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import pandas as pd |
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import tweepy |
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import re |
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import emoji |
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import spacy |
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import gensim |
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import json |
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import string |
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from spacy.tokenizer import Tokenizer |
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from gensim.parsing.preprocessing import STOPWORDS as SW |
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from wordcloud import STOPWORDS |
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from gensim.corpora import Dictionary |
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from gensim.models.coherencemodel import CoherenceModel |
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from pprint import pprint |
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import numpy as np |
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import tqdm |
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from gensim.parsing.preprocessing import preprocess_string, strip_punctuation, strip_numeric |
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import torch |
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from transformers import T5ForConditionalGeneration,T5Tokenizer |
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from googletrans import Translator |
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from bertopic import BERTopic |
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from umap import UMAP |
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from sklearn.feature_extraction.text import CountVectorizer |
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from operator import itemgetter |
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import gradio as gr |
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from transformers import AutoTokenizer, AutoModelForSeq2SeqLM |
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global df |
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bearer_token = 'AAAAAAAAAAAAAAAAAAAAACEigwEAAAAACoP8KHJYLOKCL4OyB9LEPV00VB0%3DmyeDROUvw4uipHwvbPPfnTuY0M9ORrLuXrMvcByqZhwo3SUc4F' |
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client = tweepy.Client(bearer_token=bearer_token) |
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nlp = spacy.load('en_core_web_lg') |
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print('hi') |
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def scrape(keywords): |
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query = keywords + ' (lang:en OR lang:tl) -is:retweet' |
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max_results = 100 |
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tweet_fields=['geo', 'id', 'lang', 'created_at'] |
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expansions=['geo.place_id'] |
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place_fields = ['contained_within', 'country', 'country_code', 'full_name', 'geo', 'id', 'name', 'place_type'] |
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response = client.search_recent_tweets( |
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query=query, |
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max_results=max_results, |
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tweet_fields=tweet_fields, |
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expansions=expansions, |
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place_fields=place_fields |
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) |
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tweets = [] |
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for x in response[0]: |
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tweets.append(str(x)) |
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place_data = response[1] |
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df = pd.DataFrame(tweets, columns=['tweet']) |
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return place_data |
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def get_example(dataset): |
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df = pd.read_csv(dataset + '.csv') |
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return df |
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def give_emoji_free_text(text): |
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""" |
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Removes emoji's from tweets |
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Accepts: |
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Text (tweets) |
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Returns: |
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Text (emoji free tweets) |
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""" |
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emoji_list = [c for c in text if c in emoji.EMOJI_DATA] |
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clean_text = ' '.join([str for str in text.split() if not any(i in str for i in emoji_list)]) |
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return clean_text |
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def url_free_text(text): |
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''' |
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Cleans text from urls |
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''' |
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text = re.sub(r'http\S+', '', text) |
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return text |
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def get_lemmas(text): |
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'''Used to lemmatize the processed tweets''' |
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lemmas = [] |
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doc = nlp(text) |
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for token in doc: |
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if ((token.is_stop == False) and (token.is_punct == False)) and (token.pos_ != 'PRON'): |
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lemmas.append(token.lemma_) |
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return lemmas |
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def tokenize(text): |
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""" |
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Parses a string into a list of semantic units (words) |
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Args: |
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text (str): The string that the function will tokenize. |
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Returns: |
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list: tokens parsed out |
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""" |
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pattern = r"http\S+" |
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tokens = re.sub(pattern, "", text) |
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tokens = re.sub('[^a-zA-Z 0-9]', '', text) |
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tokens = re.sub('[%s]' % re.escape(string.punctuation), '', text) |
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tokens = re.sub('\w*\d\w*', '', text) |
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tokens = tokens.strip(',') |
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tokens = tokens.strip('?') |
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tokens = tokens.strip('!') |
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tokens = tokens.strip("'") |
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tokens = tokens.strip(".") |
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tokens = tokens.lower().split() |
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return tokens |
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def split_corpus(corpus, n): |
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for i in range(0, len(corpus), n): |
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corpus_split = corpus |
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yield corpus_split[i:i + n] |
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def compute_coherence_values_base_lda(dictionary, corpus, texts, limit, coherence, start=2, step=1): |
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print('compute coherence values base lda') |
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coherence_values = [] |
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model_list = [] |
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for num_topics in range(start, limit, step): |
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model = gensim.models.ldamodel.LdaModel(corpus=corpus, |
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num_topics=num_topics, |
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random_state=100, |
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chunksize=200, |
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passes=10, |
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per_word_topics=True, |
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id2word=id2word) |
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model_list.append(model) |
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coherencemodel = CoherenceModel(model=model, texts=texts, dictionary=dictionary, coherence=coherence) |
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coherence_values.append(coherencemodel.get_coherence()) |
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return coherence_values |
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def compute_coherence_values2(corpus, dictionary, k, a, b): |
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lda_model = gensim.models.ldamodel.LdaModel(corpus=corpus, |
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id2word=id2word, |
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num_topics=num_topics, |
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random_state=100, |
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chunksize=200, |
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passes=10, |
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alpha=a, |
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eta=b, |
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per_word_topics=True) |
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coherence_model_lda = CoherenceModel(model=lda_model, |
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texts=df['lemma_tokens'], |
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dictionary=id2word, |
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coherence='c_v') |
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return coherence_model_lda.get_coherence() |
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def assignMaxTopic(l): |
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maxTopic = max(l,key=itemgetter(1))[0] |
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return maxTopic |
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def assignTopic(l): |
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topics = [] |
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for x in l: |
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topics.append(x[0]) |
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def get_topic_value(row, i): |
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if len(row) == 1: |
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return row[0][1] |
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else: |
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try: |
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return row[i][1] |
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except Exception as e: |
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print(e) |
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def cleaning(df): |
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df.rename(columns = {'tweet':'original_tweets'}, inplace = True) |
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call_emoji_free = lambda x: give_emoji_free_text(x) |
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df['emoji_free_tweets'] = df['original_tweets'].apply(call_emoji_free) |
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df['url_free_tweets'] = df['emoji_free_tweets'].apply(url_free_text) |
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f = open('stopwords-tl.json') |
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tlStopwords = json.loads(f.read()) |
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stopwords = set(STOPWORDS) |
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stopwords.update(tlStopwords) |
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stopwords.update(['na', 'sa', 'ko', 'ako', 'ng', 'mga', 'ba', 'ka', 'yung', 'lang', 'di', 'mo', 'kasi']) |
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tokenizer = Tokenizer(nlp.vocab) |
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custom_stopwords = ['hi','\n','\n\n', '&', ' ', '.', '-', 'got', "it's", 'it’s', "i'm", 'i’m', 'im', 'want', 'like', '$', '@'] |
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STOP_WORDS = nlp.Defaults.stop_words.union(custom_stopwords) |
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ALL_STOP_WORDS = STOP_WORDS.union(SW).union(stopwords) |
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tokens = [] |
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STOP_WORDS.update(stopwords) |
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for doc in tokenizer.pipe(df['url_free_tweets'], batch_size=500): |
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doc_tokens = [] |
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for token in doc: |
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if token.text.lower() not in STOP_WORDS: |
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doc_tokens.append(token.text.lower()) |
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tokens.append(doc_tokens) |
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df['tokens'] = tokens |
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df['tokens_back_to_text'] = [' '.join(map(str, l)) for l in df['tokens']] |
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df['lemmas'] = df['tokens_back_to_text'].apply(get_lemmas) |
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df['lemmas_back_to_text'] = [' '.join(map(str, l)) for l in df['lemmas']] |
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df['lemma_tokens'] = df['lemmas_back_to_text'].apply(tokenize) |
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return df |
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def full_lda(df): |
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print('cleaning') |
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print('base model setup') |
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global id2word |
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id2word = Dictionary(df['lemma_tokens']) |
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id2word.filter_extremes(no_below=2, no_above=.99) |
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global corpus |
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corpus = [id2word.doc2bow(d) for d in df['lemma_tokens']] |
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global corpus_og |
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corpus_og = [id2word.doc2bow(d) for d in df['lemma_tokens']] |
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corpus_split = corpus |
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print('split corpus') |
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split_corpus(corpus_split, 5) |
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print('after split corpus') |
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print(corpus_split) |
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global coherence |
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coherence = 'c_v' |
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coherence_averages = [0] * 8 |
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for i in range(5): |
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print('coherence averages ' + str(i)) |
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training_corpus = corpus_split |
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training_corpus.remove(training_corpus[i]) |
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coherence_values = compute_coherence_values_base_lda(dictionary=id2word, |
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corpus=training_corpus, |
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texts=df['lemma_tokens'], |
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start=2, |
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limit=10, |
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step=1, |
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coherence='c_v') |
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for j in range(len(coherence_values)): |
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coherence_averages[j] += coherence_values[j] |
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coherence_averages = [x / 5 for x in coherence_averages] |
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if coherence == 'c_v': |
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k_max = max(coherence_averages) |
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else: |
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k_max = min(coherence_averages, key=abs) |
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global num_topics |
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num_topics = coherence_averages.index(k_max) + 2 |
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print('hyperparameter opt') |
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grid = {} |
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grid['Validation_Set'] = {} |
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min_topics = 1 |
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max_topics = 10 |
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step_size = 1 |
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topics_range = range(min_topics, max_topics, step_size) |
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alpha = [0.05, 0.1, 0.5, 1, 5, 10] |
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beta = [0.05, 0.1, 0.5, 1, 5, 10] |
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num_of_docs = len(corpus_og) |
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corpus_sets = [gensim.utils.ClippedCorpus(corpus_og, int(num_of_docs*0.75)), |
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corpus_og] |
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corpus_title = ['75% Corpus', '100% Corpus'] |
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model_results = {'Validation_Set': [], |
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'Alpha': [], |
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'Beta': [], |
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'Coherence': [] |
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} |
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if 1 == 1: |
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pbar = tqdm.tqdm(total=540) |
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for i in range(len(corpus_sets)): |
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for a in alpha: |
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for b in beta: |
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cv = compute_coherence_values2(corpus=corpus_sets[i], |
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dictionary=id2word, |
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k=num_topics, |
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a=a, |
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b=b) |
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model_results['Validation_Set'].append(corpus_title[i]) |
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model_results['Alpha'].append(a) |
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model_results['Beta'].append(b) |
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model_results['Coherence'].append(cv) |
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pbar.update(1) |
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pd.DataFrame(model_results).to_csv('lda_tuning_results_new.csv', index=False) |
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pbar.close() |
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params_df = pd.read_csv('lda_tuning_results_new.csv') |
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params_df = params_df[params_df.Validation_Set == '75% Corpus'] |
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params_df.reset_index(inplace=True) |
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params_df = params_df.replace(np.inf, -np.inf) |
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max_params = params_df.loc[params_df['Coherence'].idxmax()] |
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max_coherence = max_params['Coherence'] |
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max_alpha = max_params['Alpha'] |
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max_beta = max_params['Beta'] |
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max_validation_set = max_params['Validation_Set'] |
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global lda_model_final |
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lda_model_final = gensim.models.ldamodel.LdaModel(corpus=corpus_og, |
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id2word=id2word, |
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num_topics=num_topics, |
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random_state=100, |
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chunksize=200, |
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passes=10, |
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alpha=max_alpha, |
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eta=max_beta, |
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per_word_topics=True) |
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coherence_model_lda = CoherenceModel(model=lda_model_final, texts=df['lemma_tokens'], dictionary=id2word, |
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coherence='c_v') |
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coherence_lda = coherence_model_lda.get_coherence() |
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lda_topics = lda_model_final.show_topics(num_words=10) |
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print('assign topics') |
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topics = [] |
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filters = [lambda x: x.lower(), strip_punctuation, strip_numeric] |
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for topic in lda_topics: |
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topics.append(preprocess_string(topic[1], filters)) |
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df['topic'] = [sorted(lda_model_final[corpus_og][text][0]) for text in range(len(df['original_tweets']))] |
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df = df[df['topic'].map(lambda d: len(d)) > 0] |
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df['max_topic'] = df['topic'].map(lambda row: assignMaxTopic(row)) |
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global topic_clusters |
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topic_clusters = [] |
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for i in range(num_topics): |
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topic_clusters.append(df[df['max_topic'].isin(([i]))]) |
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topic_clusters[i] = topic_clusters[i]['original_tweets'].tolist() |
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print('rep topics') |
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global top_tweets |
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top_tweets = [] |
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for i in range(len(topic_clusters)): |
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tweets = df.loc[df['max_topic'] == i] |
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tweets['topic'] = tweets['topic'].apply(lambda x: get_topic_value(x, i)) |
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tweets_sorted = tweets.sort_values('topic', ascending=False) |
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tweets_sorted.drop_duplicates(subset=['original_tweets']) |
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rep_tweets = tweets_sorted['original_tweets'] |
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rep_tweets = [*set(rep_tweets)] |
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top_tweets.append(rep_tweets[:5]) |
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return top_tweets |
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def topic_summarization(topic_groups): |
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tokenizer = AutoTokenizer.from_pretrained("Michau/t5-base-en-generate-headline") |
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model = AutoModelForSeq2SeqLM.from_pretrained("Michau/t5-base-en-generate-headline") |
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translator = Translator() |
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headlines = [] |
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for i in range(len(topic_groups)): |
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tweets = " ".join(topic_groups[i]) |
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out = translator.translate(tweets, dest='en') |
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text = out.text |
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max_len = 256 |
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encoding = tokenizer.encode_plus(text, return_tensors = "pt") |
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input_ids = encoding["input_ids"] |
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attention_masks = encoding["attention_mask"] |
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beam_outputs = model.generate( |
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input_ids = input_ids, |
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attention_mask = attention_masks, |
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max_length = 64, |
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num_beams = 3, |
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early_stopping = True, |
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) |
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result = tokenizer.decode(beam_outputs[0]) |
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print(result) |
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headlines += "Topic " + str(i) + " " + result |
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return headlines |
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def compute_coherence_value_bertopic(topic_model): |
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topic_words = [[words for words, _ in topic_model.get_topic(topic)] for topic in range(len(set(topics))-1)] |
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coherence_model = CoherenceModel(topics=topic_words, |
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texts=df['lemma_tokens'], |
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corpus=corpus, |
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dictionary=id2word, |
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coherence=coherence) |
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coherence_score = coherence_model.get_coherence() |
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return coherence_score |
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def base_bertopic(df): |
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df['lemma_tokens_string'] = df['lemma_tokens'].apply(lambda x: ' '.join(x)) |
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global id2word |
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id2word = Dictionary(df['lemma_tokens']) |
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global corpus |
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corpus = [id2word.doc2bow(d) for d in df['lemma_tokens']] |
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global umap_model |
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umap_model = UMAP(n_neighbors=15, |
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n_components=5, |
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min_dist=0.0, |
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metric='cosine', |
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random_state=100) |
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base_topic_model = BERTopic(umap_model=umap_model, language="english", calculate_probabilities=True) |
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topics, probabilities = base_topic_model.fit_transform(df['lemma_tokens_string']) |
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try: |
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print(compute_coherence_value_bertopic(base_topic_model)) |
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except: |
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print('huh') |
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print(base_topic_model.get_topic_info()) |
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print('Unable to generate meaningful topics (Base BERTopic model)') |
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def optimized_bertopic(df): |
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vectorizer_model = CountVectorizer(max_features=1_000, stop_words="english") |
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optimized_topic_model = BERTopic(umap_model=umap_model, |
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language="multilingual", |
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n_gram_range=(1, 3), |
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vectorizer_model=vectorizer_model, |
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calculate_probabilities=True) |
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topics, probabilities = optimized_topic_model.fit_transform(df['lemma_tokens_string']) |
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try: |
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print(compute_coherence_value_bertopic(optimized_topic_model)) |
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except: |
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print('huh optimized') |
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print(optimized_topic_model.get_topic_info()) |
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print('Unable to generate meaningful topics, base BERTopic model if possible') |
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rep_docs = optimized_topic_model.representative_docs_ |
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global top_tweets |
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top_tweets = [] |
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for topic in rep_docs: |
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if topic == -1: |
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print('test') |
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continue |
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topic_docs = rep_docs.get(topic) |
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tweets = [] |
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for doc in topic_docs: |
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index = df.isin([doc]).any(axis=1).idxmax() |
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tweets.append(df.loc[index, 'original_tweets']) |
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top_tweets.append(tweets) |
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return top_tweets |
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global examples |
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def main(dataset, model, progress=gr.Progress(track_tqdm=True)): |
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global df |
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examples = [ "katip,katipunan", |
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"bgc,bonifacio global city", |
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"pobla,poblacion", |
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"cubao", |
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"taft" |
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] |
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keyword_list = dataset.split(',') |
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if len(keyword_list) > 1: |
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keywords = '(' + ' OR '.join(keyword_list) + ')' |
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else: |
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keywords = keyword_list[0] |
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|
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if dataset in examples: |
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df = get_example(keywords) |
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place_data = 'test' |
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else: |
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print(dataset) |
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place_data = str(scrape(keyword_list)) |
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print(df) |
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|
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if model == 'LDA': |
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df = cleaning(df) |
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print('doing lda') |
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top_tweets = full_lda(df) |
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print('done lda') |
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place_data = 'test' |
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else: |
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df = cleaning(df) |
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base_bertopic(df) |
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top_tweets = optimized_bertopic(df) |
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|
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print('doing topic summarization') |
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headlines = topic_summarization(top_tweets) |
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headlines = '\n'.join(str(h) for h in headlines) |
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print(headlines) |
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return place_data |
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|
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iface = gr.Interface(fn=main, |
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inputs=[gr.Dropdown(["katip,katipunan", |
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"bgc,bonifacio global city", |
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"cubao", |
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"taft", |
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"pobla,poblacion"], |
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label="Dataset"), |
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gr.Dropdown(["LDA", |
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"BERTopic"], |
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label="Model") |
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], |
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|
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outputs="text", |
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|
|
|
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enable_queue=True, |
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debug=True, |
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) |
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iface.launch(debug=True, enable_queue=True) |
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