mirror of
https://github.com/gsi-upm/senpy
synced 2024-11-22 00:02:28 +00:00
369 lines
20 KiB
Python
369 lines
20 KiB
Python
#!/usr/bin/python
|
|
# coding: utf-8
|
|
'''
|
|
Created on July 04, 2013
|
|
@author: C.J. Hutto
|
|
|
|
Citation Information
|
|
|
|
If you use any of the VADER sentiment analysis tools
|
|
(VADER sentiment lexicon or Python code for rule-based sentiment
|
|
analysis engine) in your work or research, please cite the paper.
|
|
For example:
|
|
|
|
Hutto, C.J. & Gilbert, E.E. (2014). VADER: A Parsimonious Rule-based Model for
|
|
Sentiment Analysis of Social Media Text. Eighth International Conference on
|
|
Weblogs and Social Media (ICWSM-14). Ann Arbor, MI, June 2014.
|
|
'''
|
|
|
|
import os, math, re, sys, fnmatch, string
|
|
import codecs
|
|
|
|
def make_lex_dict(f):
|
|
maps = {}
|
|
with codecs.open(f, encoding='iso-8859-1') as f:
|
|
for wmsr in f:
|
|
w, m = wmsr.strip().split('\t')[:2]
|
|
maps[w] = m
|
|
return maps
|
|
|
|
f = 'vader_sentiment_lexicon.txt' # empirically derived valence ratings for words, emoticons, slang, swear words, acronyms/initialisms
|
|
try:
|
|
word_valence_dict = make_lex_dict(f)
|
|
except:
|
|
f = os.path.join(os.path.dirname(__file__),'vader_sentiment_lexicon.txt')
|
|
word_valence_dict = make_lex_dict(f)
|
|
|
|
# for removing punctuation
|
|
regex_remove_punctuation = re.compile('[%s]' % re.escape(string.punctuation))
|
|
|
|
def sentiment(text):
|
|
"""
|
|
Returns a float for sentiment strength based on the input text.
|
|
Positive values are positive valence, negative value are negative valence.
|
|
"""
|
|
wordsAndEmoticons = str(text).split() #doesn't separate words from adjacent punctuation (keeps emoticons & contractions)
|
|
text_mod = regex_remove_punctuation.sub('', text) # removes punctuation (but loses emoticons & contractions)
|
|
wordsOnly = str(text_mod).split()
|
|
# get rid of empty items or single letter "words" like 'a' and 'I' from wordsOnly
|
|
for word in wordsOnly:
|
|
if len(word) <= 1:
|
|
wordsOnly.remove(word)
|
|
# now remove adjacent & redundant punctuation from [wordsAndEmoticons] while keeping emoticons and contractions
|
|
puncList = [".", "!", "?", ",", ";", ":", "-", "'", "\"",
|
|
"!!", "!!!", "??", "???", "?!?", "!?!", "?!?!", "!?!?"]
|
|
for word in wordsOnly:
|
|
for p in puncList:
|
|
pword = p + word
|
|
x1 = wordsAndEmoticons.count(pword)
|
|
while x1 > 0:
|
|
i = wordsAndEmoticons.index(pword)
|
|
wordsAndEmoticons.remove(pword)
|
|
wordsAndEmoticons.insert(i, word)
|
|
x1 = wordsAndEmoticons.count(pword)
|
|
|
|
wordp = word + p
|
|
x2 = wordsAndEmoticons.count(wordp)
|
|
while x2 > 0:
|
|
i = wordsAndEmoticons.index(wordp)
|
|
wordsAndEmoticons.remove(wordp)
|
|
wordsAndEmoticons.insert(i, word)
|
|
x2 = wordsAndEmoticons.count(wordp)
|
|
# get rid of residual empty items or single letter "words" like 'a' and 'I' from wordsAndEmoticons
|
|
for word in wordsAndEmoticons:
|
|
if len(word) <= 1:
|
|
wordsAndEmoticons.remove(word)
|
|
|
|
# remove stopwords from [wordsAndEmoticons]
|
|
#stopwords = [str(word).strip() for word in open('stopwords.txt')]
|
|
#for word in wordsAndEmoticons:
|
|
# if word in stopwords:
|
|
# wordsAndEmoticons.remove(word)
|
|
|
|
# check for negation
|
|
negate = ["aint", "arent", "cannot", "cant", "couldnt", "darent", "didnt", "doesnt",
|
|
"ain't", "aren't", "can't", "couldn't", "daren't", "didn't", "doesn't",
|
|
"dont", "hadnt", "hasnt", "havent", "isnt", "mightnt", "mustnt", "neither",
|
|
"don't", "hadn't", "hasn't", "haven't", "isn't", "mightn't", "mustn't",
|
|
"neednt", "needn't", "never", "none", "nope", "nor", "not", "nothing", "nowhere",
|
|
"oughtnt", "shant", "shouldnt", "uhuh", "wasnt", "werent",
|
|
"oughtn't", "shan't", "shouldn't", "uh-uh", "wasn't", "weren't",
|
|
"without", "wont", "wouldnt", "won't", "wouldn't", "rarely", "seldom", "despite"]
|
|
def negated(list, nWords=[], includeNT=True):
|
|
nWords.extend(negate)
|
|
for word in nWords:
|
|
if word in list:
|
|
return True
|
|
if includeNT:
|
|
for word in list:
|
|
if "n't" in word:
|
|
return True
|
|
if "least" in list:
|
|
i = list.index("least")
|
|
if i > 0 and list[i-1] != "at":
|
|
return True
|
|
return False
|
|
|
|
def normalize(score, alpha=15):
|
|
# normalize the score to be between -1 and 1 using an alpha that approximates the max expected value
|
|
normScore = score/math.sqrt( ((score*score) + alpha) )
|
|
return normScore
|
|
|
|
def wildCardMatch(patternWithWildcard, listOfStringsToMatchAgainst):
|
|
listOfMatches = fnmatch.filter(listOfStringsToMatchAgainst, patternWithWildcard)
|
|
return listOfMatches
|
|
|
|
|
|
def isALLCAP_differential(wordList):
|
|
countALLCAPS= 0
|
|
for w in wordList:
|
|
if str(w).isupper():
|
|
countALLCAPS += 1
|
|
cap_differential = len(wordList) - countALLCAPS
|
|
if cap_differential > 0 and cap_differential < len(wordList):
|
|
isDiff = True
|
|
else: isDiff = False
|
|
return isDiff
|
|
isCap_diff = isALLCAP_differential(wordsAndEmoticons)
|
|
|
|
b_incr = 0.293 #(empirically derived mean sentiment intensity rating increase for booster words)
|
|
b_decr = -0.293
|
|
# booster/dampener 'intensifiers' or 'degree adverbs' http://en.wiktionary.org/wiki/Category:English_degree_adverbs
|
|
booster_dict = {"absolutely": b_incr, "amazingly": b_incr, "awfully": b_incr, "completely": b_incr, "considerably": b_incr,
|
|
"decidedly": b_incr, "deeply": b_incr, "effing": b_incr, "enormously": b_incr,
|
|
"entirely": b_incr, "especially": b_incr, "exceptionally": b_incr, "extremely": b_incr,
|
|
"fabulously": b_incr, "flipping": b_incr, "flippin": b_incr,
|
|
"fricking": b_incr, "frickin": b_incr, "frigging": b_incr, "friggin": b_incr, "fully": b_incr, "fucking": b_incr,
|
|
"greatly": b_incr, "hella": b_incr, "highly": b_incr, "hugely": b_incr, "incredibly": b_incr,
|
|
"intensely": b_incr, "majorly": b_incr, "more": b_incr, "most": b_incr, "particularly": b_incr,
|
|
"purely": b_incr, "quite": b_incr, "really": b_incr, "remarkably": b_incr,
|
|
"so": b_incr, "substantially": b_incr,
|
|
"thoroughly": b_incr, "totally": b_incr, "tremendously": b_incr,
|
|
"uber": b_incr, "unbelievably": b_incr, "unusually": b_incr, "utterly": b_incr,
|
|
"very": b_incr,
|
|
|
|
"almost": b_decr, "barely": b_decr, "hardly": b_decr, "just enough": b_decr,
|
|
"kind of": b_decr, "kinda": b_decr, "kindof": b_decr, "kind-of": b_decr,
|
|
"less": b_decr, "little": b_decr, "marginally": b_decr, "occasionally": b_decr, "partly": b_decr,
|
|
"scarcely": b_decr, "slightly": b_decr, "somewhat": b_decr,
|
|
"sort of": b_decr, "sorta": b_decr, "sortof": b_decr, "sort-of": b_decr}
|
|
sentiments = []
|
|
for item in wordsAndEmoticons:
|
|
v = 0
|
|
i = wordsAndEmoticons.index(item)
|
|
if (i < len(wordsAndEmoticons)-1 and str(item).lower() == "kind" and \
|
|
str(wordsAndEmoticons[i+1]).lower() == "of") or str(item).lower() in booster_dict:
|
|
sentiments.append(v)
|
|
continue
|
|
item_lowercase = str(item).lower()
|
|
if item_lowercase in word_valence_dict:
|
|
#get the sentiment valence
|
|
v = float(word_valence_dict[item_lowercase])
|
|
|
|
#check if sentiment laden word is in ALLCAPS (while others aren't)
|
|
c_incr = 0.733 #(empirically derived mean sentiment intensity rating increase for using ALLCAPs to emphasize a word)
|
|
if str(item).isupper() and isCap_diff:
|
|
if v > 0: v += c_incr
|
|
else: v -= c_incr
|
|
|
|
#check if the preceding words increase, decrease, or negate/nullify the valence
|
|
def scalar_inc_dec(word, valence):
|
|
scalar = 0.0
|
|
word_lower = str(word).lower()
|
|
if word_lower in booster_dict:
|
|
scalar = booster_dict[word_lower]
|
|
if valence < 0: scalar *= -1
|
|
#check if booster/dampener word is in ALLCAPS (while others aren't)
|
|
if str(word).isupper() and isCap_diff:
|
|
if valence > 0: scalar += c_incr
|
|
else: scalar -= c_incr
|
|
return scalar
|
|
n_scalar = -0.74
|
|
if i > 0 and str(wordsAndEmoticons[i-1]).lower() not in word_valence_dict:
|
|
s1 = scalar_inc_dec(wordsAndEmoticons[i-1], v)
|
|
v = v+s1
|
|
if negated([wordsAndEmoticons[i-1]]): v = v*n_scalar
|
|
if i > 1 and str(wordsAndEmoticons[i-2]).lower() not in word_valence_dict:
|
|
s2 = scalar_inc_dec(wordsAndEmoticons[i-2], v)
|
|
if s2 != 0: s2 = s2*0.95
|
|
v = v+s2
|
|
# check for special use of 'never' as valence modifier instead of negation
|
|
if wordsAndEmoticons[i-2] == "never" and (wordsAndEmoticons[i-1] == "so" or wordsAndEmoticons[i-1] == "this"):
|
|
v = v*1.5
|
|
# otherwise, check for negation/nullification
|
|
elif negated([wordsAndEmoticons[i-2]]): v = v*n_scalar
|
|
if i > 2 and str(wordsAndEmoticons[i-3]).lower() not in word_valence_dict:
|
|
s3 = scalar_inc_dec(wordsAndEmoticons[i-3], v)
|
|
if s3 != 0: s3 = s3*0.9
|
|
v = v+s3
|
|
# check for special use of 'never' as valence modifier instead of negation
|
|
if wordsAndEmoticons[i-3] == "never" and \
|
|
(wordsAndEmoticons[i-2] == "so" or wordsAndEmoticons[i-2] == "this") or \
|
|
(wordsAndEmoticons[i-1] == "so" or wordsAndEmoticons[i-1] == "this"):
|
|
v = v*1.25
|
|
# otherwise, check for negation/nullification
|
|
elif negated([wordsAndEmoticons[i-3]]): v = v*n_scalar
|
|
|
|
# check for special case idioms using a sentiment-laden keyword known to SAGE
|
|
special_case_idioms = {"the shit": 3, "the bomb": 3, "bad ass": 1.5, "yeah right": -2,
|
|
"cut the mustard": 2, "kiss of death": -1.5, "hand to mouth": -2}
|
|
# future work: consider other sentiment-laden idioms
|
|
#other_idioms = {"back handed": -2, "blow smoke": -2, "blowing smoke": -2, "upper hand": 1, "break a leg": 2,
|
|
# "cooking with gas": 2, "in the black": 2, "in the red": -2, "on the ball": 2,"under the weather": -2}
|
|
onezero = "{} {}".format(str(wordsAndEmoticons[i-1]), str(wordsAndEmoticons[i]))
|
|
twoonezero = "{} {} {}".format(str(wordsAndEmoticons[i-2]), str(wordsAndEmoticons[i-1]), str(wordsAndEmoticons[i]))
|
|
twoone = "{} {}".format(str(wordsAndEmoticons[i-2]), str(wordsAndEmoticons[i-1]))
|
|
threetwoone = "{} {} {}".format(str(wordsAndEmoticons[i-3]), str(wordsAndEmoticons[i-2]), str(wordsAndEmoticons[i-1]))
|
|
threetwo = "{} {}".format(str(wordsAndEmoticons[i-3]), str(wordsAndEmoticons[i-2]))
|
|
if onezero in special_case_idioms: v = special_case_idioms[onezero]
|
|
elif twoonezero in special_case_idioms: v = special_case_idioms[twoonezero]
|
|
elif twoone in special_case_idioms: v = special_case_idioms[twoone]
|
|
elif threetwoone in special_case_idioms: v = special_case_idioms[threetwoone]
|
|
elif threetwo in special_case_idioms: v = special_case_idioms[threetwo]
|
|
if len(wordsAndEmoticons)-1 > i:
|
|
zeroone = "{} {}".format(str(wordsAndEmoticons[i]), str(wordsAndEmoticons[i+1]))
|
|
if zeroone in special_case_idioms: v = special_case_idioms[zeroone]
|
|
if len(wordsAndEmoticons)-1 > i+1:
|
|
zeroonetwo = "{} {}".format(str(wordsAndEmoticons[i]), str(wordsAndEmoticons[i+1]), str(wordsAndEmoticons[i+2]))
|
|
if zeroonetwo in special_case_idioms: v = special_case_idioms[zeroonetwo]
|
|
|
|
# check for booster/dampener bi-grams such as 'sort of' or 'kind of'
|
|
if threetwo in booster_dict or twoone in booster_dict:
|
|
v = v+b_decr
|
|
|
|
# check for negation case using "least"
|
|
if i > 1 and str(wordsAndEmoticons[i-1]).lower() not in word_valence_dict \
|
|
and str(wordsAndEmoticons[i-1]).lower() == "least":
|
|
if (str(wordsAndEmoticons[i-2]).lower() != "at" and str(wordsAndEmoticons[i-2]).lower() != "very"):
|
|
v = v*n_scalar
|
|
elif i > 0 and str(wordsAndEmoticons[i-1]).lower() not in word_valence_dict \
|
|
and str(wordsAndEmoticons[i-1]).lower() == "least":
|
|
v = v*n_scalar
|
|
sentiments.append(v)
|
|
|
|
# check for modification in sentiment due to contrastive conjunction 'but'
|
|
if 'but' in wordsAndEmoticons or 'BUT' in wordsAndEmoticons:
|
|
try: bi = wordsAndEmoticons.index('but')
|
|
except: bi = wordsAndEmoticons.index('BUT')
|
|
for s in sentiments:
|
|
si = sentiments.index(s)
|
|
if si < bi:
|
|
sentiments.pop(si)
|
|
sentiments.insert(si, s*0.5)
|
|
elif si > bi:
|
|
sentiments.pop(si)
|
|
sentiments.insert(si, s*1.5)
|
|
|
|
if sentiments:
|
|
sum_s = float(sum(sentiments))
|
|
#print sentiments, sum_s
|
|
|
|
# check for added emphasis resulting from exclamation points (up to 4 of them)
|
|
ep_count = str(text).count("!")
|
|
if ep_count > 4: ep_count = 4
|
|
ep_amplifier = ep_count*0.292 #(empirically derived mean sentiment intensity rating increase for exclamation points)
|
|
if sum_s > 0: sum_s += ep_amplifier
|
|
elif sum_s < 0: sum_s -= ep_amplifier
|
|
|
|
# check for added emphasis resulting from question marks (2 or 3+)
|
|
qm_count = str(text).count("?")
|
|
qm_amplifier = 0
|
|
if qm_count > 1:
|
|
if qm_count <= 3: qm_amplifier = qm_count*0.18
|
|
else: qm_amplifier = 0.96
|
|
if sum_s > 0: sum_s += qm_amplifier
|
|
elif sum_s < 0: sum_s -= qm_amplifier
|
|
|
|
compound = normalize(sum_s)
|
|
|
|
# want separate positive versus negative sentiment scores
|
|
pos_sum = 0.0
|
|
neg_sum = 0.0
|
|
neu_count = 0
|
|
for sentiment_score in sentiments:
|
|
if sentiment_score > 0:
|
|
pos_sum += (float(sentiment_score) +1) # compensates for neutral words that are counted as 1
|
|
if sentiment_score < 0:
|
|
neg_sum += (float(sentiment_score) -1) # when used with math.fabs(), compensates for neutrals
|
|
if sentiment_score == 0:
|
|
neu_count += 1
|
|
|
|
if pos_sum > math.fabs(neg_sum): pos_sum += (ep_amplifier+qm_amplifier)
|
|
elif pos_sum < math.fabs(neg_sum): neg_sum -= (ep_amplifier+qm_amplifier)
|
|
|
|
total = pos_sum + math.fabs(neg_sum) + neu_count
|
|
pos = math.fabs(pos_sum / total)
|
|
neg = math.fabs(neg_sum / total)
|
|
neu = math.fabs(neu_count / total)
|
|
|
|
else:
|
|
compound = 0.0; pos = 0.0; neg = 0.0; neu = 0.0
|
|
|
|
s = {"neg" : round(neg, 3),
|
|
"neu" : round(neu, 3),
|
|
"pos" : round(pos, 3),
|
|
"compound" : round(compound, 4)}
|
|
return s
|
|
|
|
|
|
if __name__ == '__main__':
|
|
# --- examples -------
|
|
sentences = [
|
|
"VADER is smart, handsome, and funny.", # positive sentence example
|
|
"VADER is smart, handsome, and funny!", # punctuation emphasis handled correctly (sentiment intensity adjusted)
|
|
"VADER is very smart, handsome, and funny.", # booster words handled correctly (sentiment intensity adjusted)
|
|
"VADER is VERY SMART, handsome, and FUNNY.", # emphasis for ALLCAPS handled
|
|
"VADER is VERY SMART, handsome, and FUNNY!!!",# combination of signals - VADER appropriately adjusts intensity
|
|
"VADER is VERY SMART, really handsome, and INCREDIBLY FUNNY!!!",# booster words & punctuation make this close to ceiling for score
|
|
"The book was good.", # positive sentence
|
|
"The book was kind of good.", # qualified positive sentence is handled correctly (intensity adjusted)
|
|
"The plot was good, but the characters are uncompelling and the dialog is not great.", # mixed negation sentence
|
|
"A really bad, horrible book.", # negative sentence with booster words
|
|
"At least it isn't a horrible book.", # negated negative sentence with contraction
|
|
":) and :D", # emoticons handled
|
|
"", # an empty string is correctly handled
|
|
"Today sux", # negative slang handled
|
|
"Today sux!", # negative slang with punctuation emphasis handled
|
|
"Today SUX!", # negative slang with capitalization emphasis
|
|
"Today kinda sux! But I'll get by, lol" # mixed sentiment example with slang and constrastive conjunction "but"
|
|
]
|
|
paragraph = "It was one of the worst movies I've seen, despite good reviews. \
|
|
Unbelievably bad acting!! Poor direction. VERY poor production. \
|
|
The movie was bad. Very bad movie. VERY bad movie. VERY BAD movie. VERY BAD movie!"
|
|
|
|
from nltk import tokenize
|
|
lines_list = tokenize.sent_tokenize(paragraph)
|
|
sentences.extend(lines_list)
|
|
|
|
tricky_sentences = [
|
|
"Most automated sentiment analysis tools are shit.",
|
|
"VADER sentiment analysis is the shit.",
|
|
"Sentiment analysis has never been good.",
|
|
"Sentiment analysis with VADER has never been this good.",
|
|
"Warren Beatty has never been so entertaining.",
|
|
"I won't say that the movie is astounding and I wouldn't claim that the movie is too banal either.",
|
|
"I like to hate Michael Bay films, but I couldn't fault this one",
|
|
"It's one thing to watch an Uwe Boll film, but another thing entirely to pay for it",
|
|
"The movie was too good",
|
|
"This movie was actually neither that funny, nor super witty.",
|
|
"This movie doesn't care about cleverness, wit or any other kind of intelligent humor.",
|
|
"Those who find ugly meanings in beautiful things are corrupt without being charming.",
|
|
"There are slow and repetitive parts, BUT it has just enough spice to keep it interesting.",
|
|
"The script is not fantastic, but the acting is decent and the cinematography is EXCELLENT!",
|
|
"Roger Dodger is one of the most compelling variations on this theme.",
|
|
"Roger Dodger is one of the least compelling variations on this theme.",
|
|
"Roger Dodger is at least compelling as a variation on the theme.",
|
|
"they fall in love with the product",
|
|
"but then it breaks",
|
|
"usually around the time the 90 day warranty expires",
|
|
"the twin towers collapsed today",
|
|
"However, Mr. Carter solemnly argues, his client carried out the kidnapping under orders and in the ''least offensive way possible.''"
|
|
]
|
|
sentences.extend(tricky_sentences)
|
|
for sentence in sentences:
|
|
print(sentence)
|
|
ss = sentiment(sentence)
|
|
print("\t" + str(ss))
|
|
|
|
print("\n\n Done!")
|