#### PATTERN | XX ################################################################################## # -*- coding: utf-8 -*- # Copyright (c) year, institute, country # Author: Name (e-mail) # License: BSD (see LICENSE.txt for details). # http://www.clips.ua.ac.be/pages/pattern #################################################################################################### # Template for pattern.xx, bundling natural language processing tools for language XXXXX. # The module bundles a shallow parser (part-of-speech tagger, chunker, lemmatizer) # with functions for word inflection (singularization, pluralization, conjugation) # and sentiment analysis. # Base classes for the parser, verb table and sentiment lexicon are inherited from pattern.text. # The parser can be subclassed with a custom tokenizer (finds sentence boundaries) # and lemmatizer (uses word inflection to find the base form of words). # The part-of-speech tagger requires a lexicon of tagged known words and rules for unknown words. # Tools for word inflection should be bundled in pattern.text.xx.inflect. import os import sys try: MODULE = os.path.dirname(os.path.realpath(__file__)) except: MODULE = "" sys.path.insert(0, os.path.join(MODULE, "..", "..", "..", "..")) # Import parser base classes. from pattern.text import ( Lexicon, Model, Morphology, Context, Parser as _Parser, ngrams, pprint, commandline, PUNCTUATION ) # Import parse tree base classes. from pattern.text.tree import ( Tree, Text, Sentence, Slice, Chunk, PNPChunk, Chink, Word, table, SLASH, WORD, POS, CHUNK, PNP, REL, ANCHOR, LEMMA, AND, OR ) # Import sentiment analysis base classes. from pattern.text import ( Sentiment, NOUN, VERB, ADJECTIVE, ADVERB, MOOD, IRONY ) # Import spelling base class. from pattern.text import ( Spelling ) # Import verb tenses. from pattern.text import ( INFINITIVE, PRESENT, PAST, FUTURE, FIRST, SECOND, THIRD, SINGULAR, PLURAL, SG, PL, PROGRESSIVE, PARTICIPLE ) # Import inflection functions. from pattern.text.xx.inflect import ( article, referenced, DEFINITE, INDEFINITE, pluralize, singularize, NOUN, VERB, ADJECTIVE, verbs, conjugate, lemma, lexeme, tenses, predicative, attributive ) # Import all submodules. from pattern.text.xx import inflect sys.path.pop(0) #--- PARSER ---------------------------------------------------------------------------------------- # Pattern uses the Penn Treebank II tagset (http://www.clips.ua.ac.be/pages/penn-treebank-tagset). # The lexicon for pattern.xx may be using a different tagset (e.g., PAROLE, WOTAN). # The following functions are meant to map the tags to Penn Treebank II, see Parser.find_chunks(). TAGSET = {"??": "NN"} # pattern.xx tagset => Penn Treebank II. def tagset2penntreebank(tag): return TAGSET.get(tag, tag) # Different languages have different contractions (e.g., English "I've" or French "j'ai") # and abbreviations. The following functions define contractions and abbreviations # for pattern.xx, see also Parser.find_tokens(). REPLACEMENTS = {"'s": " 's", "'ve": " 've"} ABBREVIATIONS = set(("e.g.", "etc.", "i.e.")) # A lemmatizer can be constructed if we have a pattern.xx.inflect, # with functions for noun singularization and verb conjugation (i.e., infinitives). def find_lemmata(tokens): """ Annotates the tokens with lemmata for plural nouns and conjugated verbs, where each token is a [word, part-of-speech] list. """ for token in tokens: word, pos, lemma = token[0], token[1], token[0] if pos.startswith("JJ"): lemma = predicative(word) if pos == "NNS": lemma = singularize(word) if pos.startswith(("VB", "MD")): lemma = conjugate(word, INFINITIVE) or word token.append(lemma.lower()) return tokens # Subclass the base parser with the language-specific functionality: class Parser(_Parser): def find_tokens(self, tokens, **kwargs): kwargs.setdefault("abbreviations", ABBREVIATIONS) kwargs.setdefault("replace", REPLACEMENTS) return _Parser.find_tokens(self, tokens, **kwargs) def find_tags(self, tokens, **kwargs): kwargs.setdefault("map", tagset2penntreebank) return _Parser.find_tags(self, tokens, **kwargs) def find_chunks(self, tokens, **kwargs): return _Parser.find_chunks(self, tokens, **kwargs) def find_lemmata(self, tokens, **kwargs): return find_lemmata(tokens) # The parser's part-of-speech tagger requires a lexicon of tagged known words, # and rules for unknown words. See pattern.text.Morphology and pattern.text.Context # for further details. A tutorial on how to acquire data for the lexicon is here: # http://www.clips.ua.ac.be/pages/using-wiktionary-to-build-an-italian-part-of-speech-tagger # Create the parser with default tags for unknown words: # (noun, proper noun, numeric). parser = Parser( lexicon = os.path.join(MODULE, "xx-lexicon.txt"), # A dict of known words => most frequent tag. frequency = os.path.join(MODULE, "xx-frequency.txt"), # A dict of word frequency. morphology = os.path.join(MODULE, "xx-morphology.txt"), # A set of suffix rules. context = os.path.join(MODULE, "xx-context.txt"), # A set of contextual rules. entities = os.path.join(MODULE, "xx-entities.txt"), # A dict of named entities: John = NNP-PERS. default = ("NN", "NNP", "CD"), language = "xx" ) lexicon = parser.lexicon # Expose lexicon. # Create the sentiment lexicon, # see pattern/text/xx/xx-sentiment.xml for further details. # We also need to define the tag for modifiers, # words that modify the score of the following word # (e.g., *very* good, *not good, ...) sentiment = Sentiment( path = os.path.join(MODULE, "xx-sentiment.xml"), synset = None, negations = ("no", "not", "never"), modifiers = ("RB",), modifier = lambda w: w.endswith("ly"), # brilliantly, hardly, partially, ... language = "xx" ) # Nothing should be changed below. def tokenize(s, *args, **kwargs): """ Returns a list of sentences, where punctuation marks have been split from words. """ return parser.find_tokens(s, *args, **kwargs) def parse(s, *args, **kwargs): """ Returns a tagged Unicode string. """ return parser.parse(s, *args, **kwargs) def parsetree(s, *args, **kwargs): """ Returns a parsed Text from the given string. """ return Text(parse(s, *args, **kwargs)) def tree(s, token=[WORD, POS, CHUNK, PNP, REL, LEMMA]): """ Returns a parsed Text from the given parsed string. """ return Text(s, token) def tag(s, tokenize=True, encoding="utf-8", **kwargs): """ Returns a list of (token, tag)-tuples from the given string. """ tags = [] for sentence in parse(s, tokenize, True, False, False, False, encoding, **kwargs).split(): for token in sentence: tags.append((token[0], token[1])) return tags def keywords(s, top=10, **kwargs): """ Returns a sorted list of keywords in the given string. """ return parser.find_keywords(s, **dict({ "frequency": parser.frequency, "top": top, "pos": ("NN",), "ignore": ("rt",)}, **kwargs)) def polarity(s, **kwargs): """ Returns the sentence polarity (positive/negative) between -1.0 and 1.0. """ return sentiment(s, **kwargs)[0] def subjectivity(s, **kwargs): """ Returns the sentence subjectivity (objective/subjective) between 0.0 and 1.0. """ return sentiment(s, **kwargs)[1] def positive(s, threshold=0.1, **kwargs): """ Returns True if the given sentence has a positive sentiment. """ return polarity(s, **kwargs) >= threshold split = tree # Backwards compatibility. #--------------------------------------------------------------------------------------------------- # python -m pattern.xx xml -s "..." -OTCL if __name__ == "__main__": commandline(parse)