full, -ness etc. similar strategy to step2."""
	if self.b[self.k] == 'e':
	if self.ends("icate"): self.r("ic")
	elif self.ends("ative"): self.r("")
	elif self.ends("alize"): self.r("al")
	elif self.b[self.k] == 'i':
	if self.ends("iciti"): self.r("ic")
	elif self.b[self.k] == 'l':
	if self.ends("ical"): self.r("ic")
	elif self.ends("ful"): self.r("")
	elif self.b[self.k] == 's':
	if self.ends("ness"): self.r("")

	def step4(self):
	"""step4() takes off -ant, -ence etc., in context <c>vcvc<v>."""
	if self.b[self.k - 1] == 'a':
	if self.ends("al"): pass
	else: return
	elif self.b[self.k - 1] == 'c':
	if self.ends("ance"): pass
	elif self.ends("ence"): pass
	else: return
	elif self.b[self.k - 1] == 'e':
	if self.ends("er"): pass
	else: return
	elif self.b[self.k - 1] == 'i':
	if self.ends("ic"): pass
	else: return
	elif self.b[self.k - 1] == 'l':
	if self.ends("able"): pass
	elif self.ends("ible"): pass
	else: return
	elif self.b[self.k - 1] == 'n':
	if self.ends("ant"): pass
	elif self.ends("ement"): pass
	elif self.ends("ment"): pass
	elif self.ends("ent"): pass
	else: return
	elif self.b[self.k - 1] == 'o':
	if self.ends("ion") and (self.b[self.j] == 's' or self.b[self.j] == 't'): pass
	elif self.ends("ou"): pass
	# takes care of -ous
	else: return
	elif self.b[self.k - 1] == 's':
	if self.ends("ism"): pass
	else: return
	elif self.b[self.k - 1] == 't':
	if self.ends("ate"): pass
	elif self.ends("iti"): pass
	else: return
	elif self.b[self.k - 1] == 'u':
	if self.ends("ous"): pass
	else: return
	elif self.b[self.k - 1] == 'v':
	if self.ends("ive"): pass
	else: return
	elif self.b[self.k - 1] == 'z':
	if self.ends("ize"): pass
	else: return
	else:
	return
	if self.m() > 1:
	self.k = self.j

	def step5(self):
	"""step5() removes a final -e if m() > 1, and changes -ll to -l if
	m() > 1.
	"""
	self.j = self.k
	if self.b[self.k] == 'e':
	a = self.m()
	if a > 1 or (a == 1 and not self.cvc(self.k-1)):
	self.k = self.k - 1
	if self.b[self.k] == 'l' and self.doublec(self.k) and self.m() > 1:
	self.k = self.k -1

	def stem(self, p, i, j):
	"""In stem(p,i,j), p is a char pointer, and the string to be stemmed
	is from p[i] to p[j] inclusive. Typically i is zero and j is the
	offset to the last character of a string, (p[j+1] == '\0'). The
	stemmer adjusts the characters p[i] ... p[j] and returns the new
	end-point of the string, k. Stemming never increases word length, so
	i <= k <= j. To turn the stemmer into a module, declare 'stem' as
	extern, and delete the remainder of this file.
	"""
	# copy the parameters into statics
	self.b = p
	self.k = j
	self.k0 = i
	if self.k <= self.k0 + 1:
	return self.b # --DEPARTURE--

	# With this line, strings of length 1 or 2 don't go through the
	# stemming process, although no mention is made of this in the
	# published algorithm. Remove the line to match the published
	# algorithm.

	self.step1ab()
	self.step1c()
	self.step2()
	self.step3()
	self.step4()
	self.step5()
	return self.b[self.k0:self.k+1]

	_stemmers[get_ident()] = PorterStemmer()

	def is_stemmer_available_for_language(lang):
	"""Return true if stemmer for language LANG is available.
	Return false otherwise.
	"""
	return lang == 'en'

	def stem(word, lang):
	"""Return WORD stemmed according to language LANG (e.g. 'en')."""
	if lang == 'en' and _stemmers and _stemmers.has_key(get_ident()):
	#make sure _stemmers[get_ident()] is avail..
	return _stemmers[get_ident()].stem(word, 0, len(word)-1)
	else:
	return word

	def stemWords(words, lang):
	"""Return WORDS stemmed according to language LANG (e.g. 'en')."""
	if lang == 'en' and _stemmers and _stemmers.has_key(get_ident()):
	#make sure _stemmers[get_ident()] is avail..
	return [_stemmers[get_ident()].stem(word, 0, len(word)-1) for word in words]
	else:
	return words

	def get_stemming_language_map():
	"""Return a diction of code language, language name for all the available
	languages."""
	return {'english' : 'en'}


	if __name__ == '__main__':
	# when invoked via CLI, simply stem the arguments:
	import sys
	if len(sys.argv) > 1:
	for word in sys.argv[1:]:
	print stem(word)

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