Practical Examples Of NLTK Use
Solution 1:
Here's my own practical example for the benefit of anyone else looking this question up (excuse the sample text, it was the first thing I found on Wikipedia):
import nltk
import pprint
tokenizer = None
tagger = None
def init_nltk():
global tokenizer
global tagger
tokenizer = nltk.tokenize.RegexpTokenizer(r'\w+|[^\w\s]+')
tagger = nltk.UnigramTagger(nltk.corpus.brown.tagged_sents())
def tag(text):
global tokenizer
global tagger
if not tokenizer:
init_nltk()
tokenized = tokenizer.tokenize(text)
tagged = tagger.tag(tokenized)
tagged.sort(lambda x,y:cmp(x[1],y[1]))
return tagged
def main():
text = """Mr Blobby is a fictional character who featured on Noel
Edmonds' Saturday night entertainment show Noel's House Party,
which was often a ratings winner in the 1990s. Mr Blobby also
appeared on the Jamie Rose show of 1997. He was designed as an
outrageously over the top parody of a one-dimensional, mute novelty
character, which ironically made him distinctive, absurd and popular.
He was a large pink humanoid, covered with yellow spots, sporting a
permanent toothy grin and jiggling eyes. He communicated by saying
the word "blobby" in an electronically-altered voice, expressing
his moods through tone of voice and repetition.
There was a Mrs. Blobby, seen briefly in the video, and sold as a
doll.
However Mr Blobby actually started out as part of the 'Gotcha'
feature during the show's second series (originally called 'Gotcha
Oscars' until the threat of legal action from the Academy of Motion
Picture Arts and Sciences[citation needed]), in which celebrities
were caught out in a Candid Camera style prank. Celebrities such as
dancer Wayne Sleep and rugby union player Will Carling would be
enticed to take part in a fictitious children's programme based around
their profession. Mr Blobby would clumsily take part in the activity,
knocking over the set, causing mayhem and saying "blobby blobby
blobby", until finally when the prank was revealed, the Blobby
costume would be opened - revealing Noel inside. This was all the more
surprising for the "victim" as during rehearsals Blobby would be
played by an actor wearing only the arms and legs of the costume and
speaking in a normal manner.[citation needed]"""
tagged = tag(text)
l = list(set(tagged))
l.sort(lambda x,y:cmp(x[1],y[1]))
pprint.pprint(l)
if __name__ == '__main__':
main()
Output:
[('rugby', None),
('Oscars', None),
('1990s', None),
('",', None),
('Candid', None),
('"', None),
('blobby', None),
('Edmonds', None),
('Mr', None),
('outrageously', None),
('.[', None),
('toothy', None),
('Celebrities', None),
('Gotcha', None),
(']),', None),
('Jamie', None),
('humanoid', None),
('Blobby', None),
('Carling', None),
('enticed', None),
('programme', None),
('1997', None),
('s', None),
("'", "'"),
('[', '('),
('(', '('),
(']', ')'),
(',', ','),
('.', '.'),
('all', 'ABN'),
('the', 'AT'),
('an', 'AT'),
('a', 'AT'),
('be', 'BE'),
('were', 'BED'),
('was', 'BEDZ'),
('is', 'BEZ'),
('and', 'CC'),
('one', 'CD'),
('until', 'CS'),
('as', 'CS'),
('This', 'DT'),
('There', 'EX'),
('of', 'IN'),
('inside', 'IN'),
('from', 'IN'),
('around', 'IN'),
('with', 'IN'),
('through', 'IN'),
('-', 'IN'),
('on', 'IN'),
('in', 'IN'),
('by', 'IN'),
('during', 'IN'),
('over', 'IN'),
('for', 'IN'),
('distinctive', 'JJ'),
('permanent', 'JJ'),
('mute', 'JJ'),
('popular', 'JJ'),
('such', 'JJ'),
('fictional', 'JJ'),
('yellow', 'JJ'),
('pink', 'JJ'),
('fictitious', 'JJ'),
('normal', 'JJ'),
('dimensional', 'JJ'),
('legal', 'JJ'),
('large', 'JJ'),
('surprising', 'JJ'),
('absurd', 'JJ'),
('Will', 'MD'),
('would', 'MD'),
('style', 'NN'),
('threat', 'NN'),
('novelty', 'NN'),
('union', 'NN'),
('prank', 'NN'),
('winner', 'NN'),
('parody', 'NN'),
('player', 'NN'),
('actor', 'NN'),
('character', 'NN'),
('victim', 'NN'),
('costume', 'NN'),
('action', 'NN'),
('activity', 'NN'),
('dancer', 'NN'),
('grin', 'NN'),
('doll', 'NN'),
('top', 'NN'),
('mayhem', 'NN'),
('citation', 'NN'),
('part', 'NN'),
('repetition', 'NN'),
('manner', 'NN'),
('tone', 'NN'),
('Picture', 'NN'),
('entertainment', 'NN'),
('night', 'NN'),
('series', 'NN'),
('voice', 'NN'),
('Mrs', 'NN'),
('video', 'NN'),
('Motion', 'NN'),
('profession', 'NN'),
('feature', 'NN'),
('word', 'NN'),
('Academy', 'NN-TL'),
('Camera', 'NN-TL'),
('Party', 'NN-TL'),
('House', 'NN-TL'),
('eyes', 'NNS'),
('spots', 'NNS'),
('rehearsals', 'NNS'),
('ratings', 'NNS'),
('arms', 'NNS'),
('celebrities', 'NNS'),
('children', 'NNS'),
('moods', 'NNS'),
('legs', 'NNS'),
('Sciences', 'NNS-TL'),
('Arts', 'NNS-TL'),
('Wayne', 'NP'),
('Rose', 'NP'),
('Noel', 'NP'),
('Saturday', 'NR'),
('second', 'OD'),
('his', 'PP$'),
('their', 'PP$'),
('him', 'PPO'),
('He', 'PPS'),
('more', 'QL'),
('However', 'RB'),
('actually', 'RB'),
('also', 'RB'),
('clumsily', 'RB'),
('originally', 'RB'),
('only', 'RB'),
('often', 'RB'),
('ironically', 'RB'),
('briefly', 'RB'),
('finally', 'RB'),
('electronically', 'RB-HL'),
('out', 'RP'),
('to', 'TO'),
('show', 'VB'),
('Sleep', 'VB'),
('take', 'VB'),
('opened', 'VBD'),
('played', 'VBD'),
('caught', 'VBD'),
('appeared', 'VBD'),
('revealed', 'VBD'),
('started', 'VBD'),
('saying', 'VBG'),
('causing', 'VBG'),
('expressing', 'VBG'),
('knocking', 'VBG'),
('wearing', 'VBG'),
('speaking', 'VBG'),
('sporting', 'VBG'),
('revealing', 'VBG'),
('jiggling', 'VBG'),
('sold', 'VBN'),
('called', 'VBN'),
('made', 'VBN'),
('altered', 'VBN'),
('based', 'VBN'),
('designed', 'VBN'),
('covered', 'VBN'),
('communicated', 'VBN'),
('needed', 'VBN'),
('seen', 'VBN'),
('set', 'VBN'),
('featured', 'VBN'),
('which', 'WDT'),
('who', 'WPS'),
('when', 'WRB')]
Solution 2:
NLP in general is very useful so you might want to broaden your search to general application of text analytics. I used NLTK to aid MOSS 2010 by generating file taxonomy by extracting concept maps. It worked really well. It doesn't take long before files start to cluster in useful ways.
Often times to understand text analytics you have to think in tangents to the ways you are used to thinking. For example, text analytics is extremely useful to discovery. Most people, though, don't even know what the difference is between search and discovery. If you read up on those subjects you will likely "discover" ways in which you might want to put NLTK to work.
Also, consider your world view of text files without NLTK. You have a bunch of random length strings separated by whitespace and punctuation. Some of the punctuation changes how it is used such as the period (which is also a decimal point and a postfix marker for an abbreviation.) With NLTK you get words and more to the point you get parts of speech. Now you have a handle on the content. Use NLTK to discover the concepts and actions in the document. Use NLTK to get at the "meaning" of the document. Meaning in this case refers to the essencial relationships in the document.
It is a good thing to be curious about NLTK. Text Analytics is set to breakout in a big way in the next few years. Those who understand it will be better suited to take advantage of the new opportunities better.
Solution 3:
I'm the author of streamhacker.com (and thanks for the mention, I get a fair amount of click traffic from this particular question). What specifically are you trying to do? NLTK has a lot of tools for doing various things, but is somewhat lacking clear information on what to use the tools for, and how best to use them. It's also oriented towards academic problems, and so it can be heavy going to translate the pedagogical examples to practical solutions.
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