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NLP Consumer Complaint
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NLP Consumer Complaint
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import urllib
import json
import datetime
import csv
import urllib
from bs4 import BeautifulSoup
from nltk import sent_tokenize, word_tokenize, pos_tag
import nltk
import numpy as np
import matplotlib.pyplot as plt
import codecs
reader = codecs.getreader("utf-8")
app_id = "12345"
app_secret = "12345"
access_token = app_id + "|" + app_secret
page_id = 'costco'
def feedFacebook(page_id, access_token,num_statuses):
base = "https://graph.facebook.com/v2.8"
node = "/" + page_id + "/feed"
parameters = "/?fields=message,link,likes.limit(1).summary(true),comments.limit(1).summary(true),shares&limit=%s&access_token=%s" % (num_statuses, access_token) # changed url = base + node +parameters
url = base + node + parameters
print(url)
response = urllib.request.urlopen(url)
data = json.load(reader(response))
print(json.dumps(data, indent=4, sort_keys=True))
b=json.dumps(data, indent=4, sort_keys=True)
return data
a=feedFacebook(page_id, access_token,100)
a['data'][0]['message']
for k in range(0,10):
print(a['data'][k]['message'])
txt=[]
share=[]
for i in range(0,50):
txt.append(a['data'][0]['message'])
txt
tokens = word_tokenize(str(a))
tokens
long_words1 = [w for w in tokens if 7<len(w)<9]
sorted(long_words1)
fdist01 = nltk.FreqDist(long_words1)
fdist01
a1=fdist01.most_common(20)
a1
names0=[]
value0=[]
for i in range(5,len(a1)):
names0.append(a1[i][0])
value0.append(a1[i][1])
names0.reverse()
value0.reverse()
val = value0 # the bar lengths
pos = np.arange(len(a1)-5)+.5 # the bar centers on the y axis
pos
val
plt.figure(figsize=(9,4))
plt.barh(pos,val, align='center',alpha=0.7,color='rgbcmyk')
plt.yticks(pos, names0)
plt.xlabel('Mentions')
plt.title('FACEBOOK ANALYSIS\n'+page_id)
sentences = sent_tokenize(str(txt))
##### LDA
import logging
logging.basicConfig(format='%(asctime)s : %(levelname)s : %(message)s', level=logging.INFO)
import matplotlib.pyplot as plt
from gensim import corpora
documents = sentences
# remove common words and tokenize
stoplist = set('for a of the and to in'.split())
texts = [[word for word in document.lower().split() if word not in stoplist]
for document in documents]
texts
# remove words that appear only once
from collections import defaultdict
frequency = defaultdict(int)
for text in texts:
for token in text:
frequency[token] += 1
frequency
texts = [[token for token in text if frequency[token] > 1]
for text in texts]
from pprint import pprint # pretty-printer
pprint(texts)
dictionary = corpora.Dictionary(texts)
dictionary.save('/tmp/deerwester4.dict')
print(dictionary.token2id)
## VETOR DAS FRASES
corpus = [dictionary.doc2bow(text) for text in texts]
corpora.MmCorpus.serialize('/tmp/deerwester4.mm', corpus) # store to disk, for later use
print(corpus)
from gensim import corpora, models, similarities
tfidf = models.TfidfModel(corpus) # step 1 -- initialize a model
corpus_tfidf = tfidf[corpus]
for doc in corpus_tfidf:
print(doc)
lsi = models.LsiModel(corpus_tfidf, id2word=dictionary, num_topics=2) # initialize an LSI transformation
corpus_lsi = lsi[corpus_tfidf] # create a double wrapper over the original corpus: bow->tfidf->fold-in-lsi
lsi.print_topics(2)
## COORDENADAS DOS TEXTOS
todas=[]
for doc in corpus_lsi: # both bow->tfidf and tfidf->lsi transformations are actually executed here, on the fly
todas.append(doc)
todas
from gensim import corpora, models, similarities
dictionary = corpora.Dictionary.load('/tmp/deerwester4.dict')
corpus = corpora.MmCorpus('/tmp/deerwester4.mm') # comes from the first tutorial, "From strings to vectors"
print(corpus)
np.array(corpus).shape
lsi = models.LsiModel(corpus, id2word=dictionary, num_topics=2)
p=[]
for i in range(0,len(documents)):
doc1 = documents[i]
vec_bow2 = dictionary.doc2bow(doc1.lower().split())
vec_lsi2 = lsi[vec_bow2] # convert the query to LSI space
p.append(vec_lsi2)
p
index = similarities.MatrixSimilarity(lsi[corpus]) # transform corpus to LSI space and index it
index.save('/tmp/deerwester4.index')
index = similarities.MatrixSimilarity.load('/tmp/deerwester4.index')
#################
import gensim
import numpy as np
import matplotlib.colors as colors
import matplotlib.cm as cmx
import matplotlib as mpl
matrix1 = gensim.matutils.corpus2dense(p, num_terms=2)
matrix3=matrix1.T
matrix3
from sklearn import manifold, datasets, decomposition, ensemble,discriminant_analysis, random_projection
def norm(x):
return (x-np.min(x))/(np.max(x)-np.min(x))
X=norm(matrix3)
tsne = manifold.TSNE(n_components=2, init='pca', random_state=0,perplexity=50,verbose=1,n_iter=1500)
X_tsne = tsne.fit_transform(X)
### WORK HERE - COMO DESCOBRI QUE TINHA 3 CLUSTERS ???? SORT X_tsne
from sklearn.cluster import KMeans
model3=KMeans(n_clusters=10,random_state=0)
model3.fit(X)
cc=model3.predict(X)
## ALSO TRY COM X PARA VER QUE TOPICO SELECIONA
tokens2 = word_tokenize(str(sentences[0:10]))
tokens2
## ADJUST HERE
long_words12 = [w for w in tokens2 if 5<len(w)<12]
sorted(long_words12)
fdist012 = nltk.FreqDist(long_words12)
a12=fdist012.most_common(50)
from matplotlib.colors import LinearSegmentedColormap
colors = [(1, 0, 0), (0, 1, 0), (0, 0, 1)]
cm = LinearSegmentedColormap.from_list(
cc, colors, N=3)
print('TOPIC 1\n')
print(a12,'\n')
for i in np.where(cc==2)[0][2:10]:
print(i,sentences[i])
fig = plt.figure(figsize=(8,4))
plt.title('NATURAL LANGUAGE PROCESSING\n\n'+'TOPIC MODELLING - LDA at page:',fontweight="bold")
plt.scatter(X_tsne[:, 0], X_tsne[:, 1], c=cc,cmap=cm,marker='o', s=200)
plt.show()
from nltk.corpus import stopwords
from nltk.stem.wordnet import WordNetLemmatizer
import string
stop = set(stopwords.words('english'))
exclude = set(string.punctuation)
lemma = WordNetLemmatizer()
def clean(doc):
stop_free = " ".join([i for i in doc.lower().split() if i not in stop])
punc_free = ''.join(ch for ch in stop_free if ch not in exclude)
normalized = " ".join(lemma.lemmatize(word) for word in punc_free.split())
return normalized
doc_clean = [clean(doc).split() for doc in long_words12]
import gensim
from gensim import corpora
dictionary = corpora.Dictionary(doc_clean)
doc_term_matrix = [dictionary.doc2bow(doc) for doc in doc_clean]
Lda = gensim.models.ldamodel.LdaModel
ldamodel = Lda(doc_term_matrix, num_topics=10, id2word = dictionary, passes=50)
plt.figure(figsize=(8,3))
plt.barh(pos,val, align='center',alpha=0.7,color='rgbcmyk')
plt.yticks(pos, names0)
plt.xlabel('Mentions')
plt.title('FACEBOOK ANALYSIS '+page_id+' Word Frequency',fontweight="bold")
fig = plt.figure(figsize=(8,3))
plt.title('CONSUMER COMPLAINT AFTER COMPUTER PURCHASE at Costco\n\n'+'ANALYIS USING FACEBOOK API and Natural Language Processing\n\n'+'Arguments used (clusters) obtained via K-Means',fontweight="bold")
plt.scatter(X_tsne[:, 0], X_tsne[:, 1], c='',cmap=cm,marker='o', s=200)
ff=np.arange(10)
plt.show()
print('WEIGHTS OF ARGUMENTS:\n')
ldamodel.print_topics(num_topics=10, num_words=3)